.dt British Bees, by W. E. Shuckard—A Project Gutenberg eBook

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BRITISH BEES.
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<xxl>BRITISH BEES:</xxl>


AN INTRODUCTION

<s>TO THE STUDY OF THE</s>

NATURAL HISTORY AND ECONOMY OF THE BEES

<l><i>Indigenous to the British Isles</i>.</l>



BY

W. E. SHUCKARD,

<s>AUTHOR OF ‘ESSAY ON THE FOSSORIAL HYMENOPTERA,’ ‘COLEOPTERA
DELINEATED,’ ‘ELEMENTS OF BRITISH ENTOMOLOGY,’ MONOGRAPHS OF THE
‘DORYLIDÆ,’ ‘AULACIDÆ,’ ETC. ETC.; AND TRANSLATOR OF BURMEISTER’S
‘MANUAL OF ENTOMOLOGY.’</s>
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[Illustration: Decoration]
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LONDON:
LOVELL REEVE & CO., 5, HENRIETTA STREET, COVENT GARDEN.
1866.
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J. E. TAYLOR AND CO., PRINTERS,
LITTLE QUEEN STREET, LINCOLN’S INN FIELDS.
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<s>TO</s>

<xl>WILLIAM WILSON SAUNDERS, ESQ.,</xl>

F.R.S., TREAS. & V.P.L.S., F.Z.S.,

TREASURER OF THE ROYAL HORTICULTURAL SOCIETY,

ETC. ETC. ETC.,


IN TESTIMONY OF THE ABILITY, ZEAL, AND LIBERALITY

WITH WHICH HE CULTIVATES AND PROMOTES

THE SCIENCE OF ENTOMOLOGY;

<s>AND</s>

AS AN ACKNOWLEDGMENT OF MUCH KINDNESS,

EXTENDING OVER MANY YEARS,

<i>This Volume</i>

IS RESPECTFULLY INSCRIBED,

BY HIS FAITHFUL SERVANT,

W. E. SHUCKARD.
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PREFACE.
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<sc>A few</sc> words are necessary explanatory of the course
pursued in the following work, as regards the citation of
authorities.

All the facts recorded without reference to authorities,
are the result either of personal observation or of
diligent study, which, from the length of time that has
intervened, have become so blended in my mind that
I can no longer separate their sources. I may, however,
state that observation has, certainly, as often anticipated
the perusal of the discoveries of others, as their
record has stimulated direct observation to confirm
them.

The habits of animals, in which instinct is the sole
prompter, are so uniform, that these, once well observed,
may be considered as permanently established. The
slight deviations that have been occasionally noticed, although
temporarily infringing, do not abrogate the inflexibility
of the law which regulates this faculty; and
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the descendants inevitably resume the economy of the
ancestor.

The merit that attaches to the discovery of such facts
is due merely to patience and diligence, very common
attributes; and the repeated mention of the supposed
first observer must, necessarily, in a work of this kind,
which is far from being of a strictly scientific character,
diminish the interest of the narrative by interrupting
its connection, and thus making it an incongruous
mosaic. The omission to cite authorities may
also take place without any wish to detract from the
merit of the discoverer, which is patent to all by his own
record in the archives of science.

Before concluding, I wish to express my best thanks
to Thomas Desvignes, Esq., for the kindness and willingness
with which he lent me, for the purposes of this
work, my own selection from the Bees of his choice collection
of British insects.

I now dismiss the book—truly a labour of love—with
the hope that it will fall into the possession of
many, who may be sufficiently interested in the subject
to induce them to become ardent entomologists, by
showing them within how small a compass much agreeable
instruction lies.

<i><s>June</s>, 1866.</i>
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CONTENTS.
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CHAPTER I.
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 | PAGE
PRELIMINARY OBSERVATIONS, COMPRISING GENERAL REMARKS\
UPON THE USES OF BEES IN THE ECONOMY OF\
NATURE, THEIR DIVISION INTO SOCIAL AND SOLITARY,\
AND A NOTICE OF THEIR FAVOURITE PLANTS  | #1#
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CHAPTER II.
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GENERAL HISTORY OF BEES |   #17#
THE EGG   | #18#
THE LARVA | #19#
THE PUPA  | #22#
THE IMAGO | #23#
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CHAPTER III.
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SKETCH OF THE GEOGRAPHY OF THE GENERA OF BRITISH BEES |\
#61#
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CHAPTER IV.
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NOTICE OF THE MORE CONSPICUOUS FOREIGN GENERA | #101#
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CHAPTER V.
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PARASITES OF BEES AND THEIR ENEMIES | #109#
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CHAPTER VI.
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GENERAL PRINCIPLES OF SCIENTIFIC ARRANGEMENT | #118#
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CHAPTER VII.
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BRIEF NOTICE OF THE SCIENTIFIC CULTIVATION OF BRITISH BEES |\
#142#
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CHAPTER VIII.
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A NEW ARRANGEMENT OF BRITISH BEES, WITH ITS RATIONALE, AND AN\
INTRODUCTION TO THE FAMILY, SUBFAMILIES, SECTIONS, AND\
SUBSECTIONS | #153#
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CHAPTER IX.
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A TABLE, EXHIBITING A METHOD OF DETERMINING THE GENERA OF\
BRITISH BEES WITH FACILITY | #170#
EASY DISTRIBUTION OF THE BEES | #176#
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CHAPTER X.
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THE SCIENTIFIC ARRANGEMENT AND DESCRIPTION OF THE GENERA, WITH\
LISTS OF OUR NATIVE SPECIES, AND AN ACCOUNT OF THE HABITS AND\
ECONOMY OF THE INSECTS, WITH INCIDENTAL OBSERVATIONS SUGGESTED BY\
THE SUBJECT | #184#
<b>ANDRENIDÆ (SUBNORMAL BEES)</b> | #185#
GEN. 1. COLLETES  | #185#
GEN. 2. PROSOPIS  | #191#
GEN. 3. SPHECODES | #196#
GEN. 4. ANDRENA   | #200#
GEN. 5. CILISSA   | #211#
GEN. 6. HALICTUS  | #214#
GEN. 7. MACROPIS  | #220#
GEN. 8. DASYPODA  | #224#
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<b>APIDÆ (NORMAL BEES)</b> | #227#
SCOPULIPEDES (BRUSH-LEGGED BEES) | #227#
GEN. 9. PANURGUS    | #227#
GEN. 10. EUCERA     | #231#
GEN. 11. ANTHOPHORA | #236#
GEN. 12. SAROPODA   | #242#
GEN. 13. CERATINA   | #245#
<b>NUDIPEDES (CUCKOO-BEES)</b> | #249#
GEN. 14. NOMADA     | #249#
GEN. 15. MELECTA    | #255#
GEN. 16. EPEOLUS    | #258#
GEN  17. STELIS     | #262#
GEN. 18. CŒLIOXYS   | #265#
<b>DASYGASTERS (ARTISAN BEES)</b> | #269#
GEN. 19. MEGACHILE  | #269#
GEN. 20. ANTHIDIUM  | #279#
GEN. 21. CHELOSTOMA | #283#
GEN. 22. HERIADES   | #288#
GEN. 23. ANTHOCOPA  | #290#
GEN. 24. OSMIA      | #294#
<b>CENOBITES (SOCIAL BEES)</b> | #302#
GEN. 25. APATHUS    | #302#
GEN. 26. BOMBUS     | #307#
GEN. 27. APIS       | #318#
 |
<b>INDEX</b>            | #363#
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LIST OF PLATES.
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<sc>NOTE.</sc>—♂ signifies male; ♀, female; ⚲, neuter.
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<sc>#Plate I.:PLATE-I#</sc>
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 1. Colletes Daviesiana, ♂ ♀.
 2 ♂. Prosopis dilatata.
 2 ♀. Prosopis signata.
 3. Sphecodes gibbus, ♂ ♀.
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<sc>#Plate II.:PLATE-II#</sc>
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1. Andrena fulva, ♂ ♀.
2. Andrena cineraria, ♂ ♀.
3. Andrena nitida, ♂ ♀.
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<sc>#Plate III.:PLATE-III#</sc>
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1. Andrena Rosæ, ♂ ♀.
2. Andrena longipes, ♂ ♀.
3. Andrena cingulata, ♂ ♀.
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<sc>#Plate IV.:PLATE-IV#</sc>
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1. Halictus xanthopus, ♂ ♀.
2. Halictus flavipes, ♂ ♀.
3. Halictus minutissimus, ♂ ♀.
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<sc>#Plate V.:PLATE-V#</sc>
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1. Cilissa tricincta, ♂ ♀.
2. Macropis labiata, ♂ ♀.
3. Dasypoda hirtipes, ♂ ♀.
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<sc>#Plate VI.:PLATE-VI#</sc>
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1. Panurgus Banksianus, ♂ ♀.
2. Eucera longicornis, ♂ ♀.
3. Anthophora retusa, ♂ ♀.
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<sc>#Plate VII.:PLATE-VII#</sc>
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1. Anthophora furcata, ♂ ♀.
2. Saropoda bimaculata, ♂ ♀.
3. Ceratina cærulea, ♂ ♀.
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<sc>#Plate VIII.:PLATE-VIII#</sc>
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1. Nomada Goodeniana, ♂ ♀.
2. Nomada Lathburiana, ♂ ♀.
3. Nomada sexfasciata, ♂ ♀.
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.in 5
<sc>#Plate IX.:PLATE-IX#</sc>
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1. Nomada signata, ♂ ♀.
2. Nomada Fabriciana, ♂ ♀.
3. Nomada flavoguttata, ♂ ♀.
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<sc>#Plate X.:PLATE-X#</sc>
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1. Nomada Jacobææ, ♂ ♀.
2. Nomada Solidaginis, ♂ ♀ (that marked ♂* should be ♀).
3. Nomada lateralis, ♂ ♀.
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<sc>#Plate XI.:PLATE-XI#</sc>
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1. Melecta punctata, ♂ ♀.
2. Epeolus variegatus, ♂ ♀.
3. Stelis phæoptera, ♂ ♀.
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<sc>#Plate XII.:PLATE-XII#</sc>
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1. Cœlioxys Vectis, ♂ ♀.
2. Megachile maritima, ♂ ♀.
3. Megachile argentata, ♂ ♀.
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.in 5
<sc>#Plate XIII.:PLATE-XIII#</sc>
.in 4
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1. Anthidium manicatum, ♂ ♀.
2. Chelostoma florisomne, ♂ ♀.
3. Heriades truncorum, ♂ ♀.
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<sc>#Plate XIV.:PLATE-XIV#</sc>
.in 4
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1. Osmia bicolor, ♂ ♀.
2. Anthocopa Papaveris, ♂ ♀.
3. Osmia leucomelana, ♂ ♀.
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<sc>#Plate XV.:PLATE-XV#</sc>
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1. Apathus rupestris, ♂ ♀.
2 ♂. Apathus campestris (the sexual sign to this should be ♀).
2 ♀. Apathus vestalis.
3. Bombus fragrans, ♀.
4. Bombus Soroensis, ♂ (var. Burrellanus).
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.in 5
<sc>#Plate XVI.:PLATE-XVI#</sc>
.in 4
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1. Bombus Harrisellus, ♀.
2. Bombus Lapponicus, ♀.
3. Bombus sylvarum, ♀.
4. Apis mellifica, ♂ ♀ ⚲.
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<xl>BRITISH BEES.</xl>

<l>(<i>HYMENOPTERA.</i>)</l>
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<l>CHAPTER I</l> || <sc>PRELIMINARY OBSERVATIONS,</sc>
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<sc>COMPRISING GENERAL REMARKS UPON THE USES OF BEES IN THE
ECONOMY OF NATURE; THEIR DIVISION INTO SOCIAL AND SOLITARY;
AND A NOTICE OF THEIR FAVOURITE PLANTS.</sc>
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<sc>It</sc> is very natural that the “Bee” should interest the
majority of us, so many agreeable and attractive associations
being connected with the name. It is immediately
suggestive of spring, sunshine, and flowers,—meadows
gaily enamelled, green lanes, thymy downs, and fragrant
heaths. It speaks of industry, forethought, and competence,—of
well-ordered government, and of due but not
degrading subordination. The economy of the hive has
been compared by our great poet to the polity of a
populous kingdom under monarchical government. He
says:—
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            “Therefore doth Heaven divide
The state of man in divers functions,
Setting endeavour in continual motion;
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To which is fixed, as an aim or butt,
Obedience: for so work the honey-bees;
Creatures, that, by a rule in nature, teach
The act of order to a peopled kingdom.
They have a king, and officers of sorts:
Where some, like magistrates, correct at home;
Others, like merchants, venture trade abroad;
Others, like soldiers, armed in their stings,
Make boot upon the summer’s velvet buds;
Which pillage they, with merry march, bring home
To the tent-royal of their emperor:
Who, busied in his majesty, surveys
The singing masons building roofs of gold;
The civil citizens kneading up the honey;
The poor mechanick porters crowding in
Their heavy burdens at his narrow gate;
The sad-ey’d justice, with his surly hum,
Delivering o’er to éxecutors pale
The lazy yawning drone.”—<i>Henry V.</i>, 1, 2.
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Nothing escaped the wonderful vision of this “myriad-minded”
man, and its pertinent application.

This description, although certainly not technically
accurate, is a superb broad sketch, and shows how well
he was acquainted with the natural history and habits of
the domestic bee.

The curiosity bees have attracted from time immemorial,
and the wonders of their economy elicited by the
observation and study of modern investigators, is but a
grateful return for the benefits derived to man from
their persevering assiduity and skill. It is the just
homage of reason to perfect instinct running closely
parallel to its own wonderful attributes. Indeed, so
complex are many of the operations of this instinct, as
to have induced the surmise of a positive affinity to
reason, instead of its being a mere analogy, working
blindly and without reflection. The felicity of the adaptation
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of the hexagonal waxen cells, and the skill of the
construction of the comb to their purposes, has occupied
the abstruse calculations of profound mathematicians;
and since human ingenuity has devised modes of investigating,
unobserved, the various proceedings of the interior
of the hive, wonder has grown still greater, and
admiration has reached its climax.

The intimate connection of “Bees” with nature’s
elegancies, the Flowers, is an association which links
them agreeably to our regard, for each suggests the
other; their vivacity and music giving animation and
variety to what might otherwise pall by beautiful but
inanimate attractions. When we combine with this the
services bees perform in their eager pursuits, our admiration
extends beyond them to their Great Originator,
who, by such apparently small means, accomplishes so
simply yet completely, a most important object of creation.

That bees were cultivated by man in the earliest
conditions of his existence, possibly whilst his yet
limited family was still occupying the primitive cradle
of the race at Hindoo Koosh, or on the fertile slopes of
the Himalayas, or upon the more distant table-land or
plateau of Thibet, or in the delicious vales of Cashmere,
or wherever it might have been, somewhere widely away
to the east of the Caspian Sea,—is a very probable supposition.
Accident, furthered by curiosity, would have
early led to the discovery of the stores of honey which
the assiduity of bees had hoarded;—its agreeable savour
would have induced further search, which would have
strengthened the possession by keener observation, and
have led in due course to the fixing them in his immediate
vicinity.
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To this remote period, possibly not so early as the
discovery of the treasures of the bee, may be assigned
also the first domestication of the animals useful to man,
many of which are still found in those districts in all
their primitive wildness. The discovery and cultivation
of the cereal plants will also date from this early age.
The domestication of animals has never been satisfactorily
explained, but all inquiry seems to point to those
regions as the native land, both of them, and of the
<i>gramineæ</i>, which produce our grain; for Heinzelmann,
Linnæus’s enthusiastic disciple, found there those
grasses still growing wild, which have not been found
elsewhere in a natural state.

Thus, long before the three great branches of the
human race, the Aryan, Shemitic, and Turonian, took
their divergent courses from the procreative nest which
was to populate the earth, and which Max Müller proposes
to call the Rhematic period, they were already
endowed from their patrimony with the best gifts nature
could present to them; and they were thus fitted, in their
estrangement from their home, with the requirements,
which the vicissitudes they might have to contend with
in their migrations, most needed. They would eventually
have settled into varying conditions, differently
modified by time acting conjunctively with climate and
position, until, in the lapse of years, and the changes
the earth has since undergone, the stamp impressed by
these causes, which would have been originally evanescent,
became indelible. That but one language was
originally theirs, the researches of philology distinctly
prove, by finding a language still more ancient than its
Aryan, Shemitic, and Turonian derivatives. From this
elder language these all spring, their common origin
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being deduced from the analogies extant in each. These
investigations are confirmed by the Scriptural account
that “The whole earth was of one language and of one
speech,” previous to the Flood, and it describes the first
migration as coincident with the subsidence of the
waters.

That violent cataclysms have since altered the face of
the then existing earth, the records of geological science
amply show; and that some of mankind, in every portion
of the then inhabited world, survived these catastrophes,
and subsequently perpetuated the varieties of race, may
be inferred from those differences in moral and physical
features which now exist, and which have sometimes
suggested the impossibility of a collective derivation
from one stock. The philological thread, although generally
a mere filament of extreme tenuity, holds all firmly
together.

That animals had been domesticated in a very early
stage of man’s existence, we have distinct proof in many
recent geological discoveries, and all these discoveries
show the same animals to have been in every instance
subjugated; thus pointing to a primitive and earlier
domestication in the regions where both were originally
produced. That pasture land was provided for the sustenance
of these animals, they being chiefly herbivorous,
is a necessary conclusion. Thence ensues the fair
deduction that <i>phanerogamous</i>, or flower-bearing plants
coexisted, and bees, consequently, necessarily too,—thus
participating reciprocal advantages, they receiving from
these plants sustenance, and giving them fertility.

These islands, under certain modifications, were, previous
to the glacial period, one land with the continent of
Europe; and it was when thus connected that those
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many tropical forms of animal life, whose fossil remains
are found embedded in our soil, passed hither. By the
comparatively rapid intervention of geological changes,
some of the lower forms of life went no further than the
first land they reached, and are, consequently, not even
now to be found so far west as Ireland: the migration
appears clearly to have come from the East. Thus,
although we have no direct evidence of the presence of
“bees,” yet as insects must have existed here, from the
certainty that the remains of insect-feeding reptiles are
found, as well as those of herbivorous animals, it may be
concluded that “bees” also abounded.

Claiming thus this very high antiquity for man’s
nutritive “bee,” which was of far earlier utility to him
than the silkworm, whose labours demanded a very advanced
condition of skill and civilization to be made
available; it is perfectly consistent, and indeed needful,
to claim the simultaneous existence of all the bee’s
allies. The earliest Shemitic and Aryan records, the
Book of Job, the Vedas, Egyptian sculptures and papyri,
as well as the poems of Homer, confirm the early
cultivation of bees by man for domestic uses; and
their frequent representation in Egyptian hieroglyphics,
wherein the bee occurs as the symbol of royalty, clearly
shows that their economy, with a monarch at its head,
was known; a hive, too, being figured, as Sir Gardner
Wilkinson tells us, upon a very ancient tomb at Thebes, is
early evidence of its domestication there, and how early,
even historically, it was brought under the special dominion
of mankind. To these particulars I shall have
occasion to refer more fully when the course of my narrative
brings me to treat of the geographical distribution
of the “honey-bee;” I adduce it now merely to
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intimate how very early, even in the present condition
of the earth, bees were beneficial to mankind, and that,
therefore, the connection may have subsisted, as I have
previously urged, in the remotest and very primitive
ages of the existence of man; and that imperatively with
them, the entire family of which they form a unit only,
was also created.

In America, where <i>Apis mellifica</i> is of European introduction,
swarms of this bee, escaping domestication,
resume their natural condition, and have pressed forward
far into the uncleared wild; and widely in advance of
the conquering colonist, they have taken their abode in
the primitive, unreclaimed forest. Nor do they remain
stationary, but on, still on, with every successive year,
spreading in every direction; and thus surely indicating
to the aboriginal red-man the certain, if even slow, approach
of civilization, and the consequent necessity of
his own protective retreat:—a strong instance of the distributive
processes of nature. It clearly shows how the
wild bees may have similarly migrated in all directions
from the centre of their origin. That they are now
found at the very <i>ultima Thule</i>, so far away from their
assumed incunabula, and with such apparent existing
obstructions to their distributive progress, is a proof, had
we no other, that the condition of the earth must have
been geographically very different at the period of their
beginning, and that vast geological changes have, since
then, altered its physical features. Where islands now
exist, these must then have formed portions of widely
sweeping continents; and seas have been dry land, which
have since swept over the same area, insulating irregular
portions by the submergence of irregular intervals, and
thus have left them in their present condition, with
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their then existing inhabitants restricted to the circuit
they now occupy. That long periods of time must
necessarily have elapsed to have effected this by the
methods we still see in operation, is no proof that it has
not been. Nature, in her large operations, has no
regard for the duration of time. Her courses are so
sure that they are ever eventually successful; for, as to
her, whose permanency is not computable, it matters not
what period the process takes; and she is as indifferent
to the seconds of time whereby man’s brevity is spanned,
as she is to the wastefulness of her own exuberant resources,
knowing that neither is lost to the result at
which she reaches. Consuming the one, and scattering
broadcast the other, but in unnoticeable infinitesimals,
she does it irrespective of the origin, the needs, or the
duration of man, who can only watch her irrepressible
advances by transmitting from generation to generation
the record of his observations; marking thus by imaginary
stations the course of the incessant stream which
carries him upon its surface.

That other bees are found besides the social bees, may
be new to some of my readers, who will perhaps now
learn, for the first time, that collective similarities of
organization and habits associate other insects with
“the bee” as bees. Although the names “domestic
bee,” “honey-bee,” or “social bee,” imply a contradistinction
to some other “bee,” yet it must have been
very long before even the most acute observers could
have noticed the peculiarities of structure which constitute
other insects “bees,” and ally the “wild bees” to
the “domestic bee,” from the deficiency of artificial
means to examine minutely the organization whereby the
affinity is clearly proved. This is also further shown in
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the poverty of our language in vernacular terms to express
them distinctively; for even the name of “wild bees,”
in as far as it has been applied to any except the “honey-bee”
in a wildered state, is a usage of modern introduction,
and of date subsequent to their examination and
appreciation. Our native tongue, in the words “bee,”
“wasp,” “fly,” and “ant,” compasses all those thousands
of different winged and unwinged insects, which
modern science comprises in the two very extensive
Orders in entomology of the <i>Hymenoptera</i> and the <i>Diptera</i>;—thus
exhibiting how very poor common language
is in words to note distinctive differences in creatures,
even where the differences are so marked, and the habits
so dissimilar, as in the several groups constituting these
Orders. But progressively extending knowledge, and a
more familiar intimacy with insects and their habits,
will doubtless, in the course of time, supervene, as old
aversions, prejudices, and superstitions wear out, when
by the light of instruction we shall gradually arouse to
perceive that “His breath has passed that way too;”
and that, therefore, they all put forth strong claims to
the notice and admiration of man.

It is highly improbable that ordinary language will
ever find distinctive names to indicate <i>genera</i>, and far
less <i>species</i>: and although we have some few words
which combine large groups, such as “gnats,” “flesh-flies,”
“gad-flies,” “gall-flies,” “dragon-flies,” “sand
wasps,” “humble-bees,” etc. etc.; and, although the
small group, it is my purpose in the following pages to
show in all their attractive peculiarities, has had several
vernacular denominations applied to them to indicate
their most distinctive characteristics, such as “cuckoo-bees,”
“carpenter bees,” “mason bees,” “carding bees,”
.pn +1
.bn 024.png
etc., yet many which are not thus to be distinguished,
will have to wait long for their special appellation.

The first breathings of spring bring forth the bees.
Before the hedge-rows and the trees have burst their
buds, and expanded their yet delicate green leaves to
the strengthening influence of the air, and whilst only
here and there the white blossoms of the blackthorn
sparkle around, and patches of chickweed spread their
bloom in attractive humility on waste bits of ground in
corners of fields,—they are abroad. Their hum will be
heard in some very favoured sunny nook, where the
precocious primrose spreads forth its delicate pale blossom,
in the modest confidence of conscious beauty, to
catch the eye of the sun, as well as—
.fs 80%
.nf b
“Daffodils, that come before the swallow dares,
 And take the winds of March with beauty.”—<i>Shakspeare.</i>
.nf-
.fs 100%
.ni
The yellow catkins of the sallow, too, are already
swarmed around by bees, the latter being our northern
representative of the palm which heralded “peace to
earth and goodwill to man.” The bees thus announce
that the business of the year has begun, and that the
lethargy of winter is superseded by energetic activity.
.pi
The instinctive impulse of the cares of maternity
prompt the wild bees to their early assiduity, urging
them to their eager quest of these foremost indicators
of the renewed year. The firstling bees are forthwith
at their earnest work of collecting honey and pollen,
which, kneaded into a paste, are to become both the
cradle and the sustenance of their future progeny.

Wherever we investigate wonderful Nature, we observe
the most beautiful adaptations and arrangements,—everywhere
the correlations of structure with function;
.pn +1
.bn 025.png
in confirmation of which I may here briefly notice in
anticipation, that the bees are divided into two large
groups,—the short-tongued and the long-tongued,—and
it is the short-tongued,—some of the <i>Andrenidæ</i>,—which
are the first abroad; the corollæ of the first
flowers being shallow and the nectar depositories obvious,
an arrangement which facilitates their obtaining with
facility the honey already at hand. These bees are also
amply furnished,—as will be afterwards explained,—in the
clothing of their posterior legs, or otherwise, with the
means to convey home the pollen which they vigorously
collect, finding it already in superfluous abundance, and
which, being borne from flower to flower, impregnates and
makes fruitful those plants which require external agents
to accomplish their fertility. Thus nature duly provides,
by an interchange of offices, for the general good, and
by simple, although sometimes obscure means, gives
motion and persistency to the wheel within wheel which
so exquisitely fulfil her designs, and roll forward, unremittingly,
her stupendous fabric.

The way in which the bees execute this object and
design of nature, and to which they, more evidently than
any other insects, are called to the performance, is shown
in the implanted instinct which prompts them to seek
flowers, knowing, by means of that instinct, that flowers
will furnish them with what is needful both for their
own sustenance, and for that of their descendants.
Flowers, to this end, are furnished with the requisite
attractive qualifications to allure the bees. Whether
their odour or their colour be the tempting vehicle, or
both conjunctively, it is scarcely possible to say, but
that they should hold out special invitation is requisite
to the maintenance of their own perpetuity. This, it is
.pn +1
.bn 026.png
supposed, the colour of flowers chiefly effects by being
visible from a distance. Flowers, within themselves, indicate
to the bees visiting them the presence of nectaria
by spots coloured differently from their petals. This
nectar, converted by bees into honey, is secreted by
glands or glandulous surfaces, seated upon the organs
of fructification; and nature has also furnished means
to protect these depositories of honey for the bees, from
the intrusive action of the rain, which might wash the
sweet secretion away. To this end it has clothed the
corollæ with a surface of minute hairs, which effectually
secures them from its obtrusive action, and thus displays
the importance it attaches to the co-operation of the
bees. That bees should vary considerably in size, is a
further accommodation of nature to promote the fertilization
of flowers, which, in some cases, small insects
could not accomplish. Many plants could not be perpetuated,
but for the agency of insects, and especially
of bees; and it is remarkable that it is chiefly those
which require the aid of this intervention that have a
nectarium, and secrete honey. By thus seeking the
honey, and obtaining it in a variety of ways, bees accomplish
this great object of nature. It often, also, happens
that flowers which even contain within themselves the
means of ready fructification cannot derive it from the
pollen of their own anthers, but require that the pollen
should be conveyed to them from the anthers of younger
flowers; in some cases the reverse takes place, as for
instance, in the <i>Euphorbia Cyparissias</i>, wherein it is
the pollen of the older flower which, through the same
agency, fertilizes the younger. Although many flowers
are night-flowers, yet the very large majority expand
during the day; but to meet the requirements of those
.pn +1
.bn 027.png
which bloom merely at night, nature has provided means
by the many moths which fly only at that time, and
thus accomplish what the bees perform under the eye of
the sun. Here insects are again subservient to the accomplishment
of this great act; for the petals of even the
flowers which open in the night only are usually highly
coloured, or where this not the case, they then emit a
powerful odour, both being means to attract the required
co-operation. But of course our clients have
nothing to do with these night-blooming flowers, as I
am not aware of a single instance of a night-flying bee;
nor are they on the wing very late in the evening,
being before sunset, already in their nidus. In those
occasional cases where the nectarium of the flower is
not perceptible, if the spur of such a flower which usually
becomes the depository of the nectar that has oozed
from the capsules secreting it, be too narrow for the entrance
of the bee, and even beyond the reach of its long
tongue, it contrives to attain its object by biting a hole
on the outside, through which it taps the store. The
skill of bees in finding the honey, even when it is much
withdrawn from notice, is a manifest indication of
the prompting instinct which tells them where to seek
it, and is a matter of extreme interest to the observer,
for the honey-marks—the <i>maculæ indicantes</i>—surely
guide them; and where these, as in some flowers, are
placed in a circle upon its bosom, as the mark upon
that of Imogen, who had—
.fs 80%
.nf b
                  “On her left breast
A mole cinque-spotted, like the crimson drops
I’ the bottom of a cowslip.”—<i>Shakspeare.</i>
.nf-
.fs 100%
.ni
they work their way around, lapping the nectar as
.pn +1
.bn 028.png
they go. To facilitate this fecundation of plants, which
is Nature’s prime object, bees are usually more or less
hairy; so that if even they limit themselves to imbibing
nectar, they involuntarily fulfil the greater design by
conveying the pollen from flower to flower. To many
insects, especially flies, some flowers are a fatal attraction,
for their viscous secretions often make these insects
prisoners, and thus destroy them. To the bees this
rarely or never happens, either by reason of their superior
strength, or possibly from the instinct which repels
them from visiting flowers which exude so clammy a substance.
It is probably only to the end of promoting
fertilization by the attraction of insects that the structure
of those flowers which secrete nectar is exclusively
conducive, and which fully and satisfactorily explains
the final cause of this organization.
.pi
To detect these things, it is requisite to observe
nature out of doors,—an occupation which has its own
rich reward in the health and cheerfulness it promotes,—and
there to watch patiently and attentively. It is only
by unremitting perseverance, diligence, and assiduity
that we can hope to explore the interesting habits and
peculiar industries of these, although small, yet very
attractive insects.

Amongst the early blossoming flowers most in request
with the bees, and which therefore seem to be great
favourites, we find the chickweed (<i>Alsine media</i>), the
primrose, and the catkins of the sallow; and these in
succession are followed by all the flowers of the spring,
summer, and autumn. Their greatest favourites would
appear to be the <i>Amentaceæ</i>, or catkin-bearing shrubs and
trees, the willow, hazel, osier, etc., from the male flowers
of which they obtain the pollen, and from the female
.pn +1
.bn 029.png
the honey; all the <i>Rosaceæ</i>, especially the dog-rose, and
<i>Primulaceæ</i>, the <i>Orchideæ</i>, <i>Caryophyllaceæ</i>, <i>Polygoneæ</i>,
and the balsamic lilies; clover is very attractive to them,
as are also tares; and the spots on those leaves of the
bean which appear before the flower, and exude a sweet
secretion; also the flowers of all the cabbage tribe. Beneath
the shade of the lime, when in flower, may be heard
above one intense hum of thrifty industry. The blossoms
of all the fruit-trees and shrubs, standard or wall,
and all aromatic plants are highly agreeable to them,
such as lavender, lemon-thyme, mignonette, indeed all
the <i>resedas</i>; also sage, borage, etc. etc.; but the especial
favourites of particular genera and species I shall have
occasion subsequently to notice in their series; but to
mention separately all the flowers they frequent would be
to compile almost a complete flora. Bees are also endowed
with an instinct that teaches them to avoid certain
plants that might be dangerous to them. Thus,
they neither frequent the oleander (<i>Nerium Oleander</i>)
nor the crown imperial (<i>Fritillaria imperialis</i>), and
they also avoid the <i>Ranunculaceæ</i>, on account of some
poisonous property; and although the <i>Melianthus major</i>
drops with honey, it is not sought. It is a native of the
Cape of Good Hope, and may be attractive only to the
bees indigenous to the country, which is also the case
with other greenhouse plants equally rich in honey, but
which not being natives, possibly from that cause the
instincts of native insects have no affinity with them.

Bees may be further consorted with flowers by the
analogy and parallelism of their stages of existence.
Thus, the egg is the equivalent to the seed; the <i>larva</i>
to the germination and growth; the <i>pupa</i> to the bud;
and the <i>imago</i> to the flower. The flower dies as soon
.pn +1
.bn 030.png
as the seed is fully formed, which is then disseminated by
many wonderful contrivances to a propitious soil; and
the wild bees die as soon as the store of eggs is as wonderfully
deposited, according to their several instincts,
in fitting receptacles, and provision furnished to sustain
the development of the progeny. Thus, each secures
perpetuity to its species, but individually ceases; whereas
the unfecundated plant and the celibate insect may, severally,
prolong for a short but indefinite period, a brief
existence, to terminate in total extinction. Nature thus
vindicates her rights, for nothing remains sterile with
impunity.
.pn +1
.bn 031.png
.pb
.sp 4
.h2
CHAPTER II || <sc>GENERAL HISTORY OF BEES.</sc>
.sp 2
.nf c
<sc>THE EGG.—THE LARVA.—THE PUPA.—THE IMAGO.</sc>
.nf-
.sp 2
.ni
<sc>Although</sc> the preceding pages have been written
upon the assumption that the reader knows what a bee
is, now that we are gradually approaching the more
special and technical portion of the subject it will be
desirable to conform a little to the ordinary usages of
scientific treatment.
.pi
The bees constitute a family of the order <i>Hymenoptera</i>,
viz. insects ordinarily, but in the case of bees
always, with four transparent wings, which are variously
but partially traversed longitudinally and transversely
with threads, called nervures, supposed to be tubular,
the relative position of which, together with the areas
they enclose, called cells, help to give characters to the
genera.

Most of the <i>Hymenoptera</i> further possess some kind
of an ovipositor,—of course restricted to the females,—varying
considerably in the different families. This is
sometimes external, but is often seated within the apex
of the abdomen, whence it can be protruded for the
purpose of depositing the egg in its right nidus. In
our insect this organ is converted into a weapon of defence
.pn +1
.bn 032.png
and offence, and forms a sting, supplied by glands
with a very virulent poison, which the bee can inject
into the wound it inflicts. It is not certain that this
organ is used by the bee as an ovipositor, although it
is evident it is its analogue. This brief description of
the essential peculiarities of the family will, for the present,
suffice. In the notice of the imago, I shall enlarge
upon the general structure, and then particularize those
portions of it which may facilitate further progress.

<i>The Egg.</i>—Although the egg of the parent is the
source of the origin of the bee, we cannot abruptly commence
from this point, for the preliminary labours of
the mother are indispensable to the evolution of its offspring.
This egg has to be placed in a suitable depository,
together with the requisite food for the sustenance
of the vermicule that will be disclosed from it.

Instinct instructs the parent where and how to form
the nidus for its egg. These depositories differ considerably
in the several genera, but, as a general rule,
they are tubes burrowed by the mother either in earth,
sand, decaying or soft wood, branches of plants having
a pith, the halm of grain, cavities already existing in
many substances, and even within the shells of dead
snails. These perforations are sometimes simple, and
sometimes they have divergent and ramifying channels.
Sometimes they are carefully lined with a silky membrane
secreted by the insect, and sometimes they are
hung with a tapestry of pieces of leaves, cut methodically
from plants, but some leave their walls entirely
bare. All these particulars I shall have ample opportunity
to note in the special descriptions of the genera.
I merely indicate them to show how various are the
receptacles for the offspring of our bees.

.pn +1 // 019
.bn 033.png

.if h
.il fn=i_p019_fig01.jpg w=50px
.ca
Fig. 1. The Egg.
.ca-
.if-
.if t
.ti +8
[Illustration: Fig. 1. The Egg.]
.in 0
.if-

Before the egg is placed within its nidus, this is supplied
with the requisite quantity of food needful for the
support of the young to the full period of its maturity.
The receptacle is then closed, and the same process is
repeated again and again until the parent has laid her
whole store of eggs. In other cases one tube,
or its ramification, contains but one egg. These
eggs are usually oblong, slightly curved, and tapering
at one extremity; they vary in size according
to the species, but are never, however,
above a line in length, and sometimes they are very
minute. When the stock of the mother bee is exhausted
she leaves them to the careful nursing of nature, and the
young is speedily evolved. She then wanders forth;
time has brought senility; her occupation has gone;
and she passes away; but her progeny survive to perpetuate
the continual chain of existence.

<i>The Larva.</i>—The temperature of the perforated tube
wherein the egg is deposited must necessarily be higher
and more equal than that of the external atmosphere,
being secluded from its vicissitudes. The egg is soon
hatched, and the larva emerges from its shell to feed
ravenously upon the sustenance stored up for its supply.
This consists of an admixture of pollen and honey formed
into a paste, the quantities varying according to the
size of the species. By some species it is formed into
little balls; by others, it is heaped irregularly at the
bottom of the cell. In the case of <i>Andrena</i> the quantity
stored is of about the size of a pea. That it must
be exceeding nutritious may be inferred from its very
nature, consisting, as it does, of the virile, energetic,
and fertilizing powder of plants,—the concentration of
their living principle. It is strictly analogous to the
.pn +1 // 020
.bn 034.png
fecundating property of the semen in animals, and, like
them, produces spermatozoa, a fact corroborated by the
researches of Robert Brown, Mirbel, and other distinguished
vegetable physiologists.[#]
.pm fn-start
Might not, by parity of inference, the milt of fishes, such as the
herring, mackerel, etc., be a useful food in cases of consumption, both
from the iodine necessarily existing in it, and also from its doubtless
nutritive nature?
.pm fn-end
We are told that the cells of <i>Hylæus</i>, or <i>Prosopis</i>, and
of <i>Ceratina</i> are supplied with a semifluid honey. It is
very doubtful if <i>Hylæus</i> collects its own store, but that
<i>Ceratina</i> does, I have the authority of an exact observer
(Mr. Thwaites) to verify it, for he has caught this insect
with pollen on its posterior legs, which the long
hair covering the tibia is intended for. What may be
the nature of this semifluid honey? It is questionable
if the larva could be nurtured upon honey alone without
the admixture of pollen, thus contradicting analogies
presumable from ample verification in nature’s processes.
How, too, does it become semifluid? It is the property
of honey, at a certain temperature, to be very fluid, and
this is doubtless the temperature that prevails within
the receptacle of the larva during the time of the operations
of the bees.

Its semifluid consistency could then apparently be
produced only by some more solid admixture, which, if
not of pollen, of what can it be? This, even in small
quantities, might, upon the bursting of its vesicles, have
the power of thickening the fluent honey to the necessary
consistency.

But a bee without polliniferous organs cannot collect
pollen, and the instance of the hive bee, which collects
honey in superabundance, feeding its larva with the bee-bread,
.pn +1 // 021
.bn 035.png
must inevitably lead to the conclusion that the
larvæ of bees require more than honey for their sustenance.
Nature is not usually wantonly wasteful of its
resources, and if honey sufficed for the nurture of the
grub, so much pollen would not be abstracted from its
legitimate purpose, nor would bees have this double
trouble given to them. By the admixture of pollen the
honey has energetic power infused into it by the spermatozoa
which that contains. But it must necessarily
be collected, for I never observed, nor have I seen recorded,
any instance of the pollen being eaten on the
flower and regurgitated into the cell in combination
with the imbibed honey.

Pollen is eaten by the domestic bee and humble-bee
to form wax for the structure of their cells, but the solitary
bees do not themselves consume it.

.if h
.il fn=i_p021_fig02.jpg w=300px
.ca
Fig. 2.—<i>a</i>, the Larva, when growing;<br>\
<i>b</i>, when preparing to change;<br>\
<i>c</i>, the head, viewed in front.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Fig. 2.—<i>a</i>, the Larva, when growing;<br><i>b</i>,\
when preparing to change;<br><i>c</i>, the head, viewed in front.]
.in 0
.if-

The larva, when excluded from the egg, is a fleshy
grub, slightly curved, and a little pointed at each extremity.
Its body is transversely constricted, the constrictions
corresponding with its fifteen segments, each
of which, excepting the head and four terminal ones, is
supplied with a spiracle placed at the sides, whereby it
breathes; and it has no feet. These segments have on
each side a series of small tubercles, which facilitate the
restricted motions of the grub, confined to the boundaries
.pn +1 // 022
.bn 036.png
of its cell. Its small head, which is smooth above,
has a little projecting horn on each side representing
the future antennæ. The small lateral jaws articulate
beneath a narrow labrum or lip, which folds down over
them. To prove that the food provided requires still
further comminution, these jaws are incessantly masticating
it. The form of these jaws approximates to that
of the insect which it will produce, being toothed and
broad at the apex in the artisan and wood-boring bees,
and simple in those which burrow in softer substances.
On each side beneath these jaws there is an appendage,
rather plump, having a setiform process at its extremity,
and beneath these, in the centre, we observe a fleshy
protuberance which, at its tip, has a smaller perforated
process that emits the viscid liquid with which the grub
spins its cocoon, and which immediately hardens to the
consistency of silk.

.if h
.il fn=i_p022_fig03.jpg w=300px
.ca
Fig. 3.—<i>a</i>, the pupa, seen beneath;<br><i>b</i>, seen
above;<br><i>c</i>, seen laterally.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Fig. 3.—<i>a</i>, the pupa, seen beneath;<br><i>b</i>, seen
above;<br><i>c</i>, seen laterally.]
.in 0
.if-

Having constructed its cocoon, where the species does
so,—for it is not incidental to all the genera,—and
shrunk to its most compact dimensions, the larva becomes
transformed into

<i>The Pupa.</i>—This is semi-transparent at first, and there may be
seen through the thin pellicle, which invariably clothes every portion
separately of the body, the ripening bee, which lies, like a mummy, with
its wings and legs folded lengthwise along its breast. The parts
gradually assume consistency, and the natural colours and
.pn +1
.bn 037.png
clothing of the perfect insect display themselves through
its pellucid envelope. When arrived at perfect maturity,
and ready to commence the part it has to perform
in the economy of nature, it bursts its cerements, making
its way through the dorsal covering of its silken
skin, and, leaving the exuviæ behind, it crawls forth
from its dormitory, when, becoming invigorated by the
bracing air and the genial sunshine, it stretches its legs
and expands its wings, and flies forth jubilant, rejoicing
in its awakened faculties.

<i>The Imago.</i>—The bee having attained its majority,
loses no time in quitting the confined abode wherein it
has been hitherto secluded. It comes forth prepared to
undertake the cares, and meet the vicissitudes of existence.
The new life that now opens to it is one apparently
teeming exuberantly with every delight. It
dwells in sunshine and amidst flowers; it revels in their
sweets, attracted by their beautiful colours and their
delightful odours; and the consummation of its bliss is
to find a congenial partner. With him it enjoys a brief
connubial transport, but which is speedily succeeded by
life-long labour, for the cares of maternity immediately
supervene.

I believe the wild bees are not polyandrous, and therefore
many males, if there be any preponderating discrepancy
in favour of that sex, must die celibate. But
the fact of finding the males associated together in great
numbers upon the same flowers or hedges, is certainly
not conclusive of this being the case. To provide a
fitting receptacle, furnished with suitable provision, for
its future progeny, occupies all the subsequent solicitude
of the female.

As frequent reference will hereafter be made to
.pn +1
.bn 038.png
peculiarities of structure, it will be desirable to take a
rapid survey of the external anatomy of the bee, for it
will enable me to introduce in due order the requisite
technicalities with their local explanations. This course
will be found most subservient to preciseness and accuracy,
and when mastered, which will be found to be a
very simple affair, it will greatly facilitate exact comprehension.
No circumlocution can convey what a few
technicalities, thoroughly understood, will immediately
explain, and no special scientific work can be read with
any profit until they are acquired.

Diagrams are introduced to aid the imagination in its
conception of what is meant to be conveyed.

This necessary detail I shall endeavour to make as
entertaining as I possibly can, by introducing, with the
description of the organ, the uses it serves in the
economy of the insect. I hope thus to add an interest
to it which a merely dry technical and scientific definition
would not possess.

Structure is always expressive of the habits of the
bees, and is as sure a line of separation, or means of
combination, as instinct could be were it tangible.
Hence the conclusion always follows with a certainty
that such-and-such a form is identical with such-and-such
habits, and that, in the broad and most distinguishing
features of its economy, the genus is essentially the
same in every climate. Climate does not act upon these
lower forms of animal life, with the modifying influences
it exercises upon the mammalia and man. A <i>Megachile</i>
is as essentially a <i>Megachile</i> in all its characteristics in
Arctic America, the Brazils, tropical Africa, Northern
China, and Van Diemen’s Land, as in these islands, and
<i>Apis</i> is, wherever it occurs, as truly an <i>Apis</i>. Therefore
.pn +1
.bn 039.png
the habits, in whatever country the genus may be found,
can thus be as surely affirmed of all its species, from the
knowledge we have of those at home, as if observation
had industriously tracked them. Therefore, the technicalities
of structure once learnt, they become permanently
and widely useful.

The body of the bee consists of a head, thorax, and abdomen,
which, although to the casual
observer, seemingly not separated
from each other, are, upon closer
inspection, more or less distinctly
disconnected. The three parts are
merely united by a very short and
slight tubular cylinder. This is
sometimes so much reduced as to
be only a perforation of the parts
combined by a ligament, and
through which aperture a requisite
channel is formed for the passage
of the ganglion or nervous chord,
which extends from one portion of
the body to the other, giving off
laterally, in its progress from the sensorium in the head
onwards, the filaments required by the organs of sensation
and motion, as well as all which control the other
functions of the body of the insect.

.if h
.il fn=i_p025_fig04.jpg w=300px
.ca
Fig. 4.—Body of the bee.<br><i>a</i>, head and\
antennæ;<br><i>b</i>, vertex and ocelli;<br><i>c</i>, genæ, or cheeks;\
<br><i>d</i>, prothorax;<br><i>e</i>, mesothorax;<br><i>f</i>, squamulæ;\
<br><i>g</i>, insertion of the wings;<br><i>h</i>, scutellum;<br><i>i</i>,\
post-scutellum;<br><i>k</i>, metathorax;<br><i>l</i>, abdomen.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Fig. 4.—Body of the bee.<br><i>a</i>, head and\
antennæ;<br><i>b</i>, vertex and ocelli;<br><i>c</i>, genæ, or cheeks;<br>\
<i>d</i>, prothorax;<br><i>e</i>, mesothorax;<br><i>f</i>, squamulæ;<br>\
<i>g</i>, insertion of the wings;<br><i>h</i>, scutellum;<br><i>i</i>,\
post-scutellum;<br><i>k</i>, metathorax;<br><i>l</i>, abdomen.]
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These apertures form also the necessary medium of
connection between the several viscera, whereby the food
and other sustaining juices are conveyed from the mouth
through the œsophagus to the various parts of the body.

As this work will impinge but very incidentally upon
the internal organization of the bee, it is unnecessary
to be more explanatory. All that I shall have to notice
.pn +1
.bn 040.png
here are those portions of the external structure which
have any special bearing upon the economy and habits,
or upon the generic and specific determination of the
insects, and to which therefore I shall specially limit
myself.

.if h
.il fn=i_p026_fig05.jpg w=300px
.ca
Fig. 5.—Front of the head of the bee.<br><i>a</i>,\
vertex;<br><i>b</i>, face;<br><i>c</i>, ocelli or stemmata;<br><i>d</i>,\
compound eyes;<br><i>e</i>, clypeus;<br><i>f</i>, mandibles;<br><i>g</i>,\
labrum;<br><i>h</i>, lingual apparatus folding for repose.
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[Illustration: Fig. 5.—Front of the head of the bee.<br><i>a</i>,\
vertex;<br><i>b</i>, face;<br><i>c</i>, ocelli or stemmata;<br><i>d</i>,\
compound eyes;<br><i>e</i>, clypeus;<br><i>f</i>, mandibles;<br><i>g</i>,\
labrum;<br><i>h</i>, lingual apparatus folding for repose.]
.in 0
.if-

The <i>head</i> is the most important segment of the insect’s
body, if we may elevate to such distinction any
portion, when all conduce to the
same end, and either would be imperfect
without the other, yet we
may perhaps thus distinguish it from
the rest as it exclusively contains
that higher class of organs, those of
sense, which are most essential to
the functions of the creature. The
head consists of the <i>vertex</i>, or crown;
the <i>genæ</i>, or cheeks; the face; the
<i>clypeus</i>, or nose; the compound eyes;
the <i>stemmata</i>, or simple eyes; the <i>antennæ</i>, or feelers,
and the <i>trophi</i>, or organs of the mouth collectively.

The <i>thorax</i>, the second segment, carries all the organs
of locomotion. It consists of the <i>prothorax</i> or collar,
which carries beneath the anterior pair of legs; the <i>mesothorax</i>,
or central division, with which articulate laterally
above the four wings, the anterior of which have
their base protected by the <i>squamulæ</i>, or epaulettes, or
wing-scales, and beneath it carries the intermediate pair
of legs; the <i>metathorax</i>, or hinder portion, which has in
the centre above, behind the <i>scutellum</i>, the <i>post-scutellum</i>,
and at the extremity of this division just above the
articulation of the posterior legs is attached the last segment
of the insect,—the <i>Abdomen</i>.

The <i>vertex</i>, or crown of the head, is that portion
.pn +1
.bn 041.png
which lies between the upper extremities of the compound
eyes. Upon the vertex are placed the <i>stemmata</i>,
or <i>ocelli</i> (the simple eyes), in a curve or triangle; they
are three in number, and are small, hyaline, circular
protuberances, each containing within it a lens; sometimes
they occur very far forward upon the face, especially
when the compound lateral eyes meet above, as in
the male domestic bee or drone. The uses of these
simple eyes, from the experiments which have been
made, seem to be for long and distant vision. To test
their function, Réaumur covered them with a very adhesive
varnish, which the bee could not remove, and he
then let it escape. He found upon several repeated
trials, that the insect always flew perpendicularly upwards,
and was lost. Although this was anything but
conclusive as to the uses of these eyes, it would seem
that by losing the vision of this organ, the insect lost
with it all sense of distance.

The <i>compound eyes</i>, seated on each side of the head,
extend from the vertex generally to the articulation of
the mandibles or jaws, their longitudinal axis being perpendicular
to the station of the insect. They vary in
external shape and convexity in the several species and
genera, although not greatly, and consist of a congeries
of minute, hexagonal, crystalline facets, each slightly
convex externally, and their interstices are sometimes
clothed with a short and delicate pubescence. Each
separate hexagon has its own apparatus of lens and filament
of optic nerve, each having its own distinct vision,
but all converge to convey one object to the sensorium.
The function of the compound eyes is concluded to be
the microscopic sight of near objects.

The <i>face</i>, which sometimes has a longitudinal <i>carina</i>,
.pn +1
.bn 042.png
or prominent ridge, down its centre, lies between these
eyes, descending from the vertex to the base of the clypeus,
or nose, but which is without the function of that
organ. This clypeus is sometimes protuberant, and from
shape or armature, characteristic. This part, however, is
not always distinctly apparent, although a line or suture
usually separates it above, from the face. At its lower
extremity the <i>labrum</i>, or upper lip, articulates, over
which it is sometimes produced; and it extends at each
lateral apex to the base of the insertion of the mandibles.
The <i>genæ</i>, or cheeks, descend from the vertex laterally,
behind the compound eyes, to the cavity of the head
which contains the lingual apparatus, when folded in repose.
These cheeks, at their lower extremity, sometimes
embrace the articulation of the mandibles.

.if h
.il fn=i_p028_fig06.jpg w=200px
.ca
Fig. 6.—1, Clavate antennæ; <br>2, filiform ditto;<br>\
<i>a</i>, scape;<br><i>b</i>, flagellum.
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[Illustration: Fig. 6.—1, Clavate antennæ; <br>2, filiform ditto;<br>\
<i>a</i>, scape;<br><i>b</i>, flagellum.]
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The <i>antennæ</i>, or feelers, are two filamentary organs
articulating on each side of the face and above the clypeus. They
comprise the <i>scape</i> (<i>a</i>), or basal joint, and
(<i>b</i>) the <i>flagellum</i> or terminal apparatus; the latter
consists of closely attached conterminal joints, and usually
forms an elbow with the scape; collectively these joints number
twelve in the female and thirteen in the male. They are all of
various relative lengths, which sometimes aid specific
determination. The scape, however, is usually much longer than
any of the rest, and in some males has a very robust and even
angulated shape. A description of the antennæ always enters into
the generic character; they usually differ very materially both
in length and form in the sexes. They are often filiform (2), but
more generally subclavate (1), and sometimes distinctly so, and
where they have the latter structure it is found in both
.pn +1
.bn 043.png
sexes. They constantly differ in the species of a long genus
(<i>Andrena</i>, <i>Normada</i>, <i>Halictus</i>). In the male of
the genus <i>Eucera</i>, they have a remarkable extension, being
as long as the body, whereas folded back they are rarely so long,
or not longer than the thorax in other males, speaking in
reference only to our native kinds. In the females they are not
often longer than the head. It is in the males of the genus
<i>Halictus</i> that they take the greatest extension. In the
male of the genus <i>Eucera</i>, we also find the remarkable
peculiarity of the integument of some of the joints being
distinctly of an hexagonal structure,—a peculiarity often
observable in natural structures. In this case it may refer to
the sensiferous function of the organ, and to which I shall have
occasion to revert when I speak of the senses of our insects. We
sometimes find the joints of the antennæ moniliform, something
like a string of beads, or with each separate joint forming a
curve, or with their terminal one, as in <i>Megachile</i>,
greatly compressed.

The relative lengths of the joints often yield conclusive
separative specific characters, and which may be very
advantageously made available, especially where other
distinctive differences are obscure, and in cases where
the practised eye observes a distinction of habit, evidently
specific, although it is difficult to seize tangible
characteristics.

The <i>trophi</i> are the organs of the mouth of the bee
collectively. When complete in all the parts, as exemplified
in the genus <i>Anthoptera</i>, they consist of the <i>labrum</i>,
or upper lip; the <i>epipharynx</i>, or valve, falling over and
closing the aperture of the gullet; the <i>pharynx</i>, or gullet,
which forms the true mouth and entrance to the œsophagus;
the <i>hypopharynx</i> which lies immediately below
.pn +1
.bn 044.png
the gullet and assists deglutition; the <i>labium</i>, or lower
lip, and the true tongue. These parts are all single; the parts
in pairs are the <i>mandibles</i>, the <i>maxillæ</i>, the
<i>maxillary palpi</i>, the <i>labial palpi</i>, and the
<i>paraglossæ</i>.

.if h
.il fn=i_p030_fig07.jpg w=400px
.ca
Fig. 7.—Trophi and their unfolding.<br><i>a</i>,\
labrum;<br><i>b</i>, epipharynx;<br><i>c</i>, pharynx;<br><i>d</i>,\
hypopharynx;<br><i>e</i>, mandible;<br><i>f</i>, maxillæ;<br><i>g</i>,\
maxillary palpi;<br><i>h</i>, mandible;<br><i>i</i>, cardium;<br><i>k</i>,\
labium;<br><i>l</i>, labial palpi;<br><i>m</i>, paraglossæ;<br><i>n</i>,\
tongue.
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[Illustration: Fig. 7.—Trophi and their unfolding.<br><i>a</i>,\
labrum;<br><i>b</i>, epipharynx;<br><i>c</i>, pharynx;<br><i>d</i>,\
hypopharynx;<br><i>e</i>, mandible;<br><i>f</i>, maxillæ;<br><i>g</i>,\
maxillary palpi;<br><i>h</i>, mandible;<br><i>i</i>, cardium;<br><i>k</i>,\
labium;<br><i>l</i>, labial palpi;<br><i>m</i>, paraglossæ;<br><i>n</i>,\
tongue.]
.in 0
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The <i>labrum</i>, or upper lip, is attached by joint to the
apex of the <i>clypeus</i>;
it has a vertical
motion, and
falls over the organs
beneath it,
in repose, when it
is itself covered
by the mandibles.
It is usually transverse
in form, but
is sometimes perpendicular,
especially
in the artisan
bees. It takes many forms, sometimes semilunar
or linear, emarginate or entire, convex, concave, or flat,
and is occasionally armed with one or two processes,
like minute teeth projecting from its surface, but of what
use these may be we do not know. In the female of
<i>Halictus</i>, it has a slightly longitudinal appendage in the
centre. It is usually horny, but is sometimes coriaceous
or leathery. This labrum often yields good specific characters.

The <i>pharynx</i>, or gullet, is a cavity immediately beneath
the <i>epipharynx</i>, which articulates directly under
the base of the labrum, and which closes the pharynx
from above, and immediately beneath this cavity is
another small appendage, almost triangular, which receives
the food or honey from the canal conveying it
.pn +1
.bn 045.png
from the tongue, or directly from the mandibles, when
it is masticated, and helps it forward to the pharynx to
be swallowed. The <i>epipharynx</i> closes this orifice from
above, the <i>labrum</i> then laps over it and the articulation
of the lingual apparatus, both which are further protected
in repose by the mandibles closing over the labrum.
This triple protection shows the importance
nature attaches to these organs. The more direct portions
of the lingual apparatus are the <i>labium</i>, or lower
lip, which forms the main stem of the rest, and articulates
beneath the hypopharynx, and is beneath of a
horny texture; it forms a knee or articulating bend at
about half its length, and has a second flexure at its
apex, where the true tongue is inserted. This <i>labium</i> is
extensible and retractile at the will of the insect, and
lies inserted within the under cavity of the head when
in complete repose, and the insect can withdraw or
extend a portion or the whole at its pleasure. Attached
on each side, at its first bend or elbow, lie the <i>maxillæ</i>,
which, for want of a better term, are called the lower
jaws, and perhaps properly so from the function they
perform; for at the point of their downward flexure,
which occurs at the apex of the labium, and where the
true tongue commences, they each extend forward in a
broad, longitudinal membrane, partly coriaceous throughout
its whole length, and these, folded together and beneath,
form the under sheath of the whole of the rest of
the lingual apparatus in repose, and often lap over its
immediate base when even it is extended. Externally
continuous, the line of these <i>maxillæ</i> is broken at the
point of flexure at the apex of the <i>labium</i>, by a deep
sinus or curve, and within this is inserted the first joint
of the maxillary palpi. The portion of the maxillæ
.pn +1
.bn 046.png
extending forwards, hence takes several forms, usually
tapering to an acute point, but sometimes rounded or
hastate, according to the structure of the tongue, to
which they form a protection.

The <i>maxillary palpi</i> are small, longitudinal joints,
never exceeding six in number, and generally in the
normal or true bees not so numerous. They vary in
relative length to the organ to which they are attached,
and usually progressively decrease in length and size
from the basal ones to the apical, but each joint, excepting
the terminal one, is generally more robust at its
apex than at its own special base. The function of these
maxillary palpi is unknown. They are always present
in full number in the <i>Andrenidæ</i>, and in some few
genera of the true bees, but they vary from their normal
number of six to five, four, three, two, and one in the
latter; and it is curious that they are most deficient in
those bees having the most complicated economy, as in
the artisan bees and the cenobite bees; they thus evidently
show that it is not a very paramount function
that they perform. On each side, at the apical summit
of the <i>labium</i>, are inserted the <i>labial palpi</i>. These are
invariably four in number, but vary considerably in
length and substance. In the <i>Andrenidæ</i> they have
always the form of subclavate, robust joints, and are
usually as long as the tongue, but not always; they are
only half the length of that organ in the subsection of
the acute-tongued <i>Andrenidæ</i>. In the normal bees,
even in the genus <i>Panurgus</i>, which is the most closely
allied to the <i>Andrenidæ</i>, the labial palpi immediately
take excessive development, especially in their two basal
joints, and the structure of these two joints, excepting
in this genus and in <i>Nomada</i>, partakes of a flattened form
.pn +1
.bn 047.png
and membranous substance. All these four joints are
either conterminal, or the two apical ones, or one of
them is articulated laterally, towards the apex of the
preceding joint. These two are always very short
joints, and are comparatively robust.

The <i>labial palpi</i> are, in the majority of cases, about half
or two-thirds the length of the tongue, but in <i>Apathus</i> and
<i>Apis</i> they are of its full length. At the immediate base of
the tongue, and attached to it laterally, rather than to the apex
of the <i>labium</i>, are the <i>paraglossæ</i>, or lingual
appendages, which are membranous and acute, except in the
<i>Andrenidæ</i>, where, in some, their apex is lacerated and
fringed with short hairs. These organs are always present in the
<i>Andrenidæ</i> and generally in the <i>Apidæ</i>, where they
usually obtain extensive relative development; but in the artisan
bees they are all but obsolete, and in <i>Ceratina</i>,
<i>Cælioxys</i>, <i>Apathus</i>, and <i>Apis</i>, they are not
even apparent. Their use also has hitherto eluded discovery, but
that they are not essential to the honey-gathering instinct of
the bee is especially proved by the latter instance.

The true tongue is attached to the centre of the apex
of the labium, having the paraglossæ, when extant, and
the labial palpi at its sides. In the <i>Andrenidæ</i> it is a
flat short organ of varying form, either lobated, emarginate,
acute, or lanceolate; but in the <i>Apidæ</i>, with <i>Panurgus</i>
it immediately becomes very much elongated, and
with this genus the apparatus whereby the tongue folds
beneath obtains its immediate development; but this
development exhibits itself most fully in the genus <i>Anthophora</i>.
The tongue is usually linear, tapering slightly
to its extremity, and terminating in some genera with a
small knob. It is clothed throughout with a very delicate
.pn +1
.bn 048.png
pubescence, which enables the bee to gather up the nectar
it laps. That it should be called the lip seems an absurdity,
for it exercises all the functions of a tongue, and
it would seem almost that the fine hairs, with which it
is covered, are the papillæ of taste. Its structure in
some genera seems to be a spiral thread twining closely
round and round, but in others it appears throughout
identical.

.if h
.il fn=i_p034_fig08.jpg w=400px
.ca
Fig. 8.—Extremes of structure of tongues:
1, in subnormal bees (<i>Colletes</i>);
2, in normal bees (<i>Anthophora</i>).\
<br><i>a</i>, tongue;<br><i>b</i>, paraglossæ;\
<br><i>c</i>, labial palpi;<br><i>d</i>, maxillæ;<br><i>e</i>, maxillary\
palpi;<br><i>f</i>, labium.
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[Illustration: Fig. 8.—Extremes of structure of tongues:<br>1, in\
subnormal bees (<i>Colletes</i>);\
<br>2, in normal bees (<i>Anthophora</i>).\
<br><i>a</i>, tongue;<br><i>b</i>, paraglossæ;\
<br><i>c</i>, labial palpi;<br><i>d</i>, maxillæ;\
<br><i>e</i>, maxillary palpi;\
<br><i>f</i>, labium.]
.in 0
.if-

This tongue was formerly thought to be tubular, and
that the bee sucked the honey through an aperture at
its apex. The knowledge of the flat form of the tongues
of other bees should have dissipated the illusion, for we
could have been perfectly sure of the analogical structure
and function of an organ in creatures so nearly
alike. Réaumur’s patient observations have totally
dissipated the mistake, and through him we exactly
know how the bee conveys the honey into its stomach
.pn +1
.bn 049.png
As it exhibits an agreeable instance of the persevering
industry and unblenching patience with which he made
his researches, I will give a summary of what he says,
for his bulky volumes, although teeming with delightful
instruction, pleasantly narrated, will necessarily not be
in every entomologist’s hand, and where not, not even
always readily accessible. His observations were made
upon the honey-bee, but we may attribute the same
mode of collecting to all the rest. He says:—When
this tongue is not lapping the nectar of flowers but in a
state of perfect repose it is flattened. It is then at
least three times broader than thick, but its edges are
rounded. It gradually narrows from its base to its extremity.
It terminates in a slight inflation, almost
cylindrical, at the end of which there is a little knob,
which appears perforated in the centre. From the circumference
of this knob tolerably long hairs radiate,
and the upper side of the tongue is also entirely covered
with hairs. The basal and widest portion above seems
striated transversely with minute lines closely approaching
each other.

The upper side of the anterior portion of the tongue
seems of a cartilaginous substance, but the under side of
the same part appears cartilaginous only over a portion
of its width. The centre is throughout its whole course
more transparent than the rest, and seems membranous
and folded. It is only necessary to press the posterior
portion of this trunk, whilst holding its anterior part
closely to a light, towards which its upper surface must
be turned, and then upon examining its inner surface with
a lens of high power, a drop of liquid may be soon observed
at its foremost portion. By continuing to press
it this drop is urged forward, and as it passes every
.pn +1
.bn 050.png
portion swells considerably, and the two edges separate
more widely from each other. The under side of the
tongue, which was before flat, rises and swells considerably,
and all that thus rises up is evidently membranous.
It looks like a long vessel of the most transparent
material. But whilst this great increase of bulk is made
upon the lower surface, the upper surface swells only a
little, which seems to prove that its immediate envelope
is not capable of much distension.

If a bee be observed whilst sipping any sweet liquor,
the anterior portion of its trunk will be sometimes seen
more swollen than when in action, and alternations will
be observed in it of varying expansion.

The posterior portion of the trunk is a great deal
larger than the anterior, and it is only in repose that
the former nearly equals the latter in length. This
posterior portion (this is the portion treated above as
the <i>labium</i>, or under lip) is joined to the anterior by a
very short ligature, wholly fleshy, and very flexible,
which permits the folding of the trunk, and then its
under side is quite scaly, very shiny, and rounded (the
maxillæ). This portion is apparently more substantial
than the rest. Its diameter gradually increases as it
recedes from about the middle to about two-thirds of
its length; there it is a little constricted, and the first
of the two pieces of which it is composed there terminates.
The first piece is rounded, for the purpose, it
would appear, of fitting itself upon another, which
serves as its base and pivot. This base is conical and
of a scaly texture, and terminates in rather an acute
point. It is this point which is articulated at the junction
of the two small elongate portions of which we
spoke at the commencement, and which carry the trunk
forward.
.pn +1
.bn 051.png

In repose, the posterior part of the trunk lies along
the lower part of the mouth, and the anterior part is
folded back upon it, when it is covered by the maxillæ,
which then seem to form a portion of it. It has further
another interior envelope; these are the two first joints
of the labial palpi (in the <i>Apidæ</i>), which are entirely
membranous, and these in repose cling closely to the
tongue laterally.

The bee would certainly not collect its honey differently
from a flower than it would from a glass wherein
it might be placed to observe the process; and here it
never appeared to obtain the honey by suction. The bee
was never observed to place the end of its tongue in the
drop of syrup, as it would necessarily do if it were requisite
to imbibe it through what seems the small aperture at
the extremity of the knob, at the end of the tongue, previously
described. As soon as the bee finds itself near
the spot spread with honey or syrup, it extends its
tongue a line or so beyond the end of the palpi, which
continue to envelope it throughout the rest of its
length. If the honey be spread over the glass, the anterior
portion of the tongue, which is exposed, is turned
round that its superior surface may be applied to the
glass. There this portion does precisely what the
tongue of any animal would do in lapping a liquid.
This tongue repeatedly rubs the glass, and, moving
about with astonishing rapidity, it makes hundreds of
different inflexions.

If the drop of syrup presented to the bee be thicker, or
if it meet with a drop of honey, it then thrusts the anterior
portion of its tongue into the liquid, but apparently
only to use it as a dog might do its tongue in lapping milk
or water. Even in the drop of honey the bee bends the
.pn +1
.bn 052.png
end of its tongue about, and lengthens and shortens it
successively, and, indeed, withdraws it from moment to
moment. We then observe it not merely lengthen and
shorten this end, but it is also seen to curve it about,
causing from time to time the superior surface to become
concave,—to give, as it were, to the liquid with which
it is loaded a downward inclination towards the head.
In fact, this portion of the trunk appears to act as a
tongue, and not as a pump. Indeed its extremity,
where the aperture for receiving the liquid is assumed
to be, is repeatedly above the surface of the liquid which
the insect is lapping.

By these continuous motions this anterior extremity
of the tongue charges itself with the nectareous fluid,
and conveys it to the mouth. It is along the upper
surface of this pilose tongue that the liquid passes.
The bee strives especially to load and cover it with
honey. In shortening the tongue to the extent, sometimes,
of withdrawing it entirely beneath its sheaths, it
conveys and deposits the liquid with which it is charged
within a sort of channel, formed by the upper surface of
the tongue and the sheaths which fold over it. Thus,
these sheaths are, perhaps, less for the purpose of covering
the tongue than to form and cover the channel by which
the liquid is conveyed to the mouth. I have previously
remarked that the trunk can swell and contract; these
swellings and constrictions are observed to succeed each
other, and may be for the purpose of urging the liquid,
already in transit beneath the sheaths, forward towards
the true mouth. Further, I moved the sheaths aside
from their position above the tongue of a bee which I
held in my fingers, and I succeeded, by means of the
point of a pin, in placing an extremely small drop of
.pn +1
.bn 053.png
honey upon the tongue of this bee at a spot where it
could be covered by the extremities of the external
sheath. I then let these sheaths loose. Sometimes they
spontaneously resumed their previous position, and
sometimes I assisted them to resume it. The drop of
honey which they then covered has in no instance returned
to the extremity of the tongue; it has always
passed towards the mouth, and doubtless entered that
orifice itself. It is therefore very certain that the bee
imbibes its honey by lapping, and that it never passes
through the aperture which has been supposed to have
been seen at the extreme apex of the tongue. Did this
aperture really exist, it would be of extreme minuteness,
and it did not appear to me possible that a large drop
of honey, which I have seen imbibed in a very few
instants, could in so short a time have passed by so
minute an opening. A further confirmation of the non-existence
of this orifice has been given me when, by
pressing a tongue towards its origin to compel it to
swell, I have detected the liquid which
gave it its extension, but all my pressing
would never make the liquid pass
through the extremity, although the
pressure has sometimes made it almost
rend the membranes, to give it an opening
to escape by. Having thus passed
through the œsophagus into the stomach,
it is then regurgitated into its requisite
repository upon arriving at home.

.nf c
Andrenidæ
.nf-
.if h
.il fn=i_p039_fig09.jpg w=150px
.ca
                       Apidæ.
Fig. 9.—Mode of folding the tongue in repose.
1. In abnormal bee.
2. In normal bee.
<i>a</i>, point of articulation beneath the hypopharynx:
<i>b</i>, apex of the tongue.
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[Illustration: Apidæ.<br>
Fig. 9.—Mode of folding the tongue in repose.
1. In abnormal bee.<br>
2. In normal bee.<br>\
<i>a</i>, point of articulation beneath the hypopharynx:<br>\
<i>b</i>, apex of the tongue.]
.in 0
.if-

The entire proboscis, with all its appendages
attached, has in the <i>Apidæ</i> three distinct
hinges or articulations, including that
which attaches it by its extreme base to
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.bn 054.png
the under surface of the mouth and lower portion of the
head, the cavity of which, when folded, it fills, and even
then the apex of the tongue protrudes in some genera
beyond the sheathing maxillæ. In the <i>Andrenidæ</i> it has
but two articulations, and the maxillæ always cover them
entirely in repose. The first articulation, forming the
fulcrum of the whole, is always elbowed in the <i>Apidæ</i>,
and consequently not capable, like the rest of the joints,
of full linear extension. The attached diagram will give
a clearer conception of the mode of folding: <i>a</i> is the labium,
and <i>b</i> the tongue.

As we have no complete description of the mode by
which the tongue of the bee is worked, and how it
gathers up its honey, I thought it desirable to be fuller
upon the subject than was originally my intention.

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.ca
Fig. 10.—Mandibles: 1, of leaf-cutter bee\
(<i>Megachile</i>);<br>2, of burrower (<i>Andrena</i>);<br>3, of\
parasite (<i>Nomada</i>).
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[Illustration: Fig. 10.—Mandibles:<br>1, of leaf-cutter bee\
(<i>Megachile</i>);<br>2, of burrower (<i>Andrena</i>);<br>3, of\
parasite (<i>Nomada</i>).]
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.if-
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The last portion of the <i>trophi</i>, also double, are the mandibles;
they articulate on each side with the cheeks; they
act laterally, and are variously formed, according to the
economy of the insect.
In the females
they are usually
more or less toothed,
and are especially
broad, curved, and
toothed in the artisan bees. In <i>Apis</i> and <i>Bombus</i> they
are subdentate. In males they are frequently simply
acute, but in some species, especially in <i>Andrena</i>, they
have a long spine at the base, which points downwards
when they are closed. To this sex they appear to be of
no use beyond aiding them to stay the wayward caprice
or flight of their mistresses; and, although they have
an analogical structure in the males of those genera
wherein they are much dilated and toothed, yet they do
.pn +1
.bn 055.png
not seem to be at all used by that sex for any purpose
but sexual. In the females they are used for the construction
of their burrows and nests, and for the purpose
of nipping the narrow spurs and tubes of flowers
to get at the nectar; and they often nip, whilst seeking
pollen, the anthers of the flowers which have not yet
burst their receptacles of pollen.

These insects must necessarily nicely appreciate the
quantity of pollen requisite to the full development of
the young insect, and, although we often observe a remarkable
difference of size in the individuals of a species,
this may rather arise from some defect in the quality of
the nutritive purveyance than in its quantity, for instinct
would as efficiently provide for this purpose as it unquestionably
guides to the collection and storing of the
nutritive supplies.

Having thus completed the description of the head
and of all its attachments, I proceed to—

The <sc>Thorax</sc>, which is divided by sutures into three
parts already mentioned above, viz. the <i>prothorax</i>, the
<i>mesothorax</i>, and the <i>metathorax</i>.

The collar, or upper part of the prothorax, is often
very distinct, and even angulated laterally in front, and
frequently presents, both in colouring and form, a specific
character. At its under portion on each side the anterior
legs are articulated.

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.il fn=i_p042_fig11.jpg w=250px
.ca
Fig. 11.—Anterior leg.<br><i>a</i>, coxa;<br><i>b</i>,\
trochanter;<br><i>c</i>, femur, or thigh;<br><i>d</i>, tibia, or shank;\
<br><i>e</i>, spur and velum;<br><i>f</i>, planta and strigilis;\
<br><i>g</i>, digitus;<br><i>h</i>, claw;<br> <i>i</i>, pulvillus, or cushion.
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[Illustration: Fig. 11.—Anterior leg.<br><i>a</i>, coxa;<br><i>b</i>,\
trochanter;<br><i>c</i>, femur, or thigh;<br><i>d</i>, tibia, or shank;\
<br><i>e</i>, spur and velum;<br><i>f</i>, planta and strigilis;\
<br><i>g</i>, digitus;<br><i>h</i>, claw;<br><i>i</i>, pulvillus, or cushion.]
.in 0
.if-
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All the legs comprise the <i>coxa</i>, or hip-joint; the
<i>trochanter</i>, which is a small joint forming the connection
between this and the next joint the <i>femur</i>, or thigh; the
<i>tibia</i>, or shank; and the <i>tarsus</i>, or foot. The
latter consists of five joints, declining in length from the
first, which is generally as long as all the rest united
together; the first, in the anterior pair, being called the
<i>palmæ</i>,
.pn +1
.bn 056.png
or palms; and in the four posterior <i>plantæ</i>, or soles;
the other joints are called the <i>digiti</i>, or fingers, or tarsus
collectively; at the extremity of the terminal one are the
two claws, which are sometimes simple hooks, but usually
have a smaller hooklet within; they have both lateral and
perpendicular motion, and between their insertion is affixed
the <i>pulvillus</i>, or cushion. The <i>coxæ</i> in their occasional
processes exhibit very useful specific characters, as
do the markings and form of the remaining joints of the
leg and foot, which in several genera furnish generic peculiarities.
The four anterior tarsi have each a moveable
spine, or spur, at their apex within, which can be expanded
to the angle at which the insect wishes to place the limb,
and to which it forms a collateral support; the posterior
tibiæ have two each of these spurs, excepting in the genus
<i>Apis</i>, which has none to this leg. Attached to this
spur on the anterior tibiæ of all the bees, there is, within,
a small <i>velum</i>, or sail, as it has been
called; this is a small angular appendage
affixed within the spur by its base. At
the base of the palmæ of the same legs,
and opposite the play of this velum, there
is a deep <i>sinus</i>, or curved incision, the
<i>strigilis</i>, called thus or the curry-comb,
from the pecten, or comb of short stiff
hair which fringes its edge. Upon this
aperture the <i>velum</i> can act at the will of
the insect, and combined they form a
circular orifice. The object of this apparatus
is to keep the antennæ clean, for
the insect, when it wishes to cleanse one
or the other of them, lays it within this
sinus of the palma, and then, pressing the
.pn +1
.bn 057.png
velum of the spur upon it, removes, by the combined
action of the comb and the velum, all excrescences or
soilure from it, and this process it repeats until satisfied
with the cleanliness of the organ: and this it may be
frequently seen doing. This arrangement proves how
essential to the well-being of the insect is the condition
of its antennæ, the sinus, or strigilis, or curry-comb, as
it may be called, being always adapted in size to the thickness
of the antennæ, for insects being always both right- and
left-handed, they therefore use the limb on each side
to brush the antenna of that side. The palmæ and other
joints of the tarsus of the fore legs are greatly dilated in
many males, or fringed externally with stiff setæ, which
give it as efficient a dilatation as if it were the expansion
of its corneous substance. The anterior tarsi of the
females are likewise fringed with hair, to enable them to
sweep off and collect the pollen, and to assist also in the
construction and furnishing of their burrows. The intermediate
tarsi are as well often very much extended
in the males, being considerably longer than those of the
other legs. The use of the claws at the apex of the tarsi
is evidently to enable the insect to cling to surfaces.

The manner in which the bee conveys either the
pollen, or other material it purposes carrying home, to
the posterior legs, or venter, which is to bear it, is very
curious. The rapidity of the motions of its legs is then
very great; so great, indeed, as to make it very difficult
to follow them; but it seems first to collect its material
gradually with its mandibles, from which the anterior
tarsi gather it, and that on each side passes successively
the grains of which it consists to the intermediate legs
by multiplicated scrapings and twistings of the limbs;
this then passes it on by similar manœuvres, and deposits
.pn +1
.bn 058.png
it, according to the nature of the bee, upon the posterior
<i>tibiæ</i> and <i>plantæ</i>, or upon the <i>venter</i>. The evidence
of this process is speedily manifested by the
posterior legs gradually exhibiting an increasing pellet
of pollen. Thus, for this purpose, all the legs of the
bees are more or less covered with hair. It is the mandibles
which are chiefly used in their boring or excavating
operations, applying their hands, or anterior tarsi,
only to clear their way; but by the constructive or
artisan bees they are used both in their building and
mining operations, and are worked like trowels to collect
moist clay, and to apply it to the masonry of their
habitations.

The <i>mesothorax</i>, or central division of the thorax, has
inserted on each side near the centre the four wings,
the anterior pair articulating beneath the <i>squamulæ</i>, or
wing-scales, which cover their base like an epaulette, and
this wing scale often yields a specific character. In
repose the four wings lie, horizontally, along the body,
over the abdomen, the superior above, the inferior beneath.
The wings themselves are transparent membranes, intersected
by threads darker than their own substance,
called their nervures, which are supposed to be tubular.
These nervures and the spaces they enclose, called cells,
are used in the superior wing only, and only occasionally,
as subsidiary generic characters, and their terminology
it will be desirable to describe, as use will be
made subsequently of it. At the same time, to facilitate
the comprehension of the terms, an illustrative diagram
is appended; but those parts only will be described
which have positive generic application. I may,
however, first observe that upon the expansion of the
wings in flight, the insect has the voluntary power
.pn +1
.bn 059.png
of making the inferior cling to the superior wing by a
series of hooklets with which its anterior edge is furnished
at about half the length of that wing, which gives
to the thus consolidated combination of the two a greater
force in beating the air to accelerate its progress. That
the insect has a control over the operation of these
hooklets is very evident, for, upon settling, it usually
unlocks them, and the anterior are often seen separated
and raised perpendicularly over the insect; but that this
can be mechanically effected also is shown sometimes
in pinning a bee for setting, when by a lucky accident
the pin catches the muscles which act upon the wings,
and they become distended, as in flight, closely linked
together. Both the diagram
and the description
of this superior wing I
borrow from an elaborate
paper of my own in
the first volume of the
‘Transactions of the Entomological
Society of
London,’ wherein I gave a tabulated view, in chronological
order, of the nomenclature introduced by successive
entomologists in the use they made of the anterior
wing of the <i>Hymenoptera</i> for generic subdivision, and
which I subsequently applied to my own work upon the
‘Fossorial Hymenoptera of Great Britain.’

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.il fn=i_p045_fig12.jpg w=250px
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Fig. 12.—Superior wing.<br><i>a</i>, marginal cell;\
<br><i>b</i>, first cubital or submarginal cell;<br><i>c</i>, second\
ditto;<br><i>d</i>, third ditto;<br><i>e</i> and <i>f</i>, first and\
second recurrent nervures.
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[Illustration: Fig. 12.—Superior wing.<br><i>a</i>, marginal cell;\
<br><i>b</i>, first cubital or submarginal cell;<br><i>c</i>, second\
ditto;<br><i>d</i>, third ditto;<br><i>e</i> and <i>f</i>, first and\
second recurrent nervures.]
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Attached to the mesothorax in the centre, above and
behind, are the scutellum and post-scutellum, which in
colouring or form often yield subsidiary generic or
specific characters. On each side of the mesothorax in
front, above the pectus, or breast, and just below and
before the articulation of the anterior wings, there is a
.pn +1
.bn 060.png
small tubercle, or boss, separated from the surrounding
integument by a suture, the colouring of which frequently
yields a specific character, but its uses are not
known.

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.il fn=i_p046_fig13.jpg w=250px
.ca
Fig. 13.—Posterior legs:<br>1, of abnormal bee\
(<i>Andrena</i>);<br>2, scopuliped normal bee (<i>Eucera</i>);<br>3,\
parasitic bee (<i>Nomada</i>).<br><i>a</i>, coxa;<br><i>b</i>,\
trochanter, with flocculus;<br><i>c</i>, femur;<br><i>d</i>, tibia;\
<br><i>e</i>, planta;<br><i>f</i>, spinulæ;<br><i>g</i>, tarsus, with its\
claws.
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[Illustration: Fig. 13.—Posterior legs:<br>1, of abnormal bee\
(<i>Andrena</i>);<br>2, scopuliped normal bee (<i>Eucera</i>);<br>3,\
parasitic bee (<i>Nomada</i>).<br><i>a</i>, coxa;<br><i>b</i>,\
trochanter, with flocculus;<br><i>c</i>, femur;<br><i>d</i>, tibia;\
<br><i>e</i>, planta;<br><i>f</i>, spinulæ;<br><i>g</i>, tarsus, with its\
claws.]
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The <i>metathorax</i> carries the posterior legs laterally
beneath, and in the centre, behind, the abdomen. The
posterior legs are the chief organs
used by the majority of bees for the
conveyance of pollen to store in
their cells, or, as in the case of
humble-bees or the hive bee, the
bee bread for the food for the young,
or the requisite materials, in the majority
of other bees, for nidification.
To this end they are either densely
clothed with hair throughout their
whole extent,—usually externally
only,—or this is limited to the external
surface of the posterior shank.
In the social bees this shank is edged
externally with stiff bristles. In
these, as in most of the bees, this
limb greatly and gradually expands
towards its articulation with the
<i>planta</i>, or first joint of the tarsus; and this surface,
which is perfectly smooth, serves to the social bee as
a sort of basket to hold and convey the collected
materials. The first joint of the tarsus, or planta, of
this leg is also used in the domestic economy of the insect
to assist in the same object. In the domestic bee the
under side of the posterior plantæ have a very peculiar
structure, consisting of a series of ten transverse broad
parallel lines of minute dense but short brushes, which
.pn +1
.bn 061.png
are used in the manipulations within the hive. Neither
the Queen-bee nor the drone have this structure, and in
the humble-bee and scopuliped bees the same joint is
uniformly covered with this brush without its being separated
into lines.

The <sc>Abdomen</sc> of bees has many shapes, its form being
elliptical, cylindrical, subcylindrical, clavate, conical
or subconical, and sometimes semicircular, or concavo-convex.
It consists of six imbricated plates, called
segments, in the female, and of seven in the male;
in the latter sex, in several genera, it takes beneath at
its base and at its apex, as well as at the extremity of
the latter, remarkable forms and armature. It is very
variously clothed and coloured, and sometimes extremely
gaily and elegantly so; these various markings often giving
the insects their specific characteristics; the clothing
of the under side of this segment of the body, likewise,
furnishes subsidiary generic characters, especially in the
artisan bees, in whom it takes the place of the posterior
legs as a polliniferous organ. This is possibly
because were the supply conveyed <i>upon</i> their posterior
legs it would be rubbed away as they entered the
narrow apertures of their nests. Nature does nothing in
vain, and there is evidently a purpose in this arrangement.

If we can trace peculiarities of structure to efficient
reasons, differences of form may be rationally concluded
as having their cause too, even if it elude our explanatory
research. Although the reason of peculiar structure
is not always obvious, it must exist, though undetected;
as, for instance, why in some bees, as in <i>Megachile</i>,
<i>Osmia</i>, <i>Chelostoma</i>, <i>Anthidium</i>, etc., the under side of the
abdomen should be furnished densely with hairs to carry
their provision of pollen home to their nest, when in other
.pn +1
.bn 062.png
bees, as in <i>Dasypoda</i>, <i>Panurgus</i>, <i>Eucera</i>, <i>Anthophora</i>, etc.
etc., it is conveyed upon the posterior legs, we do not
know; we can only surmise that it is either to save the
insect, in the former case, the labour of constructing a
larger cylinder for nidification, so to prevent the possibility
of its being rubbed off from the external surface
of the legs, did these carry it, in entering the burrow,
it being protected from this abrasion by being placed
beneath the venter. In such insects the abdomen is
usually truncated at its origin, or even hollowed within
its base, thus to meet the projection of the metathorax,
enabling it to draw itself closely up together, making
the abdomen and metathorax, as it were, cohere. A
different form of abdomen occurs in those bees which
carry the pollen on their posterior legs. It is then more
or less elliptical or lanceolate, which form permits the
legs to be drawn up towards the metathorax within the
space that kind of form furnishes, which, by this different
but equivalent arrangement, meets the same object.
The similarity of the adjustment of the abdomen to the
metathorax to that of <i>Megachile</i>, etc. in <i>Apis</i> and <i>Bombus</i>,
by which insects the provision is also carried on the
posterior legs, results from the totally different economy
and habitation of the social bees, to which this structure
is necessary for many purposes.

If we observe this same peculiarity of structure in the
cuckoo, or parasitical bees, it is because we find resemblances
where there are alliances. Thus, the male
artisan bees, although not assisting in the labour of
constructing the apartments, have similarly dilated mandibles
to those of their females. So also, in the form
of the abdomen, the <i>Nomadæ</i> are like the <i>Andrenæ</i>
and <i>Halicti</i>, upon which they are chiefly parasitical.
.pn +1
.bn 063.png
<i>Melecta</i> resembles <i>Anthophora</i>; <i>Cælioxys</i> has the form
of <i>Megachile</i>, both in the hollowed base of the abdomen
and the peculiar manner the latter has of raising its
extremity,—something like a <i>Staphylinus</i>. Many other
peculiarities of resemblance might be enumerated.

Having thus completed the description of the external
anatomy of the bee desirable to be known for facilitating
the comprehension of what I may have subsequently
to say. I shall now refer to a few peculiarities
of their manners, which could not be conveniently introduced
elsewhere.

In their modes of flight bees vary considerably; some
dart along in a direct line, with almost the velocity of
lightning, visit a flower for an instant, and then dart off
again with the same fleetness and vivacity, like <i>Saropoda</i>
and <i>Anthophora</i>; others leisurely visit every blossom,
even upon a crowded plant, with patient assiduity, like
<i>Bombus</i>; and some, either from fatigue, or heat, or intoxication,
repose, like luxurious Sybarites, within the
corolla of the flower. The males seem to flutter about
in idle vagrancy, and may be often observed enjoying
themselves upon some fragrant hedge-row. But the
domestic bee and the humble-bee are the most sedulous
in their avocation, and both cheering their labour with
their seemingly self-satisfied and monotonous hum.

Bees, too, have a voice; but this voice does not proceed
from their mouth, nor is it the result of air passed
from the lungs through the larynx, and modulated by
the tongue, teeth, and lips; for bees breathe through
spiracles placed laterally along the several segments of
the body, and their interior is aerified by tracheæ, which
ramify variously through it; but their voice is produced
by the vibration of the wings beating the air during
.pn +1
.bn 064.png
flight. Even as Linnæus constructed a floral clock to
indicate the succession of hours by the expansion of
the blossoms of flowers, so might a Beethoven or a
Mendelssohn—the latter in the spirit of his philosophical
ancestor—note down the several sounds of the hum of
the many kinds of bees to the construction of a scale
of harmonic proportions, whose Æolian tones, heard in
the fitfulness of accidental reverberation amidst the solitudes
of nature, repeatedly awaken in the mind of the
entomologist the soothing sensation of a soft, voluptuous,
but melancholy languor, or exhilarate him with
the pleasing feeling of brisk liveliness and impatient
energy.

It is rarely that a bee is seen to walk, although a
humble-bee or hive bee may be seen crawling sometimes
from flower to flower on the same footstalk, but they
are never good pedestrians. They convey themselves
upon the wing from blossom to blossom, and even on
proceeding home they alight close to the aperture of
their excavated nidus, to which an unerring instinct
seems to guide them. There occasionally they will
meet with the intrusive parasite, to whom some genera
(<i>Anthophora</i>, <i>Colletes</i>) give immediate battle, and usually
succeed in repulsing the interloper, who patiently awaits
a more favourable opportunity to effect her object.

Bees are exceedingly susceptible of atmospheric
changes; even the passage of a heavy cloud over the
sun will drive them home; and if an easterly wind prevail,
however fine the weather may otherwise be, they
have a sort of rheumatic abhorrence of its influences,
and abide at home, of which I have had sometimes woful
experience in long unfruitful journeys.

The cause would seem to be the deficiency of electricity
in the air, for if the air be charged, and a westerly
.pn +1
.bn 065.png
wind blow, or there be a still sultriness with even an
occasionally overcast sky, they are actively on the alert,
and extremely vivacious. They are made so possibly by
the operation of the influence upon their own system
conjunctively with the intensity of its action upon the
vegetable kingdom, and the secretions of the flowers
both odorous and nectarian.

Bees do not seem to be very early risers, the influence
of the sun being their great prompter, and until that
grows with the progress of the morning they are not
numerously abroad. Early sometimes in the afternoon
some species wend homewards, but during the greatest
heat of the day they are most actively on the alert.
The numbers of individuals that are on the wing at
the same time must be astounding, for the inhabitants
of a single colony, where they may, perhaps, be called
semi-gregarious, from nidificating collectively within a
circumscribed space, can be computed by myriads.
And then the multitude of such colonies within even a
limited area! When we add to this the many species
with the same productiveness! Yet who, in walking
abroad, sees them but the experienced entomologist?
When we consider the important function they exercise
in the economy of nature, and that but for them, in the
majority of instances, flowers would expand their beautiful
blossoms in abortive sterility, we can but wonder at
the wise and exuberant provision which forecasts the
necessity and provides accordingly. But that even these
should not superabound, there is a counterbalance in
the numerous <i>Enemies</i> to which they are exposed. The
insectivorous animals, birds, among which there is one
especially their arch-enemy—the bee-eater; those reptiles
which can reach them; many insects in a variety
.pn +1
.bn 066.png
of ways, as the cuckoo-bees, whose foster-young starve
the legitimate offspring by consuming its sustenance;
and personal parasites, whose abnormal and eccentric
structure required an Order to be established for their
admission. Strange creatures! more like microscopic
repetitions of antediluvian enormities than anything
within the visible creation, and to whose remarkable
peculiarities I shall have occasion to return. Amongst
the <i>Diptera</i> and <i>Lepidoptera</i> also they have their
enemies.

Bees are sometimes exceedingly pleasant to capture,
for many of them emit the most agreeable scents; some
a pungent and refreshing fragrance of lemons; others
the rich odour of the sweetest-scented rose; and some a
powerful perfume of balsamic fragrance and vigorous intensity.
These have their set-off in others which yield
a most offensive smell, to which that of garlic is pleasant,
and assafœtida a nosegay. These odours must have some
purpose in their economy, but what it may be has not
been ascertained.

They present very frequently remarkable disparities
of structure and appearance in the sexes, so much so
that its infrequency is rather the exception than the
rule, and nothing in many cases but practical experience
can associate together the legitimate sexes. Differences
of size are the simplest conditions of these
distinctions, for they occur also in individuals of the
same sex. Differences of colour, consisting in increased
intensity in the males, are also usually easily recognized;
but the relative length and structure of the antennæ is
a more marked disparity, and the development is always
in favour of the male. The differences in the compound
eyes are conspicuous in our native genera only in the
.pn +1
.bn 067.png
drone, where they converge on the vertex, and throw the
stemmata down upon the face. I have before alluded to
special peculiarities in the legs when treating of those
limbs. In the wings there are occasional differences,
but so slight as not to require, in a general survey, special
notice; but wherever they occur it is always in the
male that the greatest extension of those limbs is found.
The differences in the termination of the abdomen I
have noticed above, and these sexual peculiarities in
some genera are very marked. The spines which arm
it in <i>Anthidium</i> and <i>Osmia</i>, and its peculiar structure in
<i>Chelostoma</i> we can account for; but we have not the
same clue to their uses in <i>Cælioxys</i>, in which the action
of the abdomen is upward, and not downward, as in the
others.

The association of the legitimate partners of our native
species has been to a great extent already accomplished
and recorded; therefore, in this case, with the requisite
guides to further instruction at hand, the commencing
entomologist will find no obstruction, but may register
the observations of his own experience to verify the discoveries
of his predecessors.

It would seem from the facts that have been recorded,
and the close investigations made, that in some instances
the next year’s bee is already disclosed and in the imago
state, in the autumn of the existing year, so that it is
ready, upon the first genial weather in the spring, to
work its way out of its nidus, and take its part in the
duties it has to perform. Whether this be for the economy
of the food to the larva, or the saving of labour
to the parent in gathering it, or that it would be prejudicial
for it to lie dormant in the pupa state during the
winter is not known, but thus in many instances it is.
.pn +1
.bn 068.png
Sometimes a late autumnal impregnation takes place,
for the males of some <i>Andrenæ</i>, <i>Halicti</i>, and <i>Bombi</i> are
found abroad only late in the autumn, and then in fine
and recently disclosed condition.

It is a singular circumstance in the history of some
species, that where they abound one season, nidificating
on a certain spot in profusion, the following year, perhaps,
and the year succeeding that, they will not be seen
at all, but yet again a further year, and there they are
as innumerable as ever.

What may control this intermittent appearance it is
impossible to conceive, all the conditions of the spot and
its surroundings being the same. This I have found to
be a peculiarity incidental to many of the aculeate <i>Hymenoptera</i>.
It occurs also in the flowering of many
plants which blossom irregularly from season to season.
It is a fact scarcely concordant with the observed rapidity
of the disclosure of the larva from the egg, and the
speedy growth, development, and transformation of the
latter into the pupa and imago.

The wild bees appear to be of annual, or of even more
restricted duration merely. Of this, however, we have
no certainty. The conclusion is derived chiefly from
the circumstance that, as they progressively come forth
with the growth of the year, they, when first appearing,
are in fine and unsoiled condition. There are evidently
in some species two broods in the year; the one in the
spring and the other autumnal. In bees without pubescence
we have not the same guide. But humble-bees
are reputed to have a longer life than of one year, and
hive bees are said to survive several years, a duration of
existence inconsistent with analogy, and which has been
repeatedly and strongly denied.
.pn +1
.bn 069.png

In speaking of the <i>antennæ</i> and <i>palpi</i>, I have called
them sensiferous organs. The organ necessarily implies
the perception, or whatever it may be, conveyed to the
sensorium through its means, this being the receptacle
of the sensation or idea, the external organ communicates.
It is thus that activity is given to a power of
discrimination, and consequently of election or rejection
by the creature. This sensorium, in the higher animals,
is the brain; and in the lower, where the nervous system
is very differently constituted, a ganglion, or knot of
nervous substance. That this brain, or ganglion, is the
power exercising the control, may not be admitted,
although it is there that our research compulsively terminates.
The power itself is essentially spiritual, acting
through a material agent, and may be an efflux of this
nervous mass. Whether it cease with the death of the
organ, we have no means of knowing. That it may be
in some way analogous in nature to the human mind,
but to a limited extent, there is reason to surmise. This
power, in its collective capacity, is called <sc>Instinct</sc>.
This instinct is a faculty whose clear comprehension and
lucid definition seem impossible to our understanding.
Its attributes are very various, and its operations are
always all but perfect. It is an almost unerring guide
to the creature exercising it, and is as fully developed
on its awakening as is, and with it, the imago upon its
transformation.

Although observation has thought to have detected
that experience sometimes uses a selection of means, and
thus occasionally modifies the rigid exercise of the faculty,
by adapting itself to the force of circumstances, it, when
so, evidently assumes a higher character than has been
willingly accorded to it. This instinct teaches the just
.pn +1
.bn 070.png
disclosed bee, without other teaching than that of the
intuitive faculty, where to find its food, and how to
build its abode. It directs it to the satisfying its material
needs, and instructs it to provide for its offspring,
and to protect them whilst in their nidus; the impulse
to which follows immediately upon the satisfaction of
the sexual desire, to which it is the seal.

If it be <i>memory</i> that guides the bee from its wide
wanderings back to its home, this then becomes an attribute
to the faculty. Instinct indicates to them their
enemies, and the wrongs these may intend, and shows
them how they may be repulsed or evaded. In some of
its operations it seems to be of a more perfect capacity
than the operative faculty of human intelligence.

The senses evidently possessed by our insects are
sight, feeling, taste, and smell, but whether they hear we
cannot know, although the antennæ have been supposed
to be its organ, for the apparent responsiveness of these
to loud and sudden sounds, may equally result from the
agitations of the air these produce. Their possession of
touch, taste, and smell, are implied from what has been
observed.

They certainly exercise a will, evinced by their power
of discrimination, which decides what is salutary and
what is noxious; and the passions are exemplified in
their revenge, their sexual love, and their affection for
their offspring, the latter being exhibited in their unremitting
labour and careful provision for them, although
they are never to see them. If there be any precedence
in the order of the relative quality and distinction of the
bees, it will be shown in the degree of superiority with
which this function is accomplished. The perfection of
this function we see progressively maturing as it passes
.pn +1
.bn 071.png
onwards from the merely burrowing-bee to the more
complicated processes of the masons, carpenters, and
upholsterers,—all solitary insects, and working each individually
and separately to the accomplishment of its
object. But we may certainly inquire where we shall
intercalate the sagacity of the cuckoo-bees. A vast
bound is immediately made from the artisan bees to
the social bees with three sexes, which, as first shown in
the humble-bee, works in small and rude communities,
with dwellings of irregular construction. The next and
most perfect grade is the metropolitan polity, accomplished
architecture, laborious parsimony, indomitable
perseverance, and well-organized subordination of the
involuntary friend of man, the domestic bee. This insect
has furnished Scriptural figures of exquisite sweetness,
poetry with pleasing metaphors, morality with
aphorisms, and the most elegant of the Latin poets with
the subject of the supremest of his perfect Georgics.

That bees feel pain may be assumed from the evidence
we have of their feeling pleasure, although instances are
on record of insects surviving for months impaled; and
they lose a limb, or even an antenna, without evincing
much suffering, and I have seen a humble-bee crawling
along on the ground with its abdomen entirely torn
away.

In speaking of the antennæ above, as possibly the
organs of hearing, I would wish to add, that they evidently
possess some complex function, of which, not
possessing any analogy, we cannot certainly conceive any
notion. They are observed to be used as instruments
of touch, and that too of the nicest discrimination. They
seem to be extremely sensitive to the vibrations of sound
and the undulations of air, and keenly appreciative of
.pn +1
.bn 072.png
atmospheric influences, of heat, of cold, and of electrical
agitations. That they are important media in sexual
communication must be assumed from their great differences
of structure and size in the sexes, probably both
as organs of scent and stimulation. I have often observed
bees thrust their antennæ into flowers, one at the
time, before they have entered the flower themselves,
and in some insects, as in the Ichneumons, they are constantly
in a state of vibration,—a tribe which, although
of the same order, are remote in position from the bees,
yet they may be instructively referred to by way of
analogy in the discussion of the uses of an organ, whose
functions so clearly follow its structure and position in
the organization of the entire class of insects, that the
analogy might be safely assumed in application to every
family of the class, if observation could only correctly
ascertain its uses in any one of them.

That it is of primary signification to the bees, is sufficiently
shown by nature having furnished these insects
with an apparatus designed solely to keep the antennæ
clean, and which I have described above, when speaking
of the structure of the anterior leg.

In the social tribes the antennæ are used as means of
communication. The social ants, bees, and wasps may
be often seen striking each other’s antennæ, and then
they will each be observed to go off in directions different
from that which they were pursuing. An extraordinary
instance of this mode of communication once came under
my own notice, having been called to observe it. There
was a dead cricket in my kitchen, another issued from
its hole, and in its ramblings came across this dead one;
after walking round, and examining it with its antennæ
and fore legs a short time, it started off. Shortly,
.pn +1
.bn 073.png
either attracted by sound, or meeting it by accident, it
came across a fellow; they plied their antennæ together,
and the result was that both returned to their dead companion,
and dragged him away to their burrowing-place,—an
extraordinary instance of intercommunication which
I can vouch for.

It would be curious to know if the means of communication
thus evidently possessed by animals, extends
beyond the social and gregarious tribes, and whether the
faculty undergoes any change through differences of
climate and locality, as man has done in the lapse of
time. For man, notwithstanding the vastly divergent
differences of race, may be obscurely tracked through
the dim trail of the affiliation of languages to one common
origin. But the complete identity of habit throughout
the world of those genera which are native with us,
would seem to affirm that they are as closely allied in
every other particular, were we in a condition to make
the investigation, and whence we may conclusively
assume that they all had one central commencement.

That this mode of communication, and this exercise
of the organ in the solitary tribes is limited to the
season of their amours is very probable, and I apprehend
that it is not exercised between individuals of distinct
species. But that, at that period, their action is
intensified may be presumed from the then greater activity
of the males, who seem to have been called into
existence only to fulfil that great object of nature, and
which she associates invariably with gratification and
pleasure. Even in plants it may be observed to be attended
with something very analogous to animal enjoyment
in the peculiar development at that period of an
excessively energetic propulsion, which is the nearest
.pn +1
.bn 074.png
approach the vegetable kingdom makes to the higher
phase of sensiferous life.

The clothing and colouring of bees are very various,
but the gayest are the parasites, red and yellow, with
their various tints, and white and cream-colour decorate
them. The ordinary colour is deep brown, or chestnut,
or black. Where the pubescence is not dense, they are
often deeply punctured, and exhibit many metallic tinges.
Many are thickly clothed with long hair, and this, especially
in the <i>Bombi</i> and <i>Apathi</i>, is sometimes of bright
gay colour, yellow, red, white, of a rich brown, or an intense
black, sometimes in bands of different tints upon
the same insect, and sometimes of one uniform hue.
.pn +1
.bn 075.png
.pb
.sp 4
.h2
CHAPTER III || <sc>SKETCH OF THE GEOGRAPHY OF THE GENERA OF\
BRITISH BEES.</sc>
.sp 2
.ni
<sc>In</sc> giving a broad sketch of the geography of the
genera of bees which are native to our islands, but
whose local distribution I shall reserve for notice in the
account of the genera themselves, I must regret at the
outset the lack of materials for its satisfactory treatment.
.pi
There are but very few exceptions to the dearth of
assiduity in this direction; a very favourable one is that
of the son of the late venerable hymenopterologist, the
Count le Pelletier de St. Fargeau, who, at his military post
as an officer of the French army in Algeria, stationed at
Oran, collected energetically for his father in that district,
and where, in one of his collecting excursions, he was
severely wounded by a musket-ball. Another equally
favourable exception is that of Sydney Smith Saunders,
Esq., residing at Prevesa, in Albania, who has strenuously
and perseveringly collected in that country.
Here and there we can point to something having been
done in Upper India, in the vicinity of Poonah, at Pondicherry,
in Java, in some limited localities of China, and
to some extent in Australia, Tasmania, and New Zealand,
.pn +1
.bn 076.png
but nothing of any magnitude. There is much hope that
a great deal has been done in Ceylon by Mr. Thwaites,
who, when resident at Bristol, was a most ardent and
successful hymenopterologist.

The Egyptian <i>Hymenoptera</i> have been extensively and
admirably figured by Savigny, in the Imperial superb
work published under the auspices of Napoleon I., but
to these, unfortunately, no descriptive text was published,
and they are therefore as useless to science as if
they had not been figured. But those collected by
Ehrenberg, and figured by Klug, in the ‘Symbolæ
Physicæ,’ exhibit how rich in variety is that remarkable
region. These figures may be called the <i>ne plus ultra</i>
of entomological artistic skill.

Unfortunately, this Order has been sadly neglected for
the sake of the less troublesome <i>Coleoptera</i>, and the more
conspicuous <i>Lepidoptera</i>. This is plainly perceptible
from the paucity of species recorded as having been once
in the Count Dejean’s collection, where we might have
expected to have obtained a rich view of the <i>Hymenoptera</i>
of Spain; as also in those of other French collectors,
who have had rare but neglected opportunities for the
purpose. It is true M. Brullé has done a good deal in
Greece. We are, as yet, in comparative ignorance, from
the same cause of neglect, of the <i>Hymenoptera</i> of Italy,
excepting something that has been done by the Marquis
Spinola, in Liguria, and by Rossi, in Tuscany. A little
has been contributed towards that of Carniola, but we
are almost ignorant of the <i>Hymenoptera</i> of Sicily, which,
from various causes, are likely to be very peculiar. Mr.
Swainson’s collection of them, although not numerous,
were neglected until they became unintelligible. The
only European countries that have been tolerably gleaned
.pn +1
.bn 077.png
are Germany, Sweden, a part of Russia, and even Finland.
It is impossible for any entomologist to examine
every locality for himself, he must, in great measure,
depend on the labours of others; and, of course, I can
only speak of the collections which are accessible to me,
or which are described in monographs, or have been
named in lists that have been published. Doubtless the
Museum of Berlin, so long under the administration of
a lover of the Order, Dr. Klug, would present a large
contribution to our knowledge of the distribution of the
forms, did a list of its riches exist. Such a list of the
<i>menoptera</i> of Portugal, contained in Count Hoffmansegg’s
collection, was published many years ago in Illiger’s
‘Magazin der Insectenkunde.’

It has been a fatality incidental to this entomological
branch of the study of natural history that some of its
most energetic cultivators have been taken early away.
There was formerly Illiger, then our own Leach, and
then Erichsen. Leach, but for his afflicting malady,
would have done much for the science; still, let us
hope that the <i>Hymenoptera</i>, and especially the bees, are
gaining ground in the estimation of entomologists generally,
and that not many years will pass before collectors
will possess them in abundance. For the present,
I can but give a slight summary of the knowledge we
possess on this subject.

Thus science has sustained great loss by reason of the
unfortunate neglect which the family of bees, and, indeed,
the Order of <i>Hymenoptera</i> generally, has met with
from collectors in distant localities whose tastes have
led so directly to the collection of other more favoured
Orders, and the opportunities for repairing the consequences
of such neglect being in some cases extremely
.pn +1
.bn 078.png
rare. The present slight attempt to trace the geography
and cosmopolitan range of our native genera of bees
will necessarily be affected to some considerable extent
by this neglect.

Although the materials in our possession will yield
some fruit, yet their collection will be but the gleaner’s
handful, instead of a loaded wain from a rich and abundant
harvest. As what I have gathered may still have
an interest for some of my readers, I will lay it before
them, and in doing so I shall take the genera in their
methodical series.

The genus <sc>Colletes</sc> comes first, a position the more
remarkable from the peculiarities of its economy and
form, which bring it closely to the true bees, as do also
its aptitude, by reason of its structure, for collecting
pollen, and its energy in gathering it. The divergence
in the form of the tongue brings it, however, to the extreme
commencement of the series, it being the closest
structural link we find for connecting the bees with the
preceding family of wasps. This genus, in our own
species, ranges through northern Europe to the high latitude
of Finland, passing through Sweden; and it occurs
also in Russia and in the Polish Ukraine. In
other species than ours, and differing among themselves,
it occurs at both extremities of Africa, in Egypt, and
Algeria, and at the Cape of Good Hope; but whether
throughout the wide interval collections do not inform
us. It has been sent from Turkey, but whence?—for
this is as vague a designation as Russia, both being
empires which spread over vast areas,—and, if found in
their Asiatic divisions, are the only instances we know
of its Asiatic occurrence. It is so easy for collectors to
add to their specimens a defined and precise locality,
.pn +1
.bn 079.png
that its omission in any instance is to be regretted, as
in many ways, and in all kinds of collections, it might
be very serviceable to science. To our present purpose
it has but a collateral interest as an object of curiosity,
yet curiosity has led to many discoveries which have
proved valuable to mankind. All the divisions of natural
science have a mutual and convertible bearing, and
closely interlink in their relations. Thus, insects denote
the botany, which further indicates the climate or
elevation and soil; and the superficial soil will point
geological conclusions to subsoil and substructure. One
natural science well mastered gives a key to the great
storehouse of nature’s riches, and yields a harvest of
many different crops. This episode may be excused
for the hint it is intended to give of the paramount importance
of the correct registration of special localities.

The genus <i>Colletes</i> also occurs in the Canary Islands,
which shows a trending tendency to its southern habitat
at the Cape of Good Hope. It occurs on the western
edge of South America, in Chili; it is found on its
northern boundary in Columbia, and has been discovered
in the southern States of North America, in Florida
and Georgia; but there is no record of its further
northern occurrence upon that continent. About thirty
species are known.

The genus <sc>Prosopis</sc>, or as it is more familiarly known
by the name of <sc>Hylæus</sc>, is found in some of our native
species throughout France and Germany, and, like the
preceding, as high up as Finland, through Denmark and
Sweden, to the adjacent parts of Russia. It is remarkable
that it is caught in Algeria, although not recorded
as occurring in several of the southern European States.
But the apparent restriction of some of our species
.pn +1
.bn 080.png
to our own islands possibly arises from the fact of special
attention having been paid to them in this country
only.

The genus itself, in other and more variegated forms
than ours, presents itself in some portions of southern
and south-western Europe, where the highly ornamented
species would point almost to the certainty of its being
a parasitical genus, great decoration being in our native
genera of bees the badge of parasitism, and may be indicative
of those habits, combined as they are conjunctively
with their destitution of polliniferous organs.
Some of our native entomologists have, however, assumed,
upon what appears to me very inconclusive
grounds, that the genus is not parasitical. The observations,
however, of the most distinguished French hymenopterologists
confirm the notion of their being parasites,
which appears strengthened by the argument above
suggested with regard to colour.

This genus is apparently fond of hot climates. In
eastern Europe, it occurs in Albania and the Morea, its
extreme western domicile is Portugal, and its southern
European habitat is Sicily. It is found in Algeria and
Egypt, and at the Cape of Good Hope. We discover it in
India, in the southern tropics at the Brazils, and in the
northern tropics at the Sandwich Islands; and it ranges
along the southern edge of Australia, from Swan River
through Adelaide and Port Phillip to Tasmania. The
United States of North America furnish it, and on that
continent it seems to contradict its ordinary tropical
inclination by being exceptionally found upon the confines
of the arctic circle at Hudson’s Bay. Nearly sixty
well-distinguished species are recorded.

The genus <sc>Sphecodes</sc> has also a wide distribution.
.pn +1
.bn 081.png
Our native species are found throughout France and Germany,
Greece and Spain, still one or two seem limited
to our islands. The genus is recorded as in Albania,
Algeria, and Egypt; it is found on the western edge of
Africa at the Canaries; it occurs also in northern
India, in the United States, on the western side of South
America at Chili, and then we have a wide gap, for
its next appearance is at Sydney, New South Wales.
About twenty species are known.

The genus <sc>Andrena</sc>, although infinitely more numerous
in species than the genus <i>Halictus</i>, which is also
abundant, does not appear to have so wide a distribution
as the latter. Peculiarities of habits possibly limit its
diffusion, although nothing has occurred to naturalists
to explain the circumstance, unless it be the adventitious
fact of no specimens having fallen into the hands
of the collector. Our own species, represented by one
or several members, are found (although some seem restricted
to England) throughout Europe, north and
south, east and west, as also in its islands. In Africa it
is seen in Algeria and Egypt, and it occurs in the Canaries;
and in Asia it is found in Siberia, and in northern India;
but we have no connecting chain to link those Asiatic
and African localities,—although we may well suppose
that it might be discovered amongst the steppes
of Thibet and Tartary, revelling amidst the flowers of
their luxuriant pastures, and even amongst the Persian
sands. It passes through the United States from Florida
up and to our own colony of Nova Scotia, and
extends its range to Hudson’s Bay. We do not trace it
further. Nearly two hundred species occur.

The genus <sc>Cilissa</sc>, too, has a limited distribution,
and occurs in the same countries, but ranges as high
.pn +1
.bn 082.png
as Lapland; it also crosses the Atlantic, being found in
the United States. About six are known.

Our solitary species of the genus <sc>Macropis</sc>, which
is isolated possibly only from having been overlooked,
appears to have but a European existence, and is
found in France, Germany, Denmark, Sweden, and Finland.

The genus <sc>Halictus</sc> is very cosmopolitan. Some of
our own species occur throughout Europe, excepting
only Italy and Sicily, although they are to be found
in Portugal and Dalmatia, thus traversing its entire
breadth; but from the latter country they do not seem
to range down to Albania and Greece, yet are they
discovered in Malta, and even in southern Africa, but
they have not been recorded as extant in northern portions
of that continent. Other species have been sent
from the western coast of Africa and the adjacent Canaries,
with their adjunct, Madeira, and the genus ranges
from Barbary through Senegal and Sierra Leone; some
species also are found at the Cape of Good Hope.

On the other side of Africa the genus has been discovered
at the Isle of Bourbon; it then takes a wide
sweep, occurring first in northern India; it then springs
up at Foo-chow-foo, and it is found in northern China.
In western Asia it occurs in Syria. Across the Pacific
it is found in Chili. Its next appearance on the rich
and diversified continent of America is across its southern
bulk, presenting itself in the Brazils, and on its
northern boundary at Cayenne, and in Columbia; and
it then appears again in Jamaica. In North America
it occurs throughout the United States from Florida
upwards, where the genus in its species has a very
English aspect, and if they be dissimilar, as may be
.pn +1
.bn 083.png
fairly surmised, they are so very like our own that one is
said to be absolutely identical throughout Europe and in
Ohio. It passes still forward and occurs in Nova Scotia,
Hudson’s Bay, and elsewhere in arctic America, where
the botanist might almost herbalize through the agency
of our insects, for the pollen they carry and still retain
in cabinets would often indicate the plants which they
there frequent. Thus those stern regions are not barren
in fragrant and attractive beauties. We find it, too, in
common with <i>Sphecodes</i> at Sydney, New South Wales,
whence, doubtless, it passed to New Zealand, where it
has been collected. About one hundred and fifty are
registered.

With the next genus, <sc>Dasypoda</sc>, I terminate the
geography of the <i>Andrenidæ</i>. Our own single species
of these very elegant bees occurs throughout France and
Germany, and abounds in Sweden. Other species, all elegant,
occur in the Isles of Greece, in Albania, and the
Morea; profusely at Malaga in Spain, and at the further
extremity of northern Africa in Tunis, and in Egypt.
Twenty are known.

The genus <sc>Panurgus</sc> is the advanced guard of the
true bees, for, although it still retains much of the appearance
and structure of the terminal genus of the preceding
subfamily of <i>Andrenidæ</i>, it is strictly distinct,
and well links the two subfamilies together. This very
peculiar form is limited in number of species and in
distribution, for five only have been recorded.

Our own species occur throughout France, Italy, Germany,
Switzerland, Denmark, Sweden, and Finland,
and one of them has also been sent from Oran. The
genus is small, and may have been overlooked in other
countries, although its appearance is sufficiently distinct
.pn +1
.bn 084.png
and marked to have caught the eye. It is as lithe and
active as a Malay, as black as a negro, and as hairy as
a gorilla, looking like a little ursine sweep.

The genus <sc>Eucera</sc>, of which we have but one representative,
although considerably more than fifty species
are known, has not so wide a range as might be expected
from their numbers. Our own is found throughout
Europe and in Algeria. Other species occur in
Russia, the Morea, Albania, Dalmatia, and Egypt. In
Asia some are found in Syria, and at Bagdad; and
from the New World they have been sent from Cayenne
and the United States.

The genus <sc>Anthophora</sc>, to which the genus <i>Saropoda</i>
is very closely allied,—so closely, indeed, that by the
celebrated hymenopterologist Le Pelletier de St. Fargeau
the species of both are incorporated together,—has,
even as now restricted, a world-wide dissemination,
and numbers nearly a hundred and fifty species. Several
of our own occur throughout France and Italy
and the whole of northern Europe, and even among the
Esquimaux in the arctic regions, showing that a bridal
bouquet may be gathered even there; for where bees
are flowers must abound.

The genus in other species shows itself in the south
of Europe, viz. in Spain, Sicily, the Morea, and Dalmatia;
by way of Syria and Arabia Felix it passes down
to Egypt and occurs in Nubia and also in Algeria. It
dots the western coast of Africa at Senegal and Guinea,
and has been discovered in the Canaries, and again
makes its appearance at the Cape of Good Hope,
rounding it to Natal. It travels round the peninsula
of India, being found at Bombay, in Bengal, and in the
island of Ceylon, and passes onward by way of Hongkong
.pn +1
.bn 085.png
to northern China, where, dipping to the Philippines,
it next occurs in Australia. In the New
World it is found on its western side at Chili, and traverses
that continent to Paraguay and Pará, and has
been sent from the West India Islands of Cuba, St.
Domingo, and Guadaloupe. From Mexico, where we
next find it, it passes to Indiana, and occurs throughout
the United States, and thus completes its progress
round the world. About one hundred and thirty are
known.

The genus <sc>Saropoda</sc> is closely allied to <i>Anthophora</i>,
as closely as <i>Heriades</i> is to <i>Chelostoma</i>, and is very
limited in numbers, ten only being known, and but one
of which is native with us. The genus occurs throughout
France and Germany, and has been sent from
Russia, Egypt, South Africa, and Australia, thus having
a very wide range notwithstanding the paucity of its
species.

The very pretty genus <sc>Ceratina</sc>, although numbering
but few species,—fewer than thirty,—and although not
found in Australasia, is widely scattered throughout the
Old and the New Worlds. Our own species inhabits as
far north as Russia. Other species occur throughout
France, and in the south of Europe, and show themselves
in the Morea, and in Albania. North, South, and
Western Africa possess the genus, it being found in Algeria
and at the Cape of Good Hope, and in the intervening
district of Senegal. It has been brought from
Ceylon and Bengal, and also from the north of India.
It reaches China by way of Java and Hongkong: and
in the New World has been found in the Brazils and
Cayenne, in the Southern, and throughout the United
States in the Northern continent.
.pn +1
.bn 086.png

The genus <sc>Nomada</sc> is the first of the genuine parasitical
bees, and about the habits of which no doubt can
be entertained; certainly not the same as attaches both
to <i>Hylæus</i> and <i>Sphecodes</i>, among the <i>Andrenidæ</i>. The
parasitical habits of Nomada are evident and unmistakable.
This is the handsomest genus, in variety of colour
and elegance of form, of all our native bees, but the
species are never conspicuous for size. They have much
of the appearance of wasps, and are often mistaken for
them even by entomologists, who have not paid attention
to bees. Many of our native species seem limited to
our own islands: others of our species occur in France
and Germany, and through Denmark in direct line to
Lapland, turning down into Russia, and have been
caught as far south as Albania. One of our species, or
so like as to want distinguishing characteristics, is found
in Canada. Did ours migrate there? and how? The
genus is of wide distribution, but occurs only north of
the Equator, where it spreads from Portugal to the
Philippine Islands. It is found in Siberia and Northern
China, whence through the Philippines it passes to
Tranquebar, then up to Northern India, and thence by
Bagdad to the Morea and Albania, and dips down to
Northern Africa at Tunis, and on to Oran and Tangiers,
and completes its circuit in Portugal. It is doubtless
parasitical upon many more genera and species than we
find it infest in this country, although all that the several
species pair off with here are not fully designated, especially
among the <i>Andrenæ</i>, and smaller <i>Halicti</i>. The
number of species, British and foreign, known to collectors
approximate to a hundred.

The genus <sc>Melecta</sc> is another handsome parasitical
insect. This is always a dark beauty, and is very limited
.pn +1
.bn 087.png
in species, for, as far as they may be estimated from the
contents of collections, its numbers do not reach twenty.
Our own species occur throughout the whole of Europe,
north and south. Others are found in Sicily, Albania,
the Morea, and show themselves at Bagdad. The genus
has been sent from the Canaries, and crosses the tropics
into Chili, but does not seem to have occurred elsewhere
in either North or South America, although one of the
genera (<i>Eucera</i>) on which, with us, it is parasitical, is
found in the latter country, and the other genus (<i>Anthophora</i>),
which it also infests, is found throughout the
world, excepting in Australasia. In all those countries,
the closely-allied exotic genus <i>Crocisa</i>, which is very
numerous in species, may supply its place.

The elegant genus <sc>Epeolus</sc> occurs in our own species
throughout northern Europe, as high as Lapland, and
is found also at the southern extremity of the continent
of the Old World, at the Cape of Good Hope. It has
been brought from Sicily, and other species come from
Siberia. The genus in America passes down from the
United States, by way of Mexico, to the Brazils, where
it crosses the southern continent, having been transmitted
from Chili. It is very limited in the number of
its species, considering its wide diffusion, for not more
than twenty are registered. It is almost identical in
distribution with the genus <i>Colletes</i>, upon which it is
with us parasitical. The species are never so large as
those of the preceding genus, <i>Melecta</i>.

The genus <sc>Stelis</sc> is limited both in number of
species and distribution, although the spots whence
it has come are wide apart. Our own species are
found throughout France and northern Europe, as far
as Finland. Other species occur in North America, and
.pn +1
.bn 088.png
the Brazils, but the whole number yet described is under
ten.

The remarkable form in both sexes of the genus <sc>Cælioxys</sc>
occurs in identity with our own species throughout
France and Austria, and spreads north to Finland
and Russia, and through all the intervening countries.
It is singular that it should not be recorded from southern
or south-western Europe, as it is found in Oran. Other
species of the genus have been found in northern Africa,
Egypt, and Algeria. On the western coast of Africa it
has been caught on the Gambia, at Sierra Leone, and
on the coast of Guinea. It doubles the Cape of Good
Hope, where it is found extending its range to Port
Natal. From Asia we have it from Turkey, and again
from India. It has been sent from the hither side of
South America, from the Brazils, and separately from
Pará, and occurs at Cayenne, and in the West India
Islands, Cuba, and St. Thomas’s, and extends as high in
North America, through the United States, as Canada.
It is quite probable that it has as wide a range as the
bees upon which it is parasitical (<i>Megachile</i>), although it
has not yet come from such extensively-spread localities.
More than fifty species are known, but some of
our own have not yet been enumerated amongst those
found elsewhere.

The genus <sc>Megachile</sc>, which embraces the most renowned
of the mechanical bees, is extremely cosmopolitan,
spreading north and south, east and west; and is also
very abundant in the numbers of its species, the census
extending to not far short of two hundred. Some one,
or several of our species, although other species are
limited to our own country,—spread through Italy and
France, and all the countries of northern Europe to the
.pn +1
.bn 089.png
high latitude of Lapland, which is higher than where
even one of ours (viz. the <i>M. centuncularis</i>) is again
found, which occurs in Canada and at Hudson’s Bay.
The genus also frequents southern Europe, in Spain,
Sicily, and Albania, and in the East, in the Caucasus
and Dalmatia. It traverses Turkey by Bagdad to India,
having been captured in Nepaul, and it descends southward
in the Indian peninsula, where it has been found
at Bombay. From India it stretches to the Mauritius,
thence across the Indian Ocean to Java, and thence to
Hongkong and northern China. It then dips to the
Philippines, and doubtless through the islands of the
Indian Archipelago to Australasia, from which continent
none are registered from its northern and eastern settlements,
but species abound along its southern edge from
Western Australia, through Adelaide to Tasmania. The
genus has been brought from the West India islands,
St. Thomas’s, St. Croix, and Cuba: it is found upon the
main from Mexico, descending to the Brazils. It skirts
all the coasts of Africa, being discovered in Egypt and
Algeria, along the western coast by the Gambia, Senegal
and Sierra Leone to Guinea, and the island of Fernando
Po, and then again occurs at the Cape of Good
Hope. Ascending the eastern coast by Natal, it stretches
to Abyssinia. The species are very abundant in India,
Africa, and Australasia.

The genus <sc>Anthidium</sc>, although very numerous in
species, and differing more remarkably in form amongst
themselves than most other genera, has a far less extensive
range, no species having been found in Australasia
or India, although it occurs in Arabia, Syria, and
Mesopotamia. Our own solitary species occurs in France,
Italy, and the whole of northern Europe, extending to
.pn +1
.bn 090.png
Finland. In southern Europe the genus inhabits Sicily,
Spain, the Morea, Albania, and Dalmatia, and is
also very abundant in Southern Russia. In Africa it is
found in Nubia and Algeria, and on its north-western
edge in Barbary, whence it descends by the Gambia and
Sierra Leone to the Cape of Good Hope, and thence
reaches to Natal. It is then found in Chili, and crossing
the South American continent occurs in the Brazils,
whence it ascends to Cayenne, and, by way of Mexico,
to the United States. The number of species recorded
exceed a hundred.

The remarkable genus <sc>Chelostoma</sc> is very limited in
the numbers of its species, of which less than a dozen
are known; as also in the extent of their distribution.
Our own are found throughout northern Europe, as far
as Lapland, and in Russia. In southern Europe they
occur in the Morea, and the genus has been discovered
in Georgia in North America.

The closely-allied genus <sc>Heriades</sc> seems limited to a
European habitation, and occurs only in our own solitary
species, but it ranges, like the preceding, to the high
latitudes of Lapland.

<sc>Anthocopa</sc> seems limited to our own country and
France, possibly only from its having been associated
from similarity of general habit with the genus <i>Osmia</i>.
Only one species appears to be known, but this has a
world-wide celebrity, from the interesting account given
by Réaumur, of its hanging its abode with symmetrical
cuttings from the petals of the poppy.

The genus <sc>Osmia</sc>, although not including such able
artisans as <i>Megachile</i>, still has in its species very constructive
propensities. Indeed, all the bees which convey
the pollen on the under side of the abdomen, are
.pn +1
.bn 091.png
more or less builders or upholsterers. The genus has a
wide range, and is tolerably numerous, numbering more
than fifty species. Some of our own occur throughout
Europe, and, like the two preceding genera, are found
in the highest continental latitudes. Some of ours also
occur in Algeria and the Canaries, other species in
Albania and Moravia. In Africa they are found in
Egypt, Barbary, and Port Natal, and in the New World
from Florida, in the United States, through Nova Scotia
to Hudson’s Bay.

The genus <sc>Apathus</sc>, which is parasitical upon <i>Bombus</i>,
and to the uninitiated has all the appearance of this
genus, seems to be the only instance of a parasitical
genus of bees so closely resembling the <i>οἶτος</i>, (as we
may, perhaps, for the sake of avoiding a periphrasis, be
allowed to call the bee upon which the parasite is found,)
as to be so easily liable to be mistaken for it, and which
was indeed the case by even such a sagacious entomologist
as the distinguished Latreille; but Kirby had
already noticed the difference, suggesting its separation
from <i>Bombus</i>, until about the time that St. Fargeau was
induced to propose a distribution of the Hymenoptera,
based generally upon economy and habits, to which he
had been led by a refining investigation of structure,
that the distinguishing difference was appreciated, and
used generically, by Mr. Newman. This difference, like
many other simple facts, now that it has been found, is
very obvious. It consists in the genus having no neuters,
and the female of the species no polliniferous
organs, but the determination of the legitimate males, by
means other than empirical, is still difficult. In our own
species this genus ranges throughout northern Europe,
as high as Lapland; a cause for which we shall discover
.pn +1
.bn 092.png
when we trace the geography of the next genus, <i>Bombus</i>.
One species different from any of ours occurs in the
Brazils, and others are found in the Polish Ukraine,
and in the United States of North America. The genus
appears extremely limited in numbers, for although
nearly a hundred of the genus <i>Bombus</i> are known, <i>Apathus</i>,
in collections, seems limited to ten. This may
perhaps arise from want of due observation or from the
neglect of their careful separation from that genus, but
our own species are far from co-extensive with our native
species of <i>Bombus</i>.

The genus <sc>Bombus</sc>, although with some southern
irrepressible propensities, it being found within the
tropics in a few instances, is essentially a northern form,
which is strongly indicated in its downy habiliments,
for it is clothed in fur like the Czar in his costly blue-fox
mantle. In the Old World its range extends to
Lapland, whither it is followed, as previously noticed,
by its parasite <i>Apathus</i>, and in the New World to
Greenland, where one species seems an autochthon,
perhaps originating there when the land was still verdant,
and grew grapes, long before the age of Madoc. Other
species occur far away to the north of east, booming
through the desolate wilds of Kamtchatka, having been
found at Sitka; and their cheerful hum is heard within
the Arctic circle, as high as Boothia Felix, thus more
northerly than the seventieth parallel. They may, perhaps,
with their music often convey to the broken-hearted
and lonely exile in Siberia, the momentarily
cheering reminiscence of joyful youth, and by this bright
and brief interruption break the monotonous and painful
dullness of his existence, recalling the happier days of
yore: but the flowers of humanity, here typified by
.pn +1
.bn 093.png
the natural flowers which attract these stray comforters,
will one day spring where the salt of tears now desolates,
and thus the merry bees have sweetness for even these
poor outcasts, and froth their bitter cup with bubbling
hope.

In the south of Europe the genus occurs in Austria,
the island of Zante, and the Pyrenees. It is found in
Syria, the island of Java, in China at Chusan and Silhet,
and also in northern India; and, although crossing the
tropics to fix itself at Monte Video, at the mouth of
Rio de la Plata, in Africa it appears to be found at Oran
only; nor does it occur in Australasia. In South
America it is also found at Pará and Cayenne, and on
the opposite side at Columbia, Quito, and Chili, and
passes up the isthmus to California, and thence to Mexico,
whence it extends to the island of Antigua.

.hr 10%

The genus <sc>Apis</sc>, or the <sc>Hive Bee</sc>,—which perhaps in
its past and present utility to man, may successfully
compete in the aggregate with the silkworm,—with
true regal dignity comes the last of the series of genera.
The whole array of her precursors, who marshal her
way, and derive their significance and importance from
the more or less direct resemblance in structure and
function to her, deduce their common name of “Bees”
from this relationship, and consequently from her.
Long before their existence had been traced by the observer
of nature or by the naturalist, the comb of the
<sc>Bee</sc> had dropped in exuberant luxuriance its golden
stores for the gratification of mankind. This little creature
had garnered, from sources inaccessible to man, the
luscious nectar concealed within the bosom of the flower,
whose exquisitely beautiful varieties, in form, colour, and
.pn +1
.bn 094.png
fragrance, had delighted his sight and his smell long
before he had been led by accident to discover that these
industrious little workers collected into their treasury,
from those same flowers, as exquisite a luxury for his
taste, as they themselves had yielded to his other senses.
Thus the earliest records speak of honey, and of bees,
and of wax; and the land of promise to the restored
Israelites, was to be a land flowing with milk and honey.

Réaumur, whose observations upon bees had been pursued
with such patient and indefatigable perseverance,
combined with such minute accuracy, and then recorded
so agreeably, and who conceived the possibility of establishing
a standard of length, for the common use of
all nations, to be derived from the length of a certain
number of the honey-cells of the comb, to which notion
he was doubtless led by their mathematical precision and
uniform exactitude, appears to have been unaware of the
existence of other species of the genus, and hence he
assumed, in his ignorance of this fact, that in all countries
they were alike.

Travellers had, even for more than a century before,
mentioned different kinds of honey, derived from different
kinds of bees, which, however, Réaumur does not, from
this circumstance, seem to have known. Had he been
acquainted with it, his philosophical accuracy of observation
and habit of reflection would certainly have assumed
the possibility of differences of size in the cells of the different
bees, and he would have waited until opportunity
had given him the power of determining whether this
mode of admeasurement could be safely adopted as certainly
being of universal prevalence. It is to be wondered
at also, that he did not weigh the possibility that
climatic differences in the distribution of even the <i>Apis</i>
.pn +1
.bn 095.png
<i>mellifica</i> might have involved discrepancies, by the effects
constantly seen to be produced by climate, and which
would have shown that the standard which he sought to
establish could not be relied on.

Collections exhibit about sixteen species of the genus
<i>Apis</i>, whose natural occurrence is restricted to the Old
World, for although the genus, especially in the species
<i>A. mellifica</i>, has been naturalized in America, and also
in Australasia, and in some of the Islands of the Pacific,
these were originally conveyed thither by Europeans.
Those countries possess representatives of the genus
with analogous attributes and functions, in two other
genera, which fulfil the same uses. It is remarkable
that the Red Indians used to note the gradual absorption
of their territory by the White Man, through the
forward advance of his herald <i>Apis mellifica</i>. This
species has also been carried to India, to the Isle of
Timor, and to northern, western, and southern Africa, in
all which countries it is thoroughly naturalized, although
they all possess indigenous species, which are quite as,
or perhaps more largely, tributary to their inhabitants.
Observation has not hitherto confirmed the identity of the
manners of these exotic species with our own, owing to the
deficiency of observers with the enthusiasm requisite to
follow their peculiarities with the patience of a Réaumur,
a Bonnet, or a Huber. That they are quite or all but
similar, exclusively of differences of size, both in their
habits and their nests, may be inferred from their identity
of structure. We know that they consist of three
kinds of individuals—neuters, females, and males,—and
that their combs are made in cakes built vertically,
formed of hexagonal contiguous cells, which are placed
bottom to bottom, and overlap each other in the same
.pn +1
.bn 096.png
strengthening position as do ours; and also that the
cells wherein the males are developed are oval, larger
than the honey-cells, and less uniform. With all these
similitudes it is fair to suppose that their economy may
be the same; but their honey-cells, from their smaller
size, (the bee which produces them being smaller,) have
a more elegant appearance; and it is concluded from the
largeness of the nest, taken conjunctively with the smallness
of the cells, and of the bees constructing it, that
the communities thus associated must in their collective
number be considerably larger than those of our hives.

Instinct, as expressed in the habits, is as sure a line
of separation, or means of combination, as structure,
and is corroborative in tending to preserve generic conjunction
in its inviolability. And, conversely, with
certainty, is indicated that such-and-such a form, in the
broad and most distinguishing features of its economy,
is essentially the same in every climate. The habits,
therefore, in whatever country the genus may occur,
may be as surely affirmed of the species, from the knowledge
we have of those at home, as if observation had
industriously tracked them. This is especially the case
in a genus, the species of which present such a peculiar
identity of <i>structure</i> as does <i>Apis</i>, whose specific differences
are derived only from colour and size, and this
identity is a peculiarity, so far as I have observed, rarely
found in other genera, numbering even no more species,
but wherein slight differences of structure often yield a
subsidiary specific character, complete structural identity
being almost solely incidental to the genus <i>Apis</i>.

The importance of honey and wax throughout the
world, as well for the ceremonies of religion, as for the
service of the arts, and for medical or domestic purposes,
.pn +1
.bn 097.png
is attested by the vigilance, care, and assiduity
with which bees are tended in every country. Although
sugar, since its introduction to those northern countries
which have not been favoured by nature with the cane
that yields it, has superseded for ordinary uses the produce
of the hive, this still continues serviceable for many
purposes to which sugar cannot be applied. It is used
in many ways in pharmacy, and still retains in the interior
of some continents, owing to the deficiency of
sugar, arising from the difficulties and expenses of transit,
all its primitive uses. In the East, even in countries producing
sugar in abundance, honey is extensively employed
for the preservation of fruits, which in their ripe state in
those hot climates would rapidly lose their fulness of
flavour were they not thus protected,—honey here
being esteemed superior to sugar in the circumstance of
its not crystallizing by reason of the heat, and also from
its applicability to this use in its natural state.

This is especially the case in China, where a conserve
of green ginger, and of a fragrant orange (the <i>Cum Quat</i>),
are in high repute, and which are peculiarly grateful to
Europeans on the spot. These, however, are so delicately
susceptible of change of climate, that they lose some of
the aroma that constitutes much of their attraction,
upon transportation, and, indeed, like many kinds of
Southern wines, can be appreciated only within their
own country, from their extreme delicacy and tendency
to spoil.

Honey is a very favourite food and medicine with the
Bedouins in Northern Arabia. Bees make their hives
in all the crevices of rocks in Hedscha, finding everywhere
aromatic plants and flowers. At Taif, bees yield
most excellent honey, and the honey at Mecca is exquisite.
.pn +1
.bn 098.png
At Veit-el-Fakeh, wax from the mountainous
country of Yemen is exchanged for European goods and
for spices from the further Indies. In Syria and Palestine
we find bees abound. At Ladakiah there are large
exports both of honey and wax; and the honey of Ainnete,
on the declivities of the Lebanon, is considered the
finest of the whole of that mountain-range. Antonine
the Martyr, in the seventh century, speaks of the honey
of Nazareth being most excellent, and in the present
day bees are extensively cultivated at Bethlehem, for the
sake of the profit derived from the wax tapers supplied
to the pilgrims. Some of the members of the German
colony at Wadi Urtas speak of the purchase of eleven
beehives at this place, and express themselves as very
sanguine of an abundant harvest from the luxuriance and
profusion of flowers, although they say the bees are
smaller than those of Westphalia, and are of a yellowish-brown
colour. The eastern side of this peninsula, especially
the district of Oman, is wholly destitute of bees,
contrasting thus unfavourably with its western fertility.

The enormous quantities of honey produced may be
comparatively estimated by the collateral production of
beeswax, which it exceeds by at least ten to one. When
we reflect upon what masses of the latter are consumed
in the rites of the Roman Catholic and Greek churches
throughout the many and large countries where those
religions prevail, we shall be able to form a general estimate
of the extensiveness and universality of the cultivation
of bees. Nor are those the only uses to which wax is
applied, and the collective computation of its consumption
will show that bees abound in numbers almost
transcending belief.

The name of <i>bougie</i> for wax-candle or taper, is used
.pn +1
.bn 099.png
by all the languages of the south of Europe, and is derived
from the name of Bugia, a town of Northern
Africa, whence, even as long back as the time of the
Roman Empire, wax was obtained to make candles for
lighting. The inhabitants of Trebizonde paid their tribute
to the Roman Empire in wax. Both honey and
wax are largely employed in pharmacy, and were also, in
ancient times, both extensively used in embalming.
The honey of Mount Hymetta in Attica, and of Hybla
in Sicily, were each in as high repute in classical countries
as is that of Narbonne in Languedoc, by reason of
its choice delicacy, with us, and throughout France.
Distributed over the wide pastures of the Ukraine, every
peasant has his store of hives, which frequently, in their
harvests, realize more largely than their crops of grain,—multitudes
of that peasantry computing as important
items in the estimate of their wealth the number of
their beehives, which often exceed five hundred to the
individual possessor. In Spain and Italy bees are largely
cultivated; and in the former country many a poor
parish priest, the religious monitor of an obscure hamlet,
can count his five thousand.

In countries so rich in the productions of Flora, whose
seasons there are perennial, and which fluctuate only in
special locality, bees are removed to and fro to meet
these peculiarities. Thus in the south of France, where
large tracts are cultivated with aromatic shrubs and
flowers, for the distillation of essential oils and fragrant
waters, the hives of bees are moved up and down the
adjacent rivers upon rafts, as the flowering of the crops
succeed each other. In Italy, Spain, and Southern
Russia, the same practices are pursued, although we have
no detailed accounts of the precise spots; but we know
.pn +1
.bn 100.png
from Niebuhr, Savigny, and Sir Gardiner Wilkinson, that
upon the Nile it is customary thus to transport the bees
from flower-region to flower-region upon rafts containing
about four thousand hives, each numbered by the proprietors
of the hives for identification, who thus double
the seasons by continually shifting their bees from Lower
Egypt to the Upper Nile and back again.

In ancient Greece also, they were conveyed for this
purpose from Achaia to Attica; in the former of these
provinces, owing to its higher temperature, flowers
had passed their bloom before spring had opened in the
latter. All these circumstances tend to show that the
experience of bee-masters, both ancient and modern, has
ascertained that their insects have not a very extensive
range of flight.

Of the fact that the honey of bees is not always
salutary to man, there is a remarkable instance recorded
in Xenophon, in his narrative of the retreat of “The Ten
Thousand,” who reports that upon falling in with quantities
of it, in Asia Minor, those who indulged in its
enjoyment were seized with vertigo, or headache, and
violent diarrhœa, attended with sickness, but which had
no fatal consequences, although they did not recover
from its injurious effects for a couple of days, and were
left then in a very prostrated condition. The celebrated
physician and botanist Tournefort, when travelling in
the East, towards the end of the seventeenth century,
found, in the neighbourhood of Trebizonde, an excessive
luxuriance of the flowers of the <i>Rhododendron ponticum</i>
and of the <i>Azalea pontica</i>, which, although sumptuous
in their blossoms, were held in bad repute by the inhabitants,
who ascribed to their odour the deleterious
effect of causing headache and vertigo. He was thence
.pn +1
.bn 101.png
induced to surmise that these had possibly been the
flowers the bees had extracted the honey from which
had been so baneful to the troops of Xenophon.

But it seems that bees themselves cannot collect with
impunity the honey of noxious flowers, for they are occasionally
subject to a disease resembling vertigo, from
which they do not recover, and which is attributed to
the poisonous nature of the flowers they have been recently
visiting.

Several different kinds of honey and wax have been
described, but some degree of uncertainty exists as to
whether they are all the produce of genuine species of the
genus <i>Apis</i>; for it will be found, in a rapid notice I purpose
giving of the more conspicuous genera of foreign
bees, that there are two exotic genera of this section of
the family, both social in their habits, and which both produce
the same materials; there is a wasp also that makes
honey. But of all the many kinds of honey noticed, the
green kind furnished to Western India by the island of
Réunion, the produce of an <i>Apis</i> indigenous to Madagascar,
but which has been naturalized in the French island,
and also in the Mauritius, is perhaps the most remarkable.
It is of a thick syrupy consistency, and has a peculiar
aroma. It is much esteemed upon the most proximate
coasts of the peninsula of India, where it bears a high
price. Whether its greenness of colour is derived from
the flowers which this species frequents, or whether it be
incidental to the nature of the bee, has not been ascertained,
but the honey of the South American wasp, the
sole species producing the material, has also a green tinge.

Nature has assigned the task of thus catering for
man, by collecting and garnering from the recondite
crypts within the blossoms of flowers, to about sixteen
.pn +1
.bn 102.png
species congenerical with our honey-bee, but sufficiently
differing. As I have before noticed, the species of this
genus greatly more resemble each other in structure
than perhaps do the species collocated within any other
genus of insects, and whence may be inferred an exact
similitude of habits, although as yet unconfirmed by
direct observation.

The second European species, the <i>Apis Ligustica</i>, or
Ligurian bee, is rather larger, but very like ours, and
inhabits the whole of the north of Italy, its occupation
of that country extending from Genoa to the vicinity of
Trieste; its progress further north being impeded by the
Alps of Switzerland and the Tyrol. It is also found in
Naples, and may likewise spread to the Morea, Turkey,
and the Archipelago of Greece, and is perhaps the bee
noticed by Virgil. Either this species, or possibly one
distinct from ours, is that which is so extensively cultivated
in Spain, although ours is found in Barbary.

Another smaller kind, the <i>Apis fasciata</i>, has been
cultivated in Egypt from time immemorial, and which
yielded its abundant harvests for the gratification of the
ancient Romans. Only five other distinct species, so far
as is yet known to us, appear to occupy the vast continent
of Africa,—two on its western coast at Senegal and
Congo, the <i>A. Adansonii</i> and the <i>A. Nigritarium</i>; two
in Caffraria, the <i>A. scutellata</i> and the <i>Apis Caffra</i>. That
at Madagascar, and doubtless on the adjacent mainland,
which has also been naturalized in the Mauritius and at
Réunion, is the <i>Apis unicolor</i>, which produces the green
honey mentioned above.

India, however, at present appears to be the true metropolis
of the genus. Further discoveries in Africa may hereafter
give that vastly larger continent the predominancy;
.pn +1
.bn 103.png
but there is no doubt that, so far as present information
extends, India has the superiority. Thus <i>Apis dorsata</i>,
<i>Apis nigripennis</i>, and <i>Apis socialis</i>, are cultivated in
Bengal, the latter being also found along the Malabar
coast and at Java. It is singular that the only instance
of the occurrence of the very distinct genera of <i>Apis</i>
and <i>Mellipona</i>, both honey-storing genera, yet known
to exist indigenously in the same locality, is found in
this island. At Pondicherry and its vicinity are found
<i>Apis Delessertii</i> and <i>Apis Indica</i>. This latter bee is
extensively cultivated, and its hives are perhaps the
most largely inhabited of any of the species; the numbers
occupying a single nest being estimated at above
eighty thousand.

From India also, but to which no special locality is
assigned, come <i>Apis Perrottetii</i>, <i>Apis lobata</i>, as likewise
<i>Apis Peronii</i>, which is equally native to the Isle of
Timor. The honey produced by this last bee is yellow,
more liquid than ours, and of a very agreeable flavour.

Thus science dissipates the popular supposition, that
a multiplicity of the individuals of one species of this
insect produces the tons of wax and the myriads of
gallons of honey that are annually consumed.

Which of these bees first benefited the human race,
in its primitive seat, and before the multiplication of
mankind forced them to take divergent courses from the
cradle of their birthrace, “to people the whole earth,” it
is impossible to say. And it is equally impossible to conjecture
whether, like man, they by this course of migration
have assumed the features they now exhibit of distinctly
different species; yet they do not vary so considerably
among themselves as do many other creatures that
have come under the direct influence of man,—the chief
.pn +1
.bn 104.png
differences consisting in the comparatively slight distinctions
of colour and of size, but which are sufficiently
marked to constitute them good species.

The earliest manuscript extant, which is the Medical
papyrus, now in the Royal Collection at Berlin, and of
which Brugsch[#] has given a facsimile and a translation,
dates from the nineteenth or twentieth Egyptian
dynasty, accordingly from the reign of Ramses II., and
thus goes back to the fourteenth century before our
era. But a portion of this papyrus indicates a much
higher antiquity, extending as far back as the period of
the sovereigns who built the Pyramids, consequently to
the very earliest period of the history of the world.
.pm fn-start
‘Recueil de Monuments Égyptiens dessinés sur les lieux.’ In
Three Parts. 4to. Leipzig, 1862.
.pm fn-end

It was one of the medical treatises contained within the
Temple of Ptah, at Memphis, and which the Egyptian
physicians were required to use in the practice of their
profession, and if they neglected such use, they became
responsible for the death of such patients who succumbed
under their treatment, it being attributed to their contravening
the sacred prescriptions. This pharmacopœia
enumerates amongst its many ingredients, honey, wine,
and milk; we have thus extremely early positive evidence
of the cultivation of bees. That they had been
domesticated for use in those remote times, is further
shown by the fact mentioned by Sir Gardiner Wilkinson
of a hive being represented upon an ancient tomb at
Thebes.

It may have been in consequence of some traditional
knowledge of the ancient medical practice of the Egyptians,
that Mahomet, in his Koran, prescribes honey
as a medicine. One of the Suras, or chapters, of that
.pn +1
.bn 105.png
work, is entitled ‘The Bee,’ and in which Mahomet
says:—“The Lord spake by inspiration unto the Bee,
saying, ‘Provide thee houses in the mountains and in
the trees [clearly signifying the cavities in rocks and
hollows of trees, wherein the bees construct their combs],
and of those materials wherewith men build hives for
thee; then eat of every kind of fruit, and walk in the
beaten paths of thy Lord.’ There proceedeth from their
bellies a liquor of various colours, wherein is a medicine
for men. Verily herein is a sign unto people who consider.”

It is remarkable that the bee is the only creature that
Mahomet assumes the Almighty to have directly addressed.
Al-Beidawi, the Arabic commentator upon the
Koran, whose authority ranks very high, in notes upon
passages of the preceding extract, says, “The houses
alluded to are the combs, whose beautiful workmanship
and admirable contrivance no geometrician can excel.”
The “beaten paths of thy Lord,” he says, “are the ways
through which, by God’s power, the bitter flowers,
passing the bee’s stomach, become honey; or, the
methods of making honey he has taught her by instinct;
or else the ready way home from the distant places to
which that insect flies.” The liquor proceeding from
their bellies, Al-Beidawi says, “is the honey, the colour
of which is very different, occasioned by the different
plants on which the bees feed; some being white, some
yellow, some red, and some black.” He appends a
note to where Mahomet says, “therein is a medicine
for man,” which contains a curious anecdote. The note
says, “The same being not only good food, but a useful
remedy in several distempers. There is a story that a
man once came to Mahomet, and told him his brother
.pn +1
.bn 106.png
was afflicted with a violent pain in his belly; upon
which the Prophet bade him give him some honey. The
fellow took his advice; but soon after, coming again,
told him that the medicine had done his brother no
manner of service. Mahomet answered: ‘<i>Go and
give him more honey</i>, for God speaks truth, and thy
brother’s belly lies.’ And the dose being repeated, the
man, by God’s mercy, was immediately cured.”

That the primitive Egyptians were familiar with the
peculiar economy of the bee in its monarchical institution
is proved by the figure of the bee being adopted
as the symbolical character expressive of the idea of
a people governed by a sovereign. This figure is frequently
met with upon Egyptian sculptures and tablets,
dating as far back as the twelfth dynasty; but upon
these the bee is very rudely represented, being figured
with only four legs and two wings; but upon a tablet
of the twentieth dynasty the bee is correctly represented
with four wings and six legs.

All these facts take us far back in the history of the
bee. But the indication of a higher antiquity of its
domestication may be traced in the Sanskrit, wherein
<i>ma</i> signifies honey, <i>madhupa</i>, honey-drinker, and <i>madhukara</i>,
honey-maker, the root of the latter signifying
“to build.” <i>Madhu</i> has clearly the signification of
our <i>mead</i>, thence we may thus trace an affinity, pointing
to those early times, for the origin of a drink still in
use amongst us. In Chinese <i>mih</i>, or <i>mat</i> (in different
dialects) signifies honey, thus clearly showing a second
derivation, in this Turonian term, from a more primitive
language whence both flowed. In the Shemitic branch
nothing analogous is to be traced. But this double
convergence to a more distant point veiled in the obscurity
.pn +1
.bn 107.png
of time, necessarily takes the domestication of the
bee back also to that anterior period now only dimly
traceable.

There can be but little doubt that the majority of the
creatures now domesticated by man were in those ancient
days subjected to his sway, and to which later times
have not added any, or but few fresh ones. A natural
instinct possibly prompted him originally in the selection;
and if the reindeer of the Laplander seem an aberration,
this has happened through the contingency of
climate, for in the high latitudes it inhabits, it, in its
uses to man, supplies the double function performed in
more southern regions by the equine and bovine tribes.

In the Greek and in the Teutonic languages, two
branches of the Aryan stem, the names of the bee,
<i>melissa</i> and <i>biene</i>, are clearly derived from the constructive
faculty of the insect, and to which the root
of the Sanskrit word <i>madhukara</i>, above noticed, also
points. It would seem, therefore, that an earlier notice
of its skill than of its honey, had suggested its name.
Thus everything points to a very early acquaintance
with the bee, its economy, and its properties, and this
familiarity might be easily traced down in regular succession
to the present times, were it desirable to recapitulate
what has been so often repeated in the history of
the “Honey-bee.” The facts I have gathered together
above, do not seem to have been hitherto strung together,
and may be suggestive of reflection, as well as
affording some amusement.

.hr 10%
.pn +1
.bn 108.png

The study of the geographical distribution of natural
objects has a more universal bearing, and yields collectively
more definite instruction and information than its
partial treatment, when restricted to small groups, may
at first seem to promise. This, however, is very useful,
for it is but by the combination of such special details
that the enlarged views are to be obtained, from which
theories of the general laws of distribution can be deduced.
Of course, small creatures with locomotive capacities
will not supply the positive conclusions that may
be framed from such objects as are fixed to their abode,
and have not the same power of diffusion, although they
certainly appear to be generally restrained within particular
limits by physical conditions of the earth’s surface
subservient to the maintenance of special forms of organic
life; and these, once determined, would yield and derive
reciprocal illustration. They may be merely climatic,
but climate thus indicated cannot be estimated
by zones, or belts, or regions; for they seem to traverse
all these, and follow undulations not specially appreciable
except in the results they exhibit.

Unfortunately the bees have been too imperfectly collected,
and too irregularly registered, to admit of arriving
at any precise conclusions with respect to them. All
that can as yet be done will be to combine the scanty
notices afforded by the contents of our collections, in
the hope that their promulgation may induce collectors,
who happen to have the often extremely rare opportunity
of examining distant countries, to avail themselves of
.pn +1
.bn 109.png
the happy chance, which may never recur, or only at
long intervals.

Nor can I too impressively reiterate the importance
of noting both special localities, altitude, temperature,
season, flora, etc., as being all conducive to the widest instruction
upon the subject. Indulging in the hope that
travellers will act upon these suggestions, and thus considerably
add to the value of what they may industriously
collect, we must patiently await until time brings it
about.

Encouraging this expectation, I have summarily collected,
under their topical arrangement, the notices
which precede, but which are there arranged in the
generic order of the bees.

From the information we thus possess, we learn that
some of our genera have an extremely wide diffusion,
and occur in countries where we might have expected
that other forms would have superseded them in the
offices they are ordained to fulfil. None of the schemes
for the geographical distribution of insects yet propounded,
seem to curb the eccentricities of their range.
The regions proposed by Fabricius in his ‘Philosophia
Entomologica,’ they break through as readily as through
the concentric circles of the cobweb when this opposes
them: and all I can do is to present them as they offer
themselves, with the remark that the occurrence of solitary
forms in certain localities are almost sure indications
that allied genera would be found at hand were
they heedfully sought. It will also be observed, that in
some places a parasitical genus, and its known sitos,
only, have been captured there.

The following list will strongly show how totally our
genera of bees are unaffected by isothermal, isotheral,
.pn +1
.bn 110.png
or isocheimal lines drawn over the earth’s surface. Nor
do botanical conditions seem to influence them beyond,
the probability of their dissemination being restricted to
the special diffusion of the families of such plants whose
genera and species they frequent with us.
.sp 2
Thus, inhabiting Northern Europe we find in—

.in 6
.ti -4
<i>Lapland.</i> Cilissa; Anthophora; Epeolus; Megachile;
Chelostoma; Heriades; Osmia; Apathus; Bombus;
Apis.
.ti -4
<i>Finland.</i> Colletes; Prosopis; Cilissa; Anthophora; Nomada;
Epeolus; Stelis; Cœlioxys; Megachile; Anthidium;
Chelostoma; Heriades; Osmia; Apathus;
Bombus; Apis.
.ti -4
<i>Sweden.</i> All our genera except Sphecodes; Halictus;
Macropis; Anthocopa.
.ti -4
<i>Denmark.</i> All our genera except Macropis and Anthocopa.
.ti -4
<i>Russia.</i> All our genera except Macropis and Anthocopa.
.ti -4
<i>The other Northern European Countries.</i> All our genera,
with the same exceptions.
.sp 2
Western, Southern, and Eastern Europe present us with, in—
.sp 2
.ti -4
<i>France.</i> All our genera.
.ti -4
<i>Portugal.</i> Prosopis; Sphecodes; Andrena; Halictus;
Eucera; Nomada; Anthidium; Apathus; Bombus;
Apis.
.ti -4
<i>Spain.</i> Prosopis; Sphecodes; Andrena; Halictus;
Dasypoda; Eucera; Anthophora; Nomada; Megachile;
Anthidium; Apathus; Bombus; Apis.
.ti -4
<i>Italy.</i> Andrena; Halictus; Panurgus; Eucera; Anthophora;
Nomada; Melecta; Epeolus; Cœlioxys;
Megachile; Anthidium; Osmia; Apathus; Bombus;
Apis.
.pn +1
.bn 111.png
.ti -4
<i>Sicily.</i> Prosopis; Sphecodes; Eucera; Anthophora;
Melecta; Epeolus; Megachile; Anthidium; Osmia;
Apathus; Bombus; Apis.
.ti -4
<i>Malta.</i> Halictus; Apis.
.ti -4
<i>Isles of Greece.</i> Dasypoda; Apis.
.ti -4
<i>The Morea.</i> Prosopis; Sphecodes; Halictus; Dasypoda;
Eucera; Anthophora; Ceratina; Nomada;
Melecta; Anthidium; Chelostoma; Osmia; Bombus;
Apis.
.ti -4
<i>Albania.</i> Prosopis; Sphecodes; Dasypoda; Eucera;
Ceratina; Nomada; Melecta; Megachile; Anthidium;
Osmia; Bombus; Apis.
.ti -4
<i>Dalmatia.</i> Halictus; Eucera; Anthophora; Megachile;
Anthidium; Apis.
.sp 2
Asia exhibits to us, in—

.ti -4
<i>Siberia.</i> Andrena; Nomada; Epeolus; Bombus; Apis.
.ti -4
<i>Kamchatka.</i> Bombus.
.ti -4
<i>China.</i> Halictus; Nomada; Anthophora; Megachile;
Bombus; Apis.
.ti -4
<i>Northern India.</i> Prosopis; Sphecodes; Andrena; Halictus;
Ceratina; Nomada; Cœlioxys; Megachile;
Bombus; Apis.
.ti -4
<i>Bengal.</i> Anthophora; Ceratina; Apis.
.ti -4
<i>Tranquebar.</i> Nomada; Apis.
.ti -4
<i>Ceylon.</i> Anthophora; Ceratina; Apis.
.ti -4
<i>Bombay.</i> Anthophora; Megachile; Apis.
.ti -4
<i>Arabia Felix.</i> Anthophora; Anthidium; Apis.
<sc>Note.</sc>—The genus <i>Apis</i> does not occur in <i>Oman</i>.
.ti -4
<i>Mesopotamia.</i> Eucera; Nomada; Melecta; Megachile;
Anthidium.
.ti -4
<i>Syria.</i> Halictus; Eucera; Anthophora; Cœlioxys; Anthidium;
Bombus; Apis.
.pn +1
.bn 112.png
.sp 2
In Africa we find, in—

.ti -4
<i>Egypt.</i> Colletes; Sphecodes; Andrena; Dasypoda;
Eucera; Anthophora; Saropoda; Cœlioxys; Anthidium;
Osmia; Apis.
.ti -4
<i>Nubia.</i> Anthidium; Anthophora; Apis.
.ti -4
<i>Abyssinia.</i> Megachile; Apis.
.ti -4
<i>Tunis.</i> Dasypoda; Nomada; Apis.
.ti -4
<i>Algeria.</i> Colletes; Prosopis; Sphecodes; Andrena;
Panurgus; Eucera; Anthophora; Ceratina; Nomada;
Cœlioxys; Megachile; Anthidium; Osmia;
Bombus; Apis.
.ti -4
<i>Barbary.</i> Halictus; Nomada; Anthidium; Osmia;
Apis.
.ti -4
<i>Madeira.</i> Halictus; Apis.
.ti -4
<i>Canaries.</i> Colletes; Sphecodes; Andrena; Halictus;
Anthophora; Melecta; Osmia; Apis.
.ti -4
<i>Senegal.</i> Halictus; Anthophora; Ceratina; Megachile;
Apis.
.ti -4
<i>Gambia.</i> Cœlioxys; Megachile; Anthidium; Apis.
.ti -4
<i>Sierra Leone.</i> Halictus; Cœlioxys; Megachile; Anthidium;
Apis.
.ti -4
<i>Coast of Guinea.</i> Anthophora; Cœlioxys; Megachile;
Anthidium; Apis.
.ti -4
<i>Fernando Po.</i> Megachile.
.ti -4
<i>Western Africa.</i> Halictus; Apis.
.ti -4
<i>Cape of Good Hope.</i> Halictus; Anthophora; Ceratina;
Epeolus; Cœlioxys; Megachile; Anthidium; Apis.
.ti -4
<i>South Africa</i> [no distinct locality]. Halictus; Saropoda;
Apis.
.ti -4
<i>Natal.</i> Anthophora; Cœlioxys; Megachile; Anthidium;
Osmia; Apis.
.ti -4
<i>Madagascar.</i> Apis.
.ti -4
<i>Réunion.</i> Halictus; Apis.
.pn +1
.bn 113.png
.ti -4
<i>Mauritius.</i> Megachile; Apis.
.sp 2
In America we find, in—

.ti -4
<i>Arctic America and Hudson’s Bay.</i> Prosopis; Andrena;
Halictus; Megachile; Osmia; Bombus.
.ti -4
<i>Canada and Nova Scotia.</i> Andrena; Halictus; Nomada;
Cœlioxys; Megachile; Osmia; Bombus.
.ti -4
<i>United States.</i> Colletes; Sphecodes; Andrena; Cilissa;
Halictus; Eucera; Anthophora; Ceratina; Epeolus;
Stelis; Cœlioxys; Anthidium; Chelostoma; Heriades;
Osmia; Apathus; Bombus.
.ti -4
<i>Mexico.</i> Anthophora; Epeolus; Megachile; Anthidium;
Bombus.
.ti -4
<i>California.</i> Bombus.
.ti -4
<i>Columbia.</i> Colletes; Bombus.
.ti -4
<i>Quito.</i> Bombus.
.ti -4
<i>Chili.</i> Sphecodes; Halictus; Anthophora; Melecta;
Epeolus; Anthidium; Bombus.
.ti -4
<i>Jamaica.</i> Halictus.
.ti -4
<i>Cuba.</i> Anthophora; Cœlioxys; Megachile.
.ti -4
<i>St. Domingo.</i> Anthophora.
.ti -4
<i>Antigua.</i> Bombus.
.ti -4
<i>Guadeloupe.</i> Anthophora.
.ti -4
<i>St. Thomas’s.</i> Cœlioxys; Megachile.
.ti -4
<i>St. Croix.</i> Megachile.
.ti -4
<i>Cayenne.</i> Halictus; Eucera; Ceratina; Cœlioxys; Anthidium;
Bombus.
.ti -4
<i>Pará.</i> Anthophora; Cœlioxys; Bombus.
.ti -4
<i>Brazils.</i> Prosopis; Halictus; Ceratina; Epeolus; Stelis;
Cœlioxys; Megachile; Anthidium; Apathus; Bombus.
.ti -4
<i>Paraguay.</i> Anthophora.
.ti -4
<i>Monte Video.</i> Bombus.
.pn +1
.bn 114.png
.sp 2
In Polynesia there occur—

.ti -4
<i>Sandwich Islands.</i> Prosopis.
.ti -4
<i>Philippines.</i> Anthophora; Nomada; Megachile.
.sp 2
In Australia are found—

.ti -4
<i>Swan River.</i> Prosopis; Megachile.
.ti -4
<i>Adelaide.</i> Prosopis; Megachile.
.ti -4
<i>Port Phillip.</i> Prosopis.
.ti -4
<i>Tasmania.</i> Prosopis; Megachile.
.ti -4
<i>Sydney.</i> Sphecodes; Halictus.
.ti -4
<i>New Zealand.</i> Halictus.
.ti -4
<i>Australia</i> [but no distinct locality]. Anthophora; Saropoda.
.in 0
.pn +1
.bn 115.png
.pb
.sp 4
.h2
CHAPTER IV || <sc>NOTICE OF THE MORE CONSPICUOUS FOREIGN\
GENERA OF BEES.</sc>
.sp 2
.ni
<sc>Seeing</sc> thus the wide and almost universal distribution
of many of our own genera, we might be induced to ask
whether this could not suffice, by the impetus which more
genial climates give to the multiplication of individuals,
to meet all the exigencies of the most favoured regions of
the vegetable kingdom. This is not so. There seems
scarcely a limit to the exuberance wherein nature revels
in the production of variations of form. The splendour,
elegance, and infinite variety which she displays in her
floral beauties in the most luxuriant climates, find rivalry
as well in the multitude as in the magnificence of the
insects which she has allied with them as the indispensable
promoters of their perpetuation. How otherwise
than through some of the insects we shall mention
could tropical <i>Labiatæ</i> and the tubulated flowers of the
<i>Rubiaceæ</i>, etc. be fertilized? The reader will therefore,
I trust, welcome an acquaintance with some of the most
conspicuous of the group of bees produced by tropical
countries, although the main object of this treatise is to
exhibit the attractions of “our native bees.”
.pi
I will but superficially and rapidly glance at the
.pn +1
.bn 116.png
more distinguished exotic genera and species, as supplementary
to the preceding notice of the geographical
range of those which are indigenous with us.

How our own species reached us is a subject which
has at present eluded all satisfactory determination.
For its solution we must await the further discoveries of
geology; at present we can only attribute their advent
here to the same causes which are common to the production
of all our groups of both the animal and the vegetable
kingdoms.

Knowing how affluent tropical and sub-tropical countries
are in the variety, size, and number of the forms, as well
as in the splendour of their plants and vertebrated
animals, we may fairly expect as gorgeous a richness in
the insects they produce. Nor shall we be disappointed,
for the imperial magnificence of their <i>Lepidoptera</i> and
<i>Coleoptera</i> guarantees an equivalent brilliancy in the
other orders of insects, and which is fully confirmed by
the harmonious splendour of their bees.

They thus put forward claims to attention and must
excite curiosity by their beauty and size, which the comparative
smallness of our own, and the usual dulness of
their colours do not possess. The latter only repay notice
upon close investigation, but they then as amply reward
all labour bestowed upon them by the mental recreation
they yield, as their more gaudy exotic rivals. The former
present themselves obtrusively and exact notice, whereas
ours meekly solicit it by their humble but solid allurements.
Here, as well as there, we behold the works of
a mighty hand and of an immeasurable intelligence.

The bees throughout the world, as known collectively
to the richest cabinets, number about two thousand
species. This host, in itself numerically so large, solicits
.pn +1
.bn 117.png
attention, for it is opposed to the economy of nature
that there should exist any without functions of essential
usefulness, making them important elements in her harmonious
order and necessary to her due course, irrespective
of the instruction to be derived from the study
of the manifold varieties of structure, which unquestionably
point to distinguishing peculiarities of habits.

In the true bees the division of the <i>Dasygasters</i> presents
the fewest differing generic forms: the <i>Nudipedes</i> and
<i>Scopulipedes</i> exhibit more numerous varieties, the preponderance
being in favour of the pollen-collecting bees
(the latter), although the cuckoo-bees (the <i>Nudipedes</i>)
are very abundant, and taken <i>en masse</i>, are certainly the
handsomest. If it be absolutely the case that there are
no parasites amongst the <i>Andrenidæ</i>, this subfamily will
add very largely to the exotic pollinigerous majority,
which thereby becomes extensively subservient to the
fruition of the vegetable kingdom.

Those bees which are exclusively inter- or sub-tropical,
seem furnished with larger capacities for fulfilling the
special mission to which the family is appointed. Their
pollinigerous and honey-collecting organs are peculiarly
adapted both to the structure and luxuriance of the
superb vegetation of those regions, and to which they
seem distinctly limited. But that they are not considered
equivalent to the entire demand of the profuse
bloom everywhere abounding, may be concluded from
the tropical range and distribution of many of our
northern forms. Thus, whilst the flora of those climates
is strictly circumscribed in its diffusion, its fauna, distinctly
in the class of insects, and especially in the family
of bees, is very considerably less limited, in extension.

The exotic genera of bees which are peculiarly noticeable,
.pn +1
.bn 118.png
either from splendour, size, or remarkable eccentricities
of structure, are numerous. Tropical and sub-tropical
regions of course abound with them, in individuals,
in species, and in genera; and when we reflect upon
the riches of the flora of those countries, which is perpetuated
mainly by the agency of insects, amongst which,
in fulfilling this indispensable demand, bees, as I have
reiterated, are pre-eminently conspicuous, we shall not
even wonder that their number, although excessive in
the extreme, is considerably aided, in many cases, in
the performance of this task, by peculiarities of structure.
Thus, the splendid Brazilian genus <i>Euglossa</i>, although
not conspicuous for size, is remarkably so for the enormous
development of its posterior tibiæ, which form
very large triangles, compared with the size of the insect,
deeply hollowed for the conveyance of pollen. Its
tongue also, from the length of which the genus derives
its name, is, when extended, more than twice the length
of the body, and with which it is enabled to reach the
nectarium, seated within the depths of the longest tubes
of flowers. Other exotic bees, further to aid them in
collecting pollen, in addition to the dense brushes with
which their posterior legs are variously covered, have
each individual hair of these thick brushes considerably
thickened by hairs given off laterally, and in some cases
these again ramify. Sometimes, in variation, the simple,
single hairs have a spiral curve, which almost equally
enlarges the activity of their operation. This is also the
case with two very hairy-legged genera of our native
bees, proximately allied to each other in the methodical
arrangement, <i>Dasypoda</i> and <i>Panurgus</i>, the hair of whose
posterior legs have this spiral twist. The most hairy-legged
exotic bees are essentially the genera <i>Centris</i> and
.pn +1
.bn 119.png
<i>Xylocopa</i>. Of the habits of the former we know nothing,
but those of the latter we are intimately acquainted
with, through the elaborate descriptions given by Réaumur
and the Rev. L. Guilding, the latter of whom made
his observations upon a species found in the island of St.
Vincent’s, in the West Indies. This last genus exhibits
in some of its species the giants among the bees, and one
is especially so, a native of India, the <i>Xylocopa latipes</i>,
which is an inch and a quarter long, and more than three
inches in the expansion of its black, acute wings; and it is
also noticeable from the anterior tarsus in the male being
greatly dilated and white, the bee itself being intensely
black, and which in this same sex has enormous eyes
united at the vertex, as in the male <i>Apis</i>, or drone. In
this genus, as in many other genera of bees, there is often
a great discrepancy in the appearance of the sexes, they
being so totally dissimilar that no scientific skill has
hitherto been able to discover a clue for uniting together
correctly, by scientific process merely, the sexes of a
species; thence the numbers of the species in such genera
are unduly augmented beyond their natural limits,
from the fact of observation having neglected to associate
the legitimate partners.

In some of our native genera this same difficulty
existed, which, however, is gradually diminishing as the
authentic sexes are slowly discovered.

Exotic bees exhibit also a peculiarity I had occasion to observe before,
in reference to our own bees, amounting perhaps to a law, viz the more
highly-coloured condition of the parasite, for we find all the
parasitical bees of those latitudes, usually gorgeously arrayed in
metallic splendour, as instanced in <i>Aglaë</i>, <i>Mesonychia</i>,
<i>Mesocheira</i>, etc., and <i>Melissoda</i> (my <i>Ischnocera</i>, in
Lardner), is remarkably
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conspicuous for its long and delicately slender
antennæ in the male, each joint of which is nodose at
its extremity.

The widely-distributed <i>Nomia</i> seems to abound chiefly
in India. It, although neither gay nor large, has, in its
males, a distinguishing form of the posterior tibiæ,
which is greatly incrassated or thickened; a peculiarity
of structure found also in some other genera of <i>Hymenoptera</i>,
and in several genera of the <i>Diptera</i>, giving the
insects which have it a remarkable gait.

The singularly anomalous distortion of these posterior
legs is conspicuous also in the genus <i>Ancylosceles</i>, which
is named in allusion to it.

Another remarkable peculiarity is to be observed in
the above genus, <i>Mesocheira</i>, as likewise in the superb
<i>Acanthopus</i>, both of which genera have the spur of the
intermediate leg palmated at the extremity, and the
latter genus is further distinguished by its large size and
splendid development, and by having the fifth joint of
the tarsus of the posterior legs longer than the three preceding
united, and covered with a pollinigerous brush as
dense as that of the elongate first joint of the same limb.

But the foreign genera which will be most interesting
to the reader will, I expect, be those of <i>Trigona</i> and
<i>Mellipona</i>, which, in many peculiarities, seem abortive
<i>Apes</i>. They seem nature’s first endeavour to construct
<i>Apis</i>, for they have an apparently imperfect neuration of
the wing, in which the external submarginal cell is unfinished.
Their only separating distinction from each
other is the difference in their mandibles, which in <i>Mellipona</i>
are broad and edentate, whereas in <i>Trigona</i> they
are also broad but denticulated. In <i>Apis</i> these organs
are merely irregularly enlarged at the extremity, and
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hollowed within, rather like a spoon, which structure
would of course imply a difference of economy.

A further characteristic of these genera, and in which
they participate with <i>Apis</i>, is the deficiency of spurs to
the posterior tibiæ, which separates them from all other
genera of bees, as also from <i>Bombus</i>, which has two, yet
with which, in point of their economy, they more closely
assimilate than with <i>Apis</i>. They are the South American
and Australian indigenous representatives of the
genus <i>Apis</i>, and are found likewise in Java and Sumatra,
and in some of the larger and extreme islands of the
Indian Archipelago, thus also similarly in countries
where marsupial animals occur. Like <i>Apis</i>, they are
social in their habits; but their neuters only are as yet
known, neither males nor females having been described.
They are reputed to be stingless, and to make honey
and wax in enormous quantities. The combs in <i>Mellipona</i>
are attached either to the branches of trees or are
suspended from them, but how they are enveloped for
security is not reported, but sometimes, like <i>Apis</i>, they
construct them within hollow trees and in the cavities
of rocks, as in <i>Trigona</i>, in like manner as <i>Apis</i> does in
its natural state. Their communities are not so large
as those of the hive bee, and the cells of their combs are
less perfectly hexagonal, the wax being expended upon
them in denser quantities, whereas the hive bee is exceedingly
parsimonious in the use of this material, a circumstance
arising possibly from the different and more
difficult mode the latter have of obtaining it. In the
latter it is a secretion; but these exotic genera possibly
collect their wax ready-made by the exudation of plants,
and, thus, having more readily obtained it, they are more
lavish in its use.
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Early travellers and historians describe many kinds
of honey made by these bees, native to the South
American continent, but they report nothing of the
peculiarities of the social economy of these insects, nor
whether they are as closely allied in this respect to <i>Apis</i>,
as they are in the collection of honey and wax.

To enter into further detail relative to them would be
beyond the province of this work, and I have only given
this extremely superficial and brief notice of foreign
genera, to show what multitudes of others of this interesting
family await admiration and study, when some
proficiency has been acquired in the knowledge of our
own.
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CHAPTER V || <sc>PARASITES OF BEES AND THEIR ENEMIES.</sc>
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<sc>Nature</sc> seems to have imposed a restraint upon the
undue increase of all its creatures, by creating, to check
it, others that prey upon them. It thus enlarges the
sphere of its activity by making life accessory to life,
and promoting thereby a more extended enjoyment of
all its pleasures. Other forms are brought into existence,
and other terms given to duration than those which
the laws of life attach to specific organization. No abatement
is thereby made upon the quantity of contemporaneous
vitality, for what subsides in one rises in another,
and the undulation of the waves is perpetual.
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Does the quantity of life, extant upon the earth, vary?
Perhaps mortality ever comes in some shape to prevent
it, when excess threatens to render its energy effete.
Yet under every circumstance the wise arrangements of
Providence suffice, for everything has its enemies or its
parasites, which are also enemies, but frequently in disguise.
For defence there is an implanted instinctive
fear, or abhorrence; and the creature is then left to its
skill, prudence, or strength, either to evade or to mitigate,
to the extent of its capability, the danger of the
attack.
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We find the bees are not at all exempted from this
prevailing condition. They have many enemies and
parasites of remarkably differing organization. They
are attacked by many kinds of birds, among which the
<i>Merops Apiaster</i> (or bee-eater) is conspicuous. All
the swallow tribe prey upon them, as do the shrikes and
some of the soft-billed small birds, and also many small
quadrupeds when they can find the opportunity. Wasps
also attack them, but they do not often get entangled
in spiders’ nets, being generally too strong for the retention
of its meshes, but I have seen a <i>Bombus</i> enveloped
in a tangle of its wonderful filament.

The wild bees’ parasites are of two kinds, personal,
and such which, like the young of cuckoos, live at the
expense of the offspring. The personal parasites are
again of two kinds, for bees are infested with several
kinds of <i>Acari</i>, and once I found a <i>Bombus</i> upon the
ground in Coombe Wood so swarming with the <i>Acarus</i>
that it lay hopelessly helpless until I threw it into a
pool of water, when its <i>attachés</i> were washed away. But
the poor bee seemed so prostrated by their attack, that
even when freed from them it had not energy to fly, and
having landed it I left it to the kindly nursing of nature.

A little yellow hexapod larva sometimes also infests
the wild bees in great numbers, running over and about
them with great activity. I have never followed these to
their development, but they are said to be the larvæ of
<i>Meloe proscarabæus</i>, a conspicuously large coleopterous
insect. The assertion has produced much discussion;
and I believe the larva has been bred to the imago, and
consequently it has been proved that it is the larva of
that insect. But that it should be parasitical upon so
small a creature, and that numbers should infest it for
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their nutriment, is extremely improbable. It is far more
likely that instinct has taught them to be conveyed
elsewhere through the medium of the bee, as they might
also be by attaching themselves to any other volatile
insect, and that upon arriving at a suitable locality they
descend from their temporary hippogriff. We see seeds
thus conveyed by the agency of animals and birds to
suitable places, where they fall and germinate.

Another little hexapod is occasionally found upon
them: this is intensely black, and like the former, very
active: these I never could rear, nor did they ever seem
to enlarge, and they speedily died. I have found them
in profusion also within the flowers of <i>syngenesious</i> or
composite plants, especially of the dandelion in the
spring.

But their most remarkable personal parasites consist
of some very extraordinary insects, so anomalous in
their structure as to have required the construction of
an order for their reception,—the Order <i>Strepsiptera</i>, or
“twisted-winged,” thus named from the twist taken by
their anterior wings or wing-cases. Their natural history
is but imperfectly known, and I believe the males have
not yet been discovered. Their larva lives within the
bee, and feeds on its viscera by absorption, being attached
within by a sort of umbilical cord. It presently
consumes the viscera, and renders the bee abortive, by
destroying its ovaries, for it is usually upon female bees
that it is found. When full fed it forms a case within
which it changes into the pupa and imago, the head of
which case protrudes between the scales of one of the
dorsal segments of the abdomen. How it becomes deposited
within the bee or the bee’s larva remains a mystery,
although many hypotheses have been hazarded to account
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for it, but all are unsatisfactory. The Order consists of three genera
(<i>Stylops</i>, <i>Elenchus</i>, and <i>Halictophagus</i>) found in
England, and other parts of Europe; indeed, the genus <i>Elenchus</i>
has been also discovered in the Mauritius. The Continent possesses the
genus <i>Xenos</i>, of the same order, and parasitical upon a wasp,
neither of which occur with us.

Mr. Kirby, in studying the bees for his invaluable
‘Monographia Apum Angliæ,’ first came across this
extraordinary creature. His description of his discovery
is highly interesting. He says, at page 111 of volume ii.
of the above work, that having observed a protuberance
upon the body of the bee, he was anxious to ascertain
whether it might be an <i>Acarus</i>, and goes on: “What was
my astonishment when, upon attempting to disengage it
with a pin, I drew forth from the body of the bee, a
white fleshy larva, a quarter of an inch long, the head of
which I had mistaken for an <i>Acarus</i>. How this animal
receives its nutriment seems a mystery. Upon examining
the head under a strong magnifier, I could not discover
any mouth or proboscis with which it might perforate
the corneous covering of the abdomen, and so support
itself by suction; on the under side of the head, at its
junction with the body there was a concavity, but I
could observe nothing in this but a uniform unbroken
surface. As the body of the animal is inserted in the
body of the bee, does that part receive its nutriment
from it by absorption? After I had examined one
specimen, I attempted to extract a second, and the
reader may imagine how greatly my astonishment was
increased, when, after I had drawn it out but a little
way, I saw its skin burst, and a head as black as ink,
with large staring eyes, and antennæ consisting of two
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branches, break forth, and move itself briskly from side
to side. It looked like a little imp of darkness just
emerging from the infernal regions. I was impatient to
become better acquainted with so singular a creature.
When it was completely disengaged, and I had secured
it from making its escape, I set myself to examine it as
carefully as possible; and I found, after a careful inquiry,
that I had not only got a nondescript, but also an insect
of a new genus whose very class seemed dubious.”

As everything connected with so strange a creature
is very attractive, I will cite what other observers also
have seen. Mr. Dale, from whom Curtis received <i>Elenchus</i>
to figure in his ‘British Entomology,’ vol. v. pl.
226, says: “These parasites look milk-white on the wing,
with a jet-black body, and are totally unlike anything else.
It flew with an undulating or vacillating motion amongst
the young shoots of a quickset hedge, and I could not
catch it until it settled upon one, when it ran up and
down, its wings in motion, and making a considerable
buzz or hum, as loud as a <i>Sesia</i>; it twisted about its
rather long tail, and turned it up like a <i>Staphylinus</i>. I
put it under a glass and placed it in the sun; it became
quite furious in its confinement, and never ceased running
about for two hours. The elytra or processes were
kept in quick vibration, as well as the wings; it buzzed
against the sides of the glass with its head touching it,
and tumbling about on its back. By putting two bees
(<i>Andrena labialis</i>) under a glass in the sun, two <i>Stylops</i>
were produced: the bees seemed uneasy, and went up
towards them, but evidently with caution, as if to fight;
and moving their antennæ towards them, retreated. I
once thought the bee attempted to seize it; but the
oddest thing was to see the <i>Stylops</i> get on the body of
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the bee and ride about, the latter using every effort to
throw his rider.

“As the <i>Stylops</i> emerges from the body of the bee, the
latter seems to suffer from much irritating excitement.”

Mr. Thwaites writes to me, on the 12th May, thus:
“I had the good fortune to capture a <i>Stylops</i> flying, and
on the Tuesday following saw at least twenty flying
about in the garden, but so high from the ground that I
could capture only about half-a-dozen; since that time
they have become gradually more scarce.

“The little animals are exceedingly graceful in their
flight, taking long sweeps as if carried along by a gentle
breeze, and occasionally hovering at a few inches distance
from the ground. Their expanse of wing and mode of
flight give them a very different appearance to any other
insect on the wing. When captured they are exceedingly
active, running up and down the sides of the bottle in
which they are confined, moving their wings and antennæ
very rapidly. Their term of life seems to be very short,
none of those I have captured living beyond five hours,
and one I extracted from a bee in the afternoon was
dead the next morning.

“All the bees stylopized, both male and female, I
have taken, have manifested it by having underneath the
fourth (invariably) upper segment of the abdomen a protuberance
which is scale-like when the <i>Stylops</i> is in the
larva state; but which is much larger and more rounded
when the <i>Stylops</i> is ready to emerge. A bee gives nourishment
generally to but one <i>Stylops</i>; but I have occasionally
found two, and once three larvæ in one bee.”

The structure of these insects is very remarkable: the
typical genus <i>Stylops</i> is named from its compound eyes,
which consist of a very few (about fifteen) hexagonal
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facets, seated upon a sort of footstalk. The mandibles
are lancet-shaped and very acute, and the head,
by reason of the protuberant eyes, has very much the
shape of a dumb-bell. The antennæ are branched, but
in <i>Halictophagus</i>, they are flabellate. The thorax is
greatly developed; the superior wing is like a rudimentary
wing-case, and is twisted, the inferior wings
are very large, and fold along the abdomen in repose
like a fan; the legs are slender, and the tarsi with four
joints in <i>Stylops</i>, with three in <i>Halictophagus</i>, and with
two in <i>Elenchus</i>; the abdomen is long, very flexible,
and consists of eight segments. The insects themselves
do not exceed a quarter of an inch in length in the
largest, but they are generally very much smaller. The
perfect insect is very short-lived, not surviving many
hours, as just stated. They are usually found in the
months of May and June, and they have been discovered
to infest several species of <i>Andrena</i> and <i>Halictus</i>,
for instance the <i>A. nigro-ænea</i>, upon which Mr.
Kirby first found it; <i>A. labialis</i>, which I have frequently caught
stylopized; <i>A. rufitarsis</i>, <i>fulvicrus</i>, <i>Mouffetella</i>,
<i>tibialis</i>, <i>Collinsonana</i>, <i>varians</i>, <i>picicornis</i>,
<i>nana</i>, <i>parvula</i>, <i>xanthura</i>, <i>convexiuscula</i>,
<i>Afzeliella</i>, <i>Gwynana</i>, etc., and upon <i>Halictus
æratus</i>, etc.

The other mode of parasitism destructive to the bees is
where the parasite deposits its own egg upon the provender
stored by the bee for the sustenance of its own young.
The young of the parasite, either by being more speedily
hatched or more rapacious than the larva of the sitos,
starves the latter by consuming its food. This kind of
parasites consists of several <i>Diptera</i>, but they are mostly
bees which form a distinctive subsection of the family of
true bees (<i>Apidæ</i>), the subsection being called the
<i>Nudipedes</i>
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or naked-legged, from their not having the necessary
apparatus of hair upon the posterior thighs or shanks,
for the conveyance of pollen wherewith to store their
nests. Thus nature, having rendered them unable to
perform this duty to their offspring, has imposed upon
them the necessity of resorting to strangers to support
them, and they are not led to it by idleness or indifference.
These insects consist, with us, of six genera, the species
of which are individually attached to some particular
bee, who thus nurtures their young. They are, as a rule,
gayer insects than those which they infest, and the genus
most abundant in species is <i>Nomada</i>, which attaches
itself chiefly to <i>Andrena</i>, although some of its species,
especially the smaller ones, infest the species of <i>Halictus</i>,
and one frequents <i>Eucera</i>. <i>Melecta</i> appears confined
to <i>Anthophora</i>; <i>Epeolus</i> to <i>Colletes</i>; <i>Stelis</i> perhaps to
<i>Osmia</i>, judging from the great similarity of habit; and
<i>Cœlioxys</i> to the constructive <i>Megachile</i>. None of these
parasites resemble their sitos, but <i>Nomada</i> is exceedingly
different, being in its gay array more like a wasp
than a bee. The only close approach in the appearance
of a parasite to the insect upon which it is parasitical is
in the resemblance between <i>Apathus</i> and <i>Bombus</i>, which
are so alike that they were long continued to be united in
the same genus, until the peculiar characteristic of the
parasitical bees was detected, when they were readily separated.
Although, cuckoo-bees as they are familiarly
called, they could not be associated with the <i>Nudipedes</i>,
because their posterior legs, though not pollen-conveying
organs, are hairy; but the <i>Cenobites</i>, to which section
they belong, have a peculiar and distinguishing structure
of that limb. They are further separated from the <i>Nudipedes</i>
by several frequenting the same nest, thus habitually
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associating with their sitos. Some of the <i>Chrysididæ</i>
are likewise, as I shall have occasion to notice in
the description of the habits of the genera, similarly
parasitical upon some of the species of the family of
bees. The genus <i>Mutilla</i> is also probably entirely parasitical
upon bees, for <i>Mutilla Europæa</i> is a parasite upon
<i>Bombus lapidarius</i>, from whose nests it has been dug in
winter, by my friend the late Mr. Pickering, whose activity
and accurate observation once promised to be very
beneficial to the science, but he, like many others of my
entomological friends, is now no more!
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CHAPTER VI || <sc>GENERAL PRINCIPLES OF SCIENTIFIC ARRANGEMENT.</sc>
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<sc>The</sc> following rapid observations are addressed to those
whom it is the desire that this series of volumes may induce
to take up the study of Nature in a methodical
manner. With this view, the merest summary of the
principles upon which scientific arrangement is based, is
here exhibited. The study requires method as a lodestar
to guide through its intricacies, but it is one which,
pursued simply as a recreation, yields both much amusement
and gratifying instruction. It shows us that when
we unclasp the book of nature, and wherever we may
turn its leaves, every word, the syllables of which we
strive to spell, is pregnant with the fruitfulness of wonderful
wisdom, whose profound expression the human
intellect is too limited thoroughly to comprehend.
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Is there an arrangement that human skill could
mend? Is there an organization that man can fully
solve, or a combination that his mind can wholly compass?
Do we not behold limitless perfection everywhere,
but all so deeply mysterious. So exquisite are
the feelings which the contemplation commands, that
they imbue us deeply with the sense of the high privilege
conferred upon the intellect by its being permitted to
embrace a study, which, even pursued merely as a relaxation,
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inculcates in so serene and pleasing a manner
such profound veneration and reverence.

To acquire the prospect of a possibility to unravel the
exuberant profusion of the natural objects surrounding
us, successive students of nature have endeavoured to
systematize the seeming confusion in which her riches
are spread about. Like has been brought to like, and
gradation made to succeed gradation. Resemblances
have been combined and disparities disjoined, until the
labour of centuries has constructed of all the natural
objects within the ken of man a vast and towering edifice,
whose basis is seated at the lowest substructure of the
earth which research has yet reached, but whose head
ascends high into the empyrean.

All things have been collected, and arranged, and
classed. Method has endeavoured to give them succession
according to an assumed subordination. The
labour of the great minds which framed the large
theories of this vast branch of human knowledge, has
permitted men of lesser powers of combination to abstract
parts for special examination and investigation.

The study of natural science has progressively reached
an extraordinary development, spreading in every direction
its innumerable tentacula; to which the perfection
of the telescope and of the microscope have still further
added by the discovery of new worlds of wonder.

Just as language is systematized and made easier by
grammar methodizing its co-ordinates and their relations,
so natural science arranges its subjects into subdivisions
of which genera and species are the lowest
terms. The higher and more complicated are of many
denominations, which, notwithstanding, have for their
chief purpose the simplification of the survey by assisting
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accurately to determine accurately natural objects individually.
Once the clue of the labyrinth caught, the
seeming intricacy of its involution vanishes; for when a
clear conception of the general scheme is obtained, the
solution of the parts is comparatively easy. The same
principle rules throughout, however variously treated.

The large divisions of nature appear simple and distinct enough
in their great frame, but when we approach their confines, close
investigation discovers analogies and affinities, which, where
the separation seems most apparent, create insuperable
difficulties, and render linear succession, or distinct division,
nearly an impossibility. <i>Here</i> we find parallelism, and
<i>there</i> radiation, and elsewhere a complicated reticulation
without subordination; and this is one of the great problems,
which it is the office of the mature naturalist to endeavour to
solve. The present work has to do, however, with but one small
portion of the whole.

Thus we see that, in order to arrive at a knowledge of
natural objects, a method must be pursued to avoid being
overwhelmed by their multiplicity, whereby confusion
would be produced in the mind which their methodical
investigation tends to dissipate. Their abundance precludes
the possibility of their being all equally well
known, although it is very desirable to have a general, if
even superficial acquaintance with them, that is to say,
in the broad and distinguishing features of their large
groups, for as to an accurate knowledge of all their
species, it would be futile to attempt it. Possessing this
general knowledge, the attention may be turned with
greater advantage in any special direction, and that pursued
to its entire acquisition.

Natural objects have been arranged in <sc>Kingdoms</sc>,
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<sc>Orders</sc>, <sc>Classes</sc>, <sc>Families</sc>, and <sc>Genera</sc>, all deduced
in their successive and collateral groups from characters
exclusively derived from <sc>SPECIES</sc>; therefore to the accurate
knowledge of <i>species</i> all endeavours must be directed,
they comprising within themselves all the rest, although
the characters upon which they themselves depend for
separation from their congeners are the most trivial of
any. Each combination, in its analytical descent, contains
characters of wider compass than those which succeed
it, and consequently embraces in that descent more
species than the successive divisions; just as in the ascent,
or synthetical method, the characters of every successive
group gradually expand. Species being thus the only
real objects in nature from which all knowledge springs,
and in which exclusively all uses lie, other combinations
being perhaps as merely imaginary as are the many
lines which are drawn over the surface of the globes, it
would imply that subdivisions merely lend aid to acquire
more rapidly the details upon which they depend.
We will, therefore, first turn our attention to species.

Both combination and subdivision are intended to
facilitate identification, by aiding us to arrive at this
knowledge of species; for each species represents a distinct
idea, whose correct definition is important to the
progress of accurate science. This alone permits observation
to be attributed to its right object, and when
properly recorded, the information is secured for ever
from error or obscurity. It is not, however, the gift of
every mind to discern accurately even specific differences,
or to form skilfully generic combinations. The very best
favoured by nature,—for it is a natural gift, although
under high cultivation,—have sometimes a bias towards
seeing more than actually exists. Hence varieties are
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often elevated into species, and species thus overwhelmingly
multiplied; and genera are frequently framed upon
vague distinctions.

Species are the basis of all natural science.

A species in zoology is a combination of creatures
which unites the sexes, and these being two, the assumed
existence of neuters in some instances does not
invalidate this, it comprises two individuals having independent
existence, but whose co-existence is indispensable
to perpetuation, but which often, from their
great differences, no single set of scientific characters
will bind together, yet which must exist in some undiscovered
peculiarity, that individuals may be able to distinguish
their legitimate partners. The species, therefore, is
a complete unit in its entirety, although consisting of two
distinct beings, for in the large majority of cases in
zoology these sexes are distinct, although their conjunction
is, in the higher forms of life, indispensable for
their continuance. In some of the lower forms of animal
life they exist in union, and in the vegetable kingdom we
perceive every possible combination and modification of
this conjunction, and in both of these life may be perpetuated
also by simpler processes.

The species may consist of any indefinite number of
individuals, and no law has hitherto been discovered
which regulates the relative proportions of the sexes,
although it is very apparent that some recondite influence
operates to control it. It is also extremely remarkable
to observe how eccentric nature is in some
species, and the extent to which she sometimes carries
the variation of some particular specific type, and to
which some species are singularly prone, and yet how
rigidly in other cases she adheres to the particular specific
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form in the succession of generations, that even
the shadow of a deviation from the typical distinction is
scarcely to be discovered: a reason for this it is hard to
surmise. We may, nevertheless, conclude it to be certain
that true species are ever distinct, and can no more
coalesce, however closely they may approach together,
than can asymptotes.

Specific differences result from many characteristics,—from
colour, clothing, size, and sometimes from peculiarities
of structure; but these last are usually of a
higher order, tending to indicate an aberration, slight
though it be, from the normal generic character which
holds the group together, thus implying a distinctive
economy. This is sometimes called a subgeneric attribute,
and there might be a reason, certainly, for not
elevating such species to the full rank of genera, were
genera equivalents, which they are not, and it merely
remains an evasive admission of the doubt that attaches,
except for the sake of convenience, to any subdivision,
but the specific.

The species is thus the very last term of subdivision,
the very elemental principle itself, which unites together
as one, solely for the purposes of perpetuation, the
two sexes of similar individuals, and without whose intercourse
the kind or species would die out.

That some species greatly abound in individuals, as
before observed, whilst others appear to be extremely
limited, is an absolute fact, and not merely suggested
by a defective observation of their occurrence, resulting
from their rapid dispersion. It is verified by being
noticed to occur where we know they would resort, as is
exemplified in the case of some of the parasitical species
of the insects herein treated of, and which are sometimes
.pn +1
.bn 138.png
rare, even in the vicinity of the metropolis of their sitos,
and where this also greatly abounds. In other cases,
other species absolutely swarm where the similar attraction
lies.

Even supposing species to be the sole natural division,
we may accept the superior combinations as means to
aid us to a gradually extending survey of the whole.
Perhaps did we possess all the links of the vast chain of
beings we should find genera, and every other superior
combination, melt away through the intimate alliance of
the succession of species that would obliterate the lines
of separation, by making the sutures imperceptible; but
what mind could compass the detail of such a limitless
unbroken series? Their subdivision may therefore be
accepted as a positive necessity, to enable us to compass
their investigation. As it at present stands, with our
imperfect knowledge of the entire series of species, these
higher groups are indispensably requisite.

The specific diagnosis being the only sure basis upon
which all our knowledge can rest, its accuracy is all-important,
and requires a few observations. It comprises
two parts—the specific <i>character</i>, and the specific
<i>description</i>. The difference between these is, that the
first is constructed with the extremest brevity consistent
with its utility, is fluctuating and not permanent. The
latter permits all the diffuseness needful to embrace a
full description of the creature.

The object of the first is to establish the <i>present</i> identity
of the species amongst all its known congeners—those
associated in the same genus;—and that of the
second to secure it in its perpetual identity, and segregate
it from all future and contingent discoveries. The
specific character admits, consequently, modifications to
.pn +1
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suit any extension of the genus, and in fact exacts it at
the hands of all who describe new species. This many
naturalists undertake without any apparent consciousness
of the scientific responsibilities that attach to it,
and whence results the confusion so much to be deplored,
of the synonymy that prevails, constituting, as it does,
such a Dædalian labyrinth. The describer of a new
species is bound to cast around, and endeavour to know
all that has been previously done upon the subject of
the genus. He has to revise all the specific characters
within the genus, and mould them to those he introduces,
and he must insert these closest to their evident affinities.
Thus, therefore, the describer’s labour is not light, if
to be of any value. The specific character, although thus
varying, becomes a permanent utility, and only so fulfils
its object,—that of rapidly showing, at a glance, the
known species of a genus, and thereby permitting the
speedy determination of the identity or distinctness
of a compared object. If doubt should exist from this
brevity, the specific description is at hand to solve it, by
the amplitude and completeness of its details. Of course
this mode of treatment is only suitable to monographs,
or portions of the science discussed separately, and not
to a general or universal survey.

The amount of toil thus saved to the describing naturalist,
and to those who wish to name their specimen,
the experienced only can estimate. This brevity of specific
character is one of Linnæus’s terse and valuable
axioms, who limits its length to twelve words. The best
examples, I think, that I can adduce in entomology, of
valuable and exemplary specific descriptions, is Gyllenhal’s
‘Insecta Suecica’ which contains exclusively a description
of Swedish Coleoptera; Gravenhorst’s large
.pn +1
.bn 140.png
monograph of European Ichneumons; Erichson’s elaborate
work upon the Staphylinidæ; and our own Kirby’s
‘Monographia Apum Angliæ.’ Their perfection consists
in fulfilling thoroughly all the above conditions,
for if any doubt exist upon comparing your insect with
their descriptions, you may be fully assured yours is
not identical. The only drawback to the utility of Mr.
Kirby’s book is that he had to deal with insects variable
in condition from many causes, and the variable state of
the insect that may have to be compared; his description
has evidently been made sometimes from a worn
specimen, one that had been exposed to wind and
weather, and sometimes from an insect in fine condition.
Thus it is important that compared insects should be in
an identical state to substantiate the comparison,—a difficulty
which this family has specially to contend with, as
these insects are more liable than almost any others to
vary, owing to their specific character depending much
upon pubescence, which is extremely subjected to many
modifying influences, for the tinges and positive colour
of the hair will much vary by exposure, as it is not possible
always to capture a bright individual.

Taking specific description thus practically in its full
and wide sense, it is requisite, for the purpose of avoiding
repetition, that all the characters of the superior
combinations should be eliminated, leaving it with those
only which have not been thus absorbed, which now
constitute its sole remaining distinctive specific peculiarities.
Every species necessarily contains within itself,
every character of every combination in direct line
above it, although these have been gradually abstracted
to form those several combinations which are arrived
at successively in the synthetical ascent. Analytically,
.pn +1
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species are the last but combining element of all, although
their most remote members. The whole system
is an ingenious contrivance for breaking down a complex
multiplicity of characters, to simplify the means of
reaching all the collateral or adjacent species, that we
may be able to determine identity or difference.

Entomology, and indeed natural history generally,
uses three words, very much alike, but very different in
signification and application. These are, <i>habit</i>, <i>habits</i>,
and <i>habitat</i>. The habit is that peculiar character of
identity, that <i>je ne sais quoi</i>, which marks all the species
of a genus collectively, and which, in some cases, only
the trained eye can detect. It is then seen instantaneously,
and forcibly illustrates the extreme precision the
study of the natural sciences tends to cultivate. Their
utility, also, as a discipline to the mind, conjunctively
with the keen accuracy which practice gives the sight, are
qualifications not lightly to be esteemed.

It is from such absolute control of detail that the
most efficient power of generalizing emanates, which,
when it has once become habitual, gives, from its rapidity,
an almost instinctive facility, as its inevitable concomitant,
for both synthetical and analytical survey.
The mind thus becomes strengthened by vigorous exercise,
and has always, for every purpose, a powerful instrument
at command, often used unconsciously, but
always effectively. Thus is <i>habit</i>, once correctly perceived,
ever retained.

The <i>habits</i> are the peculiar manners and economy of
a species; and the <i>habitat</i> is the kind of locality the
creatures affect, such as hill or plain, wood or meadow,
forest or fell, hedgebank or decaying timber, sand or
chalk or clay, and ground vertical or horizontal; and the
.pn +1
.bn 142.png
<i>metropolis</i> of a species—another term in use—is the
centralization of the general habitat where the insect
either nidificates collectively with its fellows, or, where,
from any other cause, it may be found in its season,
usually in profusion. But good fortune does not always
attend the discovery of this locality.

It is by the acquired skill of perceiving habit, that
a large and confused collection may be sorted rapidly,
or fresh captures immediately placed with their congeners,
without the necessity of going tediously through
all the descriptive characteristics. Incidental errors are
afterwards speedily corrected. It is then that the specific
character exhibits its utility by enabling us at once to distinguish
the new from the old.

The concentration and summary of the specific character
is the name of the species, or trivial name as it
is sometimes called, which is, as it were, the baptismal
designation that attaches to it always afterwards, and is
contemporaneous with the introduction of the creature
into the series of recognized beings.

Upon the revival of the study of natural history, when
learning dawned after the night of the Middle Ages,
much difficulty attached to the imposition of discriminative
names. The works of the ancients were ransacked,
and endeavours made to verify and apply the names they
had used. Ray published a vocabulary of such names.
But the ancients never studied natural history in the systematic
way pursued by the moderns; they did not want
the skill, but they wanted the facilities. Anatomy and
physiology had not made the progress necessary to aid
them in the pursuit, and the assistance all these sciences
obtain from optical instruments was barred from them.
The names they gave to natural objects were vernacular
.pn +1
.bn 143.png
names, which, like our own vernacular names, applied
rather to groups than to species, and have in consequence
ultimately become the names of genera. But this
was the work of time, with which discovery progressed.
As these discoveries were made by the new cultivators
of natural history, they added them to those which they
resembled, by some brief distinctive character adapted
to the momentary exigency, such as <i>major</i>, or <i>minor</i>,
etc.; and these additions were constantly treated as
varieties of the species, whose name headed the list
by the designation first adopted. Discoveries still continued,
which were compulsively arranged with the predecessors
they most nearly resembled, until resemblances
vanished, and the boundaries fixed by the assumed
correct application of the names thus derived
from the ancients were passed, and there was an overflow
on all sides.

To meet this difficulty, the new discriminative name
had to be moulded into a phrase to correct its exceptive
peculiarities, and specific names became descriptive
phrases, the bulk of which no memory could retain,
and which usually were neither clear nor expressive.
Thus genera were continually treated as species, and
species as numbered varieties, with long distinguishing
descriptive phrases.

So it remained till day dawned, and the great luminary
of systematic natural history rose with a bound to
irradiate the obscurity of science with his subtile and
vivifying beams.

This was <sc>Linnæus</sc>, to whom we owe the binomial
system, wherein, by means of two words only (the generic
or surname, and the specific or baptismal name),
the recognition of a species is perpetuated; for Linnæus
.pn +1
.bn 144.png
truly says, “<i>Nomina si nescis, perit et cognitio
rerum</i>.”

By a law tacitly admitted, but universally recognized,
for the sake of securing to a name its intangibility,
no two genera in the same kingdom of nature may be
named alike. There is, therefore, if this rule be observed,
no fear of similar names coming into collision in
the same province, and thus producing confusion. A
ready means to prevent the possibility of such mischance
is the admirable work which has been published by
Agassiz, with the assistance of very able coadjutors, in
the ‘Nomenclator Zoologicus,’ which is a list of all the
generic names extant in zoology, exhibiting what names
are already in use either appropriately or synonymously
in this great branch of the natural world, and if this
work receive periodically its necessary supplements and
additions, no excuse will remain for the repetition of a
name already applied. The most defective character in
this laborious work, is the frequent incorrectness of its
etymology of the names of genera. It would be, perhaps,
without such aid, too great a labour to require of the
describing naturalist, or it might not be otherwise even
practicable for him, to ascertain whether the generic
name he purposes to impose be, or not, anticipated.
The penalty of its being superseded is understood to
attach to the imposition of such a name, for the alteration
may be made with impunity, and thereby it becomes
degraded to the rank of a mere synonym.

Nomenclature has thus, by the happy invention of
Linnæus, been made a matter of the greatest simplicity,
conciseness, and lucidity, and to him, therefore, our
gratitude is due.

An indispensable branch of nomenclature is <i>Synonymy</i>,
.pn +1
.bn 145.png
which, briefly, is the chronological list of the several
names under which species or genera may have been
known. This diversity of names has originated in several
ways,—from indolence, or ignorance, or excessive refinement.
The views of systematists will differ in the collocation
of creatures; hence, sometimes what had been
previously divided will be recombined, or divisions into
further groups be made of what had been before united.
Both processes will necessarily produce synonyms; the
recombination of what had been separated reduces the
names of such groups to the rank of synonyms of the
old one from which they have been disjoined. In the
latter case the old name will be retained to the typical
species merely, and be also made a partial synonym of
the names of the new generic groups: or, indeed,
it may happen that the same creature has been described
generically, unknowingly, by two different persons, about
the same time. By another recognized rule in nomenclature,
the ‘law of priority,’ the name given by the
first describer is accepted, and the other consequently
falls to the condition of a synonym.

With respect to specific synonymy, many causes conduce
to it; namely, an imperfect description which cannot
be clearly recognized, reducing it to that category,
with a mark of interrogation appended; subsequent description
when want of tact has not discerned the identity
of the old one; indolence in looking about for
works upon the same subject; inability to obtain access
to books wherein they may be described, owing either to
their costliness or to their obscurity, or by lying buried
in some collapsed journal, or the poverty of our public
libraries, etc. etc. But however thus lost sight of, or
wilfully ignored, the name still retains vital elasticity,
.pn +1
.bn 146.png
for the describer has not thereby lost his rights, but
revives to them with all due justice upon the cessation
of this coma. The really culpable among such describers
are those who neglect to look around them to
ascertain what has been done, and this course is sometimes
illicitly adopted to obtain a fleeting and meretricious
fame, by the description of ostensibly new species,
which critical investigators soon detect to have been long
since known and very ably described.

Thus, a complete synonymy, which can almost only
come within the province of a monograph, would give,
chronologically, the entire history of a species under all
the names it has been known by in the several works in
which it has been published. Nature is so uniform and
stable that Aristotle’s descriptions can be clearly recognized,
therefore there is no fear that whatever may
have been synonymously, but yet correctly recorded of
the economy of a species, can possibly be lost when once
registered in the archives of science.

The working out of a correct synonymy is an ungrateful
task of much labour, for few appreciate it, and not
many use it, although when thoroughly elaborated it is
so extremely valuable.

A further rule in nomenclature is, that the generic
name must always be a substantive; and it is always
desirable that the specific name should be an adjective.
In the event of the imposition of a proper name, which is
sometimes done to record a private friendship, but improperly
so, for it is a distinction due only to promoters
of the science, the genitive form must be adopted.

The next grade in ascent from the species is invariably
the <sc>Genus</sc>, for subgenera, like varieties in species, are not
uniformly present, but are mere contingencies, even if
they do properly exist.
.pn +1
.bn 147.png

Why some genera abound in species and others are
so limited is as difficult to determine as the differing
numerical abundance of individuals in species. That
long genera (genera numerous in species) may be the
result of natural selection, as Mr. Darwin surmises, and
the offspring of a common parentage, is contradicted,
not merely by peculiar although sometimes slight dissimilarities
of habit, combined with size and colour, but
also if any lines of demarcation are to be admitted, it is
possible, were their generic similitude to be subjected to
severe test, they might present characteristics normally
discrepant and suggestive of further division, although
the habit may be very like.

The generic grouping is effected by structural peculiarities,
which are essentially of a higher class than
the characters of specific separation, these being determined
by colour, pubescence, sculpture, etc. etc.; specific
characters combining only individuals with such
peculiar inferior resemblances. The generic characters
thus establish groups of species allied only by such more
general character and similarity, but conjunctively of
one permanent habit, although the members of the genus
may differ somewhat in habits, and so on of the higher
groups into which insects are collected, each group in
its ascent upwards presenting characteristics of a wider
range than those of the descending series. And so,
by degrees, we rise until we reach the characters which
combine the whole order. The process is necessarily
and imperatively synthetical, for the whole foundation is
based upon species, and thence emanates the supposition
that only species exist.

The <i>type</i> of a genus is that species upon the characters
of which the genus was originally framed and named,
.pn +1
.bn 148.png
and theoretically, however generic groups may be subsequently
divided to suit views or to meet systems, the
primitive generic type is assumed to retain the primitive
generic name. It is much to be doubted whether, in
every case, the type is the true pattern, or leader, or
centre of the group called the genus; nor is it likely if
genera be natural groups. It has usually been accident
which has dropped upon the favoured species, and not a
well-calculated and thoroughly digested selection, and
which, although accepted, will require emendation or
change if the whole collective series should ever be obtained.

It is the necessary result of the imperfection of our
intellect, and one of the dominant conditions of overruling
time, that one thing must follow the other. It
is, therefore, neither an expressed nor even an implied
inferiority that puts one species before the other in a
generic group; or one genus before the other in their
successive order. Affinities may lead both species and
genera in varying directions, although treated descriptively
as of linear succession, in which order they are
usually arranged, but this is unavoidable and therefore
not derogatory. It is for the mind to conceive their
radiation from a type, or their parallelism with other
forms, even in the connection of affinity, and not merely
of analogy, for the latter can be expressed even in
arrangement.

Thus encouragement attends the beginner at the very
outset of his study, and the prospect of a wide field for
discoveries, in all directions, lies open to him.

The <sc>Family</sc>, after the <sc>Genus</sc>, is the next natural group
at which we arrive, proceeding synthetically. Its characters,
succeeding to those of the <sc>Order</sc>, group together
.pn +1
.bn 149.png
collectively the largest numbers of forms that in their
several combinations are the most nearly equivalents,
and may be almost paralleled in that quality to the alliance
of species. Ascending from species, the naturalist
scarcely hopes to find in the groups formed above them
strict parallelism, although, to be logical, it should be
so, and, where the combinations are most natural, it
is most nearly so. Thus we do not again distinctly
reach equivalents until we arrive at these families, which
from linking together associations usually combined
by an identity of instinct and functions, attach to themselves
greater interest, and form alliances pointed out
by the finger of nature itself, which are therefore
exempted from the arbitrary caprice of the constructive
systematist.

It does not follow that families should be even nearly
numerically equivalent, for a family may contain a few
or a multitude of genera and species, or a multitude of
genera and few species, or also a multitude of species
and few genera. Families comprise groups of forms to
which nature delegates the execution of certain duties
and offices, and whether specifically numerous or few,
we may assume they are sufficient for the object intended.
If we can reach the motive that controls the
peculiarities of the group, it is a golden key to the
explanation of the structure of its constituents, and,
perhaps might furnish us, if not with a positive clue,
yet with a surmise as to the functions of the collateral
groups of which it forms a member, and which diligent
observation may accurately determine.

Families, to be natural divisions, should stand in the
same relationship to genera as species do, but from the
opposite side, whatever the subdivisions are into which
.pn +1
.bn 150.png
they may be separated, for the sake of convenience, and
as descending grades whereby to arrive with greater
facility at their genera, just as the species of the latter
are also sometimes grouped, that they may be reached
with greater ease. These subdivisions of families have
no analogy with the varieties which species occasionally
throw off, although they may be as irregular in their
occurrence; that is to say, in the association of a group
of families arranged in their series of most proximate
affinities, the first may present subdivisions, others, in
irregular occurrence, may not require them,—just as in
the species of a genus, arranged also in the series of
their closest resemblances, one will present a stringent
adherence to the specific type, or all may do so, or all
or some may have a tendency to vary. Groupings of
species are, however, of a less natural character usually
than are those of families, and generally are artificial,
being capriciously made to break down long genera, that
the required species may be more readily arrived at.

The characters which group families differ <i>inter se</i>.
Thus in the Order <i>Hymenoptera</i>, the family of the bees
is essentially framed upon their most distinguishing
peculiarity—the tongue,—which in other families becomes
of secondary importance. In some the neuration
of the wings, their mode of folding, the form of the
eyes, conjunctively with other peculiarities of general
structure, etc. etc., which point to the differences in the
economy that accompany all these, have successively the
same prominent position which the trophi take in the
family of the bees.

I have already recently alluded to the relations of
affinity and analogy, and it is desirable that some notion
of the meaning and bearing of these terms should be
.pn +1
.bn 151.png
given, as, in the majority of modern works on natural
history, use is frequently made of them.

On carefully surveying any class or order of creatures,
the mind speedily becomes impressed by observing certain
similitudes out of the direct line of continuous
connection, and therefore remote from the strongest
connecting links of positive relationship in the methodical
series. Induced thence to inspect them more closely,
we presently ascertain that what we at first conceived
might be an error in their collocation, arises from very
strong resemblances in certain particular features, but
which are less important than those which directly
unite them, and may not be permitted to interrupt the
order established. It is, however, equally evident that
they indicate relations which may not be neglected.

Thus, although the succession be direct in the evolution
of its primary characteristics, the prominent features
which so present themselves establish the conviction
of the existence of connections oblique to the straight
line, but all embraced within the normal conditions
which bind the group together. These are called relations
of affinity. Pursuing them, it is sometimes
observed that nature, as it were, returns upon itself, reproducing
similar notes in another key.

These indications have led philosophical naturalists to
surmise that the true arrangement of natural objects is
in groups, and not in a straight and continuous line.

Several schemes have been suggested for the purpose
of giving uniformity to these groups, making them
equivalents by associating together the same numbers
of allied forms, which again return in a circular series
upon themselves, and impinge upon other circles at the
parallel points of their circumference by affinities less
.pn +1
.bn 152.png
direct than those which unite them within their own
circle.

Many novel views and interesting combinations have
been thus elicited, showing that very strong affinities lie
in very divergent directions, but no system has been
hitherto devised which overrules the conflicting difficulties
that attend these arrangements. Whatever number
may have been adopted to bring nature within this
circular system, it has always been found that some, or
several members, both in the circles themselves, or in
their series, is as yet deficient, and awaits either discovery
or creation.

The pursuit of such views stimulates profound investigation,
and may lead to valuable discoveries that will
eventually give a loftier and more philosophical character
to the study of natural history than it has hitherto
possessed, and make it an attraction to the highest class
of mental powers. The key to the universe hangs at
the girdle of the veiled goddess; and happy the student
who shall achieve possession of it, and unlock the mysteries
to the reverential gaze of mankind.

The <i>relation of analogy</i> is different in <i>kind</i>, although
the general affinities which bind a class together are
necessarily affinities in the widest construction of the
term; but the class being resolved into its elements,
those affinities, thus dissevered, no longer retain the
uniting links whereby the mass coheres. They, more
correctly, stream from their origin in parallelisms rather
than in a continuous and uninterrupted current; and
these parallelisms present resemblances often of a merely
superficial character. As strong an instance as I can
adduce is possibly the analogical parallelism of the <i>Pentamera</i>
and the <i>Heteromera</i> in the <i>Coleoptera</i>, which
.pn +1
.bn 153.png
are, however, bound by the common affinity of being
all beetles.

It is, nevertheless, often difficult to determine between
the relationships of affinity and analogy, for groups even
in close contiguity may also possess both. Thus, the
normal <i>Ichneumones</i> have their analogues in the <i>Ichneumones
adsciti</i>, if the comparison be restricted to themselves,
but these revert into the relationship of affinity
when a comparison is instituted between them and the
adjacent groups on the one side of the <i>Tenthredines</i>, or
on the other of the <i>Aculeata</i>, with which, when a relationship
presents itself, it is merely one of analogy.
So, also, within the pentamerous <i>Coleoptera</i> we have
a relationship of analogy between the <i>Staphylinidæ</i> and
the <i>Histeridæ</i>, but it becomes one of affinity when it
unites them within this section of the class.

Innumerable other instances might be given readily,
but these will suffice to convey a notion of the relative
meanings of the terms, ‘relation of affinity’ and ‘relation
of analogy,’ which is all here aimed at.

The problem naturalists have to solve is, “What is
the natural system?” We can clearly see that the systems
adopted are not Nature’s, that they are essentially
imperfect, and that the science, even with all the force
of the intelligence that has been applied to it, is far from
having attained perfection. It still awaits the master
mind that shall cope with its difficulties, determine its
intricacies, and, threading the labyrinth, guide his enthusiastic
disciples into the adytum of the temple.

The subjects here brought under view admit of very
considerable development, and of strictly didactic and
methodical treatment. It has been my object only to
gossip upon them, that I might stimulate curiosity to
.pn +1
.bn 154.png
undertake systematic study, by showing how interesting
it may become if earnestly pursued, being so fraught
with instruction of large compass.

Works on natural history have divers objects in view,
and may be intended either for popular and general distribution,
or for special scientific purposes, and in each
case the mode of treatment will materially differ. Many
purposes may also be intended to be severally met in
the strictly and rigidly scientific treatment. They may
be either general methodical arrangements treated superficially,
having no other design than to give a sort of bird’s-eye
view of the subject in its wider distributions and
broader landmarks, or they may treat of portions of the
large subject more specially; again, they may constitute
monographs of varying extent from a family to a genus;
or they may comprise loose descriptions of new species
of old and well-established genera; and some such, conjunctively
with new species, establish likewise new genera,
indicating, at the same time, their proximate position in
the general series. The two latter classes are usually
the appendages to voyages and travels in distant unexplored
countries, or are the result of a careful collection
of neglected tribes at home. Each, thus, with its special
application has its special construction; but in the case
of new species, I would strenuously counsel a full and
complete description, and urge as imperative the construction
of a specific character, formally framed to meet
the condition of the science, based upon the precise
antecedents and existing state of the genus to which
such species belong.

Even assuming that the knowledge of species is the
essential foundation of the science, the preceding observations
show that there is a higher knowledge connected
.pn +1
.bn 155.png
with the pursuit than this mere knowledge of species,
and yet from which it emanates. There is a higher
object to be achieved than the accumulation of a store
of them, arranged in seemly order, set with manifest
taste, and named in accordance with the accepted nomenclature.
These are extremely pleasing to the eye,
but the intellect languishes over them in unsatisfied
desire, craving more solid aliment. There is besides
room for observation on every side, either confirmatory
or original, and both are much needed, and must be
considerably augmented before it is accumulated in
satisfactory abundance; and until this be procured,
existing systems can be viewed merely as temporarily
useful, for until all that nature can teach shall be exhausted,
perfection cannot be attained.

The many kinds of knowledge which the study subserves,
and the recreation and pleasure each affords, are
a sufficient reply to the sneering <i>Cui bono?</i> of its detractors,
who, when they urge that it occupies time which
might be more profitably employed, present themselves
but as the priests of the Fetish of the age, and may be
told that we use it only as a relaxation to necessary
worldly toils. When pursued, in cases where it can be
so, in unmolested security, is there a more salutary pursuit
than that which inculcates the high veneration and
love which the study of nature should inspire towards
the Great Parent of all? What can compete with it in
other studies? The investigation of the works of the
Almighty lead directly to the steps of the altar of religion,
and there we find the study of the Works confirmed
by the precepts of the Word, both inculcating humble
reverence and fervent love. Thus pursued, is it not a
reply to every cavil?
.pn +1
.bn 156.png
.pb
.sp 4
.h2
CHAPTER VII || <sc>BRIEF NOTICE OF THE SCIENTIFIC CULTIVATION OF\
BRITISH BEES.</sc>
.sp 2
.ni
<sc>With</sc> the great <sc>John Ray</sc> dawns the scientific cultivation
of British bees. Before his time, the only entomological
work which had been published in England was
Dr. Mouffett’s ‘Theatrum Insectorum.’ In this work
there is an ample account of the domestic bee, with
gleanings from many sources of some of its habits and
economy, but there is no notice of any insects, excepting
some species of the genus <i>Bombus</i>, which may be at all
consorted with the social bee by affinities of structure
or identity of function.
.pi
In Ray’s correspondence with his disciples and friends,
we have straggling observations upon the habits of a few
wild bees, especially some jotted down by his diligent
pupil, the distinguished Francis Willughby. It is in
Ray’s posthumous ‘Historia Insectorum,’ published in
1710, at the instance of the Royal Society, that we first
find collected together all that had been previously
known of ‘British Bees.’ In that work he describes
them systematically. He there arranges the bees into
<i>Apis</i> and <i>Bombylius</i>, which may be regarded almost as
genera.
.pn +1
.bn 157.png

He divides <i>Apis</i> into what may be considered as two
sections, <i>Apis domestica</i> forming the first, and the
second containing his <i>Apes silvestres</i>, or wild bees.
Nine of these are described and numbered consecutively,
which are followed by eleven descriptions unnumbered,
some of the latter having been supplied to him by
Francis Willughby, whose initials are attached to these,
and amongst which we find the description of the willow
bee, subsequently, from this cause, named by Kirby,
from its original describer, and now universally known
as <i>Megachile Willughbiella</i>.

Ray’s second genus is <i>Bombylius</i>, identical, as far as
it goes, with the modern genus <i>Bombus</i>, excepting that
it includes an <i>Anthophora</i>. He here describes nineteen,
all numbered. Ray’s names are phrases, the mode of
describing then prevalent in all the natural sciences,
until the happy introduction of the binomial system by
the great genius of natural history—<sc>Linnæus</sc>. These
phrases are almost tantamount to the modern specific
character; but Ray unfortunately attaches no size, yet
size might have lent some aid to their modern determination.

Mr. Kirby was able to identify and introduce into his
synonymy only a few of Ray’s insects, from the defectiveness
of the descriptions; the following embrace all
that could be verified:—

No. 1 of the <i>Apes silvestres</i> is our <i>Anthidium mancatum</i>;
No. 3, the male of <i>Anthophora retusa</i>, the female
of which being No. 4 of his <i>Bombylii</i>; No. 4 of
the <i>Apes</i> is <i>Andrena nitida</i>: these comprise all of those
numbered which could be recognized. The first of the
unnumbered is the male of <i>Eucera longicornis</i>; the
fourth is <i>Melecta punctata</i>; the sixth is <i>Colletes fodiens</i>;
.pn +1
.bn 158.png
the seventh is the male of <i>Osmia bicornis</i>; and the ninth
the celebrated <i>Megachile Willughbiella</i>.

In <i>Bombylius</i> No. 1 is <i>Bombus lapidarius</i>; No. 2, <i>B.
Raiellus</i>, named by Mr. Kirby in honour of its great
describer; No. 3 is <i>B. muscorum</i>; No. 4 is the female
of <i>Anthophora retusa</i>, as noticed above; No. 5 is <i>Bombus
terrestris</i>, as is also No. 6; No. 7 is the male of <i>B. lapidarius</i>;
No. 8 is <i>B. pratorum</i>; No. 9 is <i>B. sylvarum</i>;
No. 10 is <i>B. subinterruptus</i>; No. 11 is <i>B. hortorum</i>; No.
13 is <i>B. Francillonellus</i>, and No. 17 is <i>Apathus Barbutellus</i>.
Thus ten of the <i>Apes silvestres</i>, and six of the
<i>Bombylii</i> are unidentified, and those recognized may be
placed correctly, by the aid I give in attaching Mr.
Kirby’s synonymy to the list of species added to each
genus below.

Nothing of any moment thence intervened, until the
Rev. W. Kirby, of Barham, in Suffolk, made a careful
and earnest collection of the ‘British Bees,’ with a view
to their scientific description and distribution. Stragglers
were to be found in many entomological cabinets,
and some of their habits had been observed and recorded
by patient and attentive naturalists; but these collections
were small, very imperfect, and widely dispersed,
until Mr. Kirby’s energy and activity nurtured the idea,
and carried it into execution, of bringing into one focus
the scattered notices and vagrant specimens he had seen
about.

The diligence he himself exercised in procuring all the
individuals he possibly could, by continued collecting
during a succession of years, enabled him, in the course
of time, to add considerably to those he was already
acquainted with, either in collections, or through dispersed
notices. The growing bulk of his store suggested
.pn +1
.bn 159.png
his looking around for guides to their methodical arrangement,
as a clue to what might have been observed
of their habits. Finding no such assistance, and nothing
to meet his wants, for Linnæus’s notices were too
few, and Fabricius’s labours too inconsequential, he determined
to aid himself by elaborating their distribution
upon the basis of the principles established by Fabricius
himself, but which this celebrated entomologist had worked
out so inconclusively as to make his system an indigested
mass heaped together in the greatest disorder.

Mr. Kirby’s patience and diligence, although working
only upon the same principle, speedily brought into
lucidity and order the obscurity and confusion that had
prevailed. By one of those strange coincidences which
have been remarkably recurrent in scientific invention
and discovery, Latreille, in France, was at the same
time arranging all the bees known to him, by a process
precisely similar to that adopted by Mr. Kirby. He
consequently arrived at exactly the same results, with
this difference only, that what Mr. Kirby calls genera
are to Latreille subfamilies, and the sections which
Mr. Kirby was induced to form in his genera, from
their structural differences, and which sections he called
families, inconveniently indicating them merely by
letters, asterisks, and numbers, were formed by Latreille
into genera, and to which the latter either applied or
adopted names, or framed new ones, when deficient; these
however are essentially genera, with all their discriminative
characteristics, for they bring together the very same
species in both cases. This clearly exhibits the beauty
and certainty of the principle upon which each had
worked out his distribution, both being based chiefly
upon the structure of the trophi, or the organs of the
.pn +1
.bn 160.png
mouth, but which Fabricius, its projector, had, singularly
enough, failed to accomplish successfully.

Both works were published in the same year, 1802
(An X. of Latreille’s book), unknown to each other,
but Mr. Kirby’s sprang into life in matured perfection,
like the imago of the bee itself, whereas Latreille’s
labours were progressively nursed to maturity in successive
publications, until they received their final elaboration
in 1809, in the fourth volume of his ‘Genera
Crustaceorum et Insectorum,’ whose successive stages
were, first, the notice appended at the end of his ‘Histoire
des Fourmis’ in Paris in 1801, and then in the thirteenth
volume of his ‘Histoire Naturelle des Insectes,’ in 1805,
a supplement to Sonnini’s edition of Buffon, and then in
the ‘Nouveau Dictionnaire d’Histoire Naturelle.’ Even
thus the subject was not so amply discussed, although
applied more extensively, and made to embrace all the
bees, exotic as well as European, at that time known, as
it had been done in Mr. Kirby’s model work, which
leaves nothing to be desired but the naming of his
anonymous subdivisions, and a little more artistical skill
in the execution of his plates. The terminology used
by him also differs from that subsequently adopted
through foreign influences, but which is readily reduced
to his standard.

The merits of the work greatly transcend these trivial
deficiencies, for it is a “canon” as invaluable to the
entomologist as the celebrated canon of Polycletus was,
and the Phidian marbles still are to sculptors. Of course
observation has greatly reduced the number of his species
by their due association with legitimate partners, which,
from their dissimilarity, he was compelled to separate,
as only successive observation could prove their identity.
.pn +1
.bn 161.png
More extensive collecting has also shown that some of
his species are merely varieties of others, which have
thus been brought to their authentic type. This also
could only be proved by experience, for it is remarkable
how very Protean some species are, whilst others are
almost rigidly unchangeable. Evidently there does exist
a line of demarcation between distinct species, which
only requires to be diligently sought to be found,
obscure as it may appear to be, but which the insects
themselves obey, for however closely species may sometimes
approximate, yet I do not believe, as I have before
expressed, that they ever permanently coalesce, and that
they are always as distinctly separate as are asymptotes.

As Mr. Kirby’s work is in few hands, or perhaps not
readily accessible, I will give here a summary outline of
it, with the names of the genera with which his families
coincide.

In this work he established only two named genera—<i>Melitta</i>
and <i>Apis</i>.

His genus <i>Melitta</i>, which is equivalent to the subsequent
subfamily <i>Andrenidæ</i>, he divides into two sections,
* and * *, the first containing two families, <i>a</i> and <i>b</i>, (these
we call genera, and they are now named <i>Colletes</i> and
<i>Prosopis</i>); the second section * * contains three families,
<i>a</i>, <i>b</i>, <i>c</i>, (<i>a</i>, is <i>Sphecodes</i>, <i>b</i>,
<i>Halictus</i>, and <i>c</i> comprises
our three genera, <i>Andrena</i>, <i>Cilissa</i>, and <i>Dasypoda</i>.)

His genus <i>Apis</i> he also divides into two sections, *
and * *; the first is subdivided into two families, <i>a</i> and
<i>b</i> (our genera <i>Panurgus</i> and <i>Nomada</i>); and the second
is divided into five subsections, <i>a</i>, <i>b</i>,
<i>c</i>, <i>d</i>, <i>e</i>; <i>a</i> and <i>b</i>
constitute families (our genera <i>Melecta</i> and <i>Epeolus</i>).
The subsection <i>c</i> is divided into two parts, 1 and 2,
the first containing the two divisions
<i>α</i> and <i>β</i>, each
.pn +1
.bn 162.png
comprising a family (our genera <i>Cœlioxys</i> and
<i>Stelis</i>); and the second is divided into the four families,
<i>α</i>, <i>β</i>, <i>γ</i>, <i>δ</i>,
(<i>α</i> being
the modern <i>Megachile</i>; <i>β</i>, <i>Anthidium</i>;
<i>γ</i>, <i>Chelostoma</i> and <i>Heriades</i> conjunctively,
and <i>δ</i> is our <i>Osmia</i>). The subsection <i>d</i> has
two subdivisions, 1 and 2, the first being a family (our
<i>Eucera</i>); and the second is divided into the two families
<i>α</i> and <i><i>β</i></i> (<i>α</i> comprising our
<i>Saropoda</i>, <i>Anthophora</i>, and <i>Ceratina</i>), and the
family <i>β</i>, consisting of the genus <i>Xylocopa</i>, then
supposed to be indigenous, but whose native occurrence has not
been substantiated.

The fifth subsection, <i>e</i>, is split into two divisions, 1
and 2, each containing a family (1 is our <i>Apis</i>, and 2,
our <i>Bombus</i>).

In this last of his families Mr. Kirby had already
noticed, with the same sagacity with which he had previously
conjectured the cuckoo-like habits of some of
the solitary bees, the distinctive structure of some of the
species, which incapacitated them from providing the
sustenance of their own young, and which thus reduced
them to the same category; but he left the idea in its
supposititious condition, being too modest to use it as a
mark of separation, but which Newman, on our side of
the Channel, and St. Fargeau on the other side, subsequently,
and both nearly about the same time, but with
the advantage in favour of Newman, distinguished, and
separated generically, respectively by the names of <i>Apathus</i>
and <i>Psithyrus</i>; the former, having the priority, is
adopted, according to the rights of precedence in nomenclature.

The above description of Mr. Kirby’s system will
perhaps be difficult to understand, unless I append the
naked scheme itself, which is as follows:—
.pn +1
.bn 163.png
.sp 2
.nf c
<sc>MELITTA</sc>.
.nf-
.if h
.il fn=i_p149_table.jpg w=300px
.if-
.if t
.in 8
.ti -4
[Table: Melitta Hierarchy]
.in 0
.if-

Mr. Kirby could scarcely have considered that there
were more than two series of equivalents in this scheme,
the first being the great division into the two genera;
and the second, the final division, where his analysis
terminated in his families, which, with some further
slight subdivision, as shown above, constitute our present
genera. The synthetical combinations which the
arrangement presents, as we ascend from his families,
result from an almost arbitrary selection of characters
.pn +1
.bn 164.png
and certainly are not equivalents. The whole method is
very perplexing; for, to cite an insect for the purpose of
making a communication, it would have to be preceded
by its whole array of subdivisions. Thus <i>Megachile Willughbiella</i>,
which is now so compendiously noticed by
the binomial system, would have to be quoted as <i>Apis</i>
* * <i>c</i>, 2, <i>a</i>, <i>Willughbiella</i>, and so with the rest.

Although I have strongly applauded the ‘Monographia
Apum Angliæ,’ as an excellent treatise wherever I have
had an opportunity, the praise is to be applied to the
correct care with which both the family descriptions and
the specific descriptions are elaborated; whilst Mr.
Kirby’s timidity in fearing to depart from the course of
his masters, Linnæus and Fabricius, by establishing a
multitude of genera unrecognized by their authority,
although every one of his families is pertinently a well-constituted
genus, is much to be deplored. He has thus
lost the fame of naming the offspring, of which, although
legitimately the parent, he was not the sponsor. But
he has won the higher renown, as I have elsewhere
remarked, of his work being a canon of entomological
perfection.

Notwithstanding that this very elaborate, and, to
some extent, artificial method is based upon a plurality
of characters, and apparently upon such as most readily
presented themselves to substantiate the feasibility of
subdivision indicated by habit, it is very remarkable in
having brought the series into more satisfactory sequence
than that presented by Latreille and his modifiers.
<i>Panurgus</i> here holds its permanent post as the connecting
link between the <i>Apidæ</i> and <i>Andrenidæ</i>, pointed out
by nature in its close resemblance to <i>Dasypoda</i>. But
this genus, however, establishes for itself a stronger
.pn +1
.bn 165.png
affinity to the <i>Apidæ</i>, exclusively of that presented by
the folding of the tongue in repose, in its presenting
immediately the large development of the labial palpi
which is peculiarly characteristic of this subfamily.

All the cuckoo-bees then follow in order; these are
succeeded by the true <i>Dasygasters</i>; after which come
Latreille’s <i>Scopulipedes</i>; and the series is wound up by
<i>Apis</i> and <i>Bombus</i>.

Mr. Kirby, I suppose, was induced to associate in the
same section <i>Panurgus</i> and <i>Nomada</i>, from their resemblance
in general habit, which in both conforms to the
type predominant in the <i>Andrenidæ</i>, although they are
thence dislocated by the differences in the important
organs of the mouth, which verify in this case the seeming
paradox of a part being greater than the whole; for
these are certainly of greater relative importance to the
economy of the creature than mere general habit, and
to which all the peculiarities of structure finally converge,
for the purpose of giving it what it thence acquires, its
own proper and distinctive place in the series of created
beings.

The most extensive work since published upon bees
generally, is that treating of the <i>Hymenoptera</i> universally,
written by Le Pelletier de St. Fargeau, and comprised
in four thick octavo volumes, contained in the ‘Suites à
Buffon.’ In this work both the genera and species of our
bees occur, of course conjunctively with the rest, but its
utility, especially to the beginner, is materially diminished
by the peculiar systematic views of the author. The distribution
of the Order is framed chiefly upon the economy
of the insects, which is not so tangible as structure,
and blends very heterogeneous forms,—widely separating,
in some cases, structural affinities, and sometimes
.pn +1
.bn 166.png
uniting discordant habits. Wasps and bees we here find
intermingled, and to commence study with this work
would much perplex the student. It can be used beneficially
only when some progress has been made in the
pursuit.

The only British entomologists who have treated of
the bees since the time of Mr. Kirby, are Stephens,
Curtis, Westwood, and Smith,—the first in his elaborate
‘Catalogue of British Insects,’ published in 1829; and
the second in his ‘Guide to the Arrangement of British
Insects,’ published in 1837. The arrangement of the
family of bees in both these works is exceedingly arbitrary
and without any obvious reason, either as regards
the consecutive order of the genera or species. This
originated possibly in their personal rivalry, which led
them to make their systems as dissimilar as they could,
and as unlike the true order as they could well dispose
them. Both arrangements are certainly far beneath
criticism.

In the Synopsis of Westwood, at the end of his ‘Guide
to the Classification of Insects,’ published in 1840, and
in Smith’s ‘Catalogue of the British Bees, contained in
the Collections of the British Museum,’ published in
1855, we have Latreille’s distribution, with slight modifications,
to which I shall not advert at present, but
which I shall discuss in my next chapter, where I shall
introduce the arrangement I myself propose for the
combination of the genera of British bees.
.pn +1
.bn 167.png
.pb
.sp 4
.h2
CHAPTER VIII. || <sc>A NEW ARRANGEMENT OF BRITISH BEES, WITH ITS\
RATIONALE, AND AN INTRODUCTION TO THE FAMILY,\
SUBFAMILIES, SECTIONS, AND SUBSECTIONS.</sc>
.sp 2
.ni
<sc>If</sc> perfection of instinct, and an organization exquisitely
moulded to a complete adaptation to the many delicate
and varied functions of that instinct, as well as to the
exercise of every faculty incidental to the class, be certainly
a proof of pre-eminence, we may justly claim this
position for the Order Hymenoptera. There is no characteristic
in which they are deficient, nor any in which
some of the members of the Order do not transcend in
aptitude the insects of all the others.
.pi
If they have not been placed at the head of the class
Insecta, it has been because systematic convenience did
not permit the transposition, on account of the interruption
it would have caused to the convenient linking
of the rest in a consecutive arrangement. Yet are they
the most volatile fliers, the most agile runners, the most
skilful burrowers, and consummate architects.

The beauty resulting from the combinations of symmetry
of form, elegance of motion, brilliancy of colour,
and vivacity of expression, is to be found exclusively
.pn +1
.bn 168.png
amongst them. Either in the velocity of their flight, or
in its playful evolutions and graceful undulations, they
are unsurpassed, and they hover in the execution of their
designs with pertinacious perseverance. No insect structure
can more thoroughly exemplify the most appropriate
adaptation to its uses, and the most admirable elegance
in the formation of the means of execution.

I thus claim for them, and which I think I may without
infraction of dispute, the distinctive rank amongst
insects.

Having fixed the station of the Hymenoptera generally,
we have next to seek the relative rank of the natural
divisions into which they readily separate.

Taking structure and instinct conjunctively, there can
be no doubt that the first position will be conceded to
that division of the Order which comprises the aculeated
tribes—those armed with stings,—some of whose members,
in each of the three large divisions into which they
fall, being social, that is, living in communities, organized
by a peculiar polity or administration.

These aculeates divide into, first, the <i>fossorial Hymenoptera</i>,
or burrowers; and the equivalent branch the
<i>Diploptera</i>, or wasps, distinguished and named from
their folding the superior wings longitudinally in repose;
secondly, the <i>heterogeneous Hymenoptera</i>, or ants, named
from the dissimilarity either in size or structure of their
females, a peculiarity incidental to all the social Hymenoptera,
but living in community is more peculiarly characteristic
of this division, it being in the other divisions
restricted to a few genera only, whereas here the solitary
habit is the exceptional. In all cases of socialism
there are three classes of individuals,—males, females,
and abortive females. In the other social kinds of
.pn +1
.bn 169.png
Hymenoptera, these abortive females, called neuters, perform
the labours of the community, and they are always
winged; whereas amongst the ants they are never
winged, and they constitute civil and military departments,
the former attending to domestic matters, and
the latter making predatory excursions to enslave the
inhabitants of other communities, to aid their civilians
in their many duties.

The third and last division of the aculeate Hymenoptera
contains the <i>Mellicolligeræ</i>, the bees, or honey-gatherers.

Thus each division of the aculeated Hymenoptera is
closely linked to the others by the strong affinity of the
social habits of some of the genera of their several
families.

The food of these three divisions of the aculeated
Hymenoptera differs considerably, the Fossores being
raptorial flesh-feeders, which hunt down and destroy
their prey, and supply it as food to their young; the
<i>Heterogynæ</i> are omnivorous,—grain, fruits, or carrion
being equally welcome to them; but in these climates
I am not aware that they destroy life, although their
wide migrations within the tropics are undertaken in
the very spirit of the Huns and Vandals, for they devastate
everything they come across; but the whole
family of bees are exclusively honey-feeders without any
carnivorous propensities, and use their stings merely as
weapons of defence.

Although all the social aculeates are edifiers, and
although the wasp in its <i>papier mâché</i> domicile may vie
with the honey-bee in capacity and skill in the structure
of the hexagons of the habitation it erects or suspends,
which are as perfect, and almost as delicate, although
.pn +1
.bn 170.png
fabricated of a coarser material than those within the
hive, and wherein also the several compartments form a
more homogeneous unity, and the uniformity of the
several layers or floors is more in accordance with architectural
symmetry,—yet must the palm of precedence
be accorded to the bee, from the more elaborate and perfect
development of the social instinctive faculty.

We may be the more excused for this preference
when we weigh the interest of the genus <i>Apis</i> to man.
The wasp boots us nothing, but is the pilferer of our
fruits, and a marauder upon the hive, whose inhabitants
it destroys and consumes their produce, it being indifferent
to them which they obtain—the bee or the
honey,—either furnishing them with sustenance. The
ant is obtrusive and incommodious, making incursions
upon the pantry, the store-room, the green-house, and
the hothouse; disfiguring our flower-beds, and often
disgusting us with our aliment by the impertinent intrusion
of its appearance. But the bee stores up for us
honey, whose cruses are as inexhaustible as the oil cruse
of the good widow of Zarephath, and whose waxen shards
furnish us with a beautifully soft light, which in Catholic
worship adds solemnity to the rites of religion.
In doing this the bee fulfils a sovereign function in the
economy of nature, by the fertilization of the flowering
plants, with which she reciprocates benefits; the
preponderance, however, is importantly in favour of the
flower.

If captious objectors should dispute the position we
thus claim for the bees, we will willingly leave them the
wasp with its sting, whilst we sedulously cultivate the
active and industrious bee, whose associations range
through all the fields of poetry, but nowhere more lusciously
.pn +1
.bn 171.png
than in the beautiful compositions of the Sanskrit
poets Kalidasa and Yayadeva.

The position of the family, whose English constituents
I shall subsequently treat of, being thus fixed, I have
next to explain the several subdivisions into which it is
divided in the following arrangement.

I am prompted to propose this new distribution of the
British bees, by the manifest imperfection of the several
arrangements of them already extant. The defects of
these systems I shall have occasion to exhibit in reference
to the course I have been induced to take.

Mr. Kirby’s keenness of observation led him to surmise,
from the absence of polliniferous brushes upon
the posterior legs, or other parts of the body of some,
that there might be a class of bees analogous to the
cuckoo, amongst the birds, who did not rear their own
young, or undertake any of the cares of maternity; but
that led by a peculiar instinct they deposited their eggs
in the nests of more laborious kinds, for their young to
be nurtured upon the provision laid up in store by the
latter for the supply of their own progeny. This being
merely a supposition, Mr. Kirby made no use of it in the
distribution of his families.

Observation has since confirmed the conjecture, and
the fact lends material aid to the combination of the
bees into detached groups, and which has been partially
applied since by all systematizers.

Conjunctively with the assistance derived from this
circumstance, the various modes whereby pollen is collected
and conveyed, either on the legs or on the belly,
further facilitates the grouping of the family. Other
structural or economical peculiarities lend their aid, and
although the arrangement primarily emanates from the
.pn +1
.bn 172.png
differences in the formation of the tongue, these are corroborated
by differences in other organs, and the general
distribution, as well as the special combinations, all result
from natural characteristics.

The simplicity of the arrangement thus effected is
very striking; and we thus find all the bees having
similar habits, and with a similar structure united together
by it in distinct groups.

I will here insert my scheme, and exhibit why and
in what it differs from those of my predecessors; and,
where necessary, I shall append such observations upon
the several methods extant, as will sufficiently show the
necessity, and vindicate the introduction of a new one.

.in 2
<sc>Family</sc> MELLICOLLIGERÆ (Honey collectors).
.in 4
Subfamily 1. <sc>Andrenidæ</sc> (Subnormal Bees).
.in 6
Section 1. <i>With lacerate paraglossæ.</i>
.in 8
Subsection <i>a</i>. <sc>With Emarginate Tongues.</sc>
.in 11
Genus 1. <sc>Colletes.</sc>
.in 17
2. <sc>Prosopis.</sc>
.in 8
Subsection <i>b</i>. <sc>With Lanceolate Tongues.</sc>
.in 11
Genus 3. <sc>Sphecodes.</sc>
.in 17
4. <sc>Andrena.</sc>

5. <sc>Cilissa.</sc>
.in 6
Section 2. <i>With entire paraglossæ.</i>
.in 8
Subsection <i>c</i>. <sc>With Acute Tongues.</sc>
.in 11
Genus 6. <sc>Halictus.</sc>
.in 17
7. <sc>Macropis.</sc>

8. <sc>Dasypoda.</sc>
.pn +1
.bn 173.png
.in 4
Subfamily 2. <sc>Apidæ</sc> (Normal Bees).
.in 6
Section 1. <i>Solitary.</i>
.in 8
Subsection 1. <sc>Scopulipedes</sc> (brush-legged).

a. <i>Femoriferæ</i> (collectors on the entire leg).
.in 11
† <i>With two submarginal cells.</i>

Genus 9. <sc>Panurgus.</sc>

b. <i>Cruriferæ</i> (collectors on the shank only).

† <i>With two submarginal cells.</i>
.in 10
Genus 10. <sc>Eucera.</sc>

†† <i>With three submarginal cells.</i>

Genus 11. <sc>Anthophora.</sc>

.in 16
12. <sc>Saropoda.</sc>

13. <sc>Ceratina.</sc>
.in 8
Subsection 2. <sc>Nudipedes</sc> (naked-legged).
.in 10
a. <i>With three submarginal cells.</i>

Genus 14. <sc>Nomada.</sc>
.in 16
15. <sc>Melecta.</sc>

16. <sc>Epeolus.</sc>
.in 10
b. <i>With two submarginal cells.</i>

Genus 17. <sc>Stelis</sc>
.in 16
18. <sc>Cœlioxys.</sc>
.in 8
Subsection 3. <sc>Dasygasters</sc> (hairy-bellied).
.in 10
<i>All with two submarginal cells.</i>

Genus 19. <sc>Megachile.</sc>
.in 16
20. <sc>Anthidium.</sc>

21. <sc>Chelostoma.</sc>

22. <sc>Heriades.</sc>

23. <sc>Anthocopa.</sc>

24. <sc>Osmia.</sc>
.pn +1
.bn 174.png
.in 6
Section 2. <i>Cenobites</i> (Dwellers in Community).
.in 8
Subsection 1. <sc>Spurred.</sc>
.in 16
† <i>Parasitical.</i>
.in 10
Genus 25. <sc>Apathus.</sc>
.in 16
†† <i>Collectors.</i>
.in 14
<i>Temporarily social.</i>
.in 10
Genus 26. <sc>Bombus.</sc>
.in 8
Subsection 2. <sc>Unspurred.</sc>
.in 12
<i>Permanently social.</i>
.in 10
Genus 27. <sc>Apis.</sc>
.in 0

The primary division of the bees into two large
branches, viz. into the <i>Andrenidæ</i>, or abnormal bees,
and the <i>Apidæ</i>, or normal bees, is effected by the mode
in which they fold the cibarial apparatus in repose.
In the description of the structure of the imago, I have
enlarged upon these organs, and for their explanation I
must refer to that chapter where diagrams exhibit the
structure of the different kinds of trophi of the bees, as
well as their mode of folding. Here it is only necessary
to notice that in the <i>Andrenidæ</i>, the joint at the base
draws back the basal portion when protruded, and this
basal portion is further jointed at the point of the insertion
of the paraglossæ and labial palpi, and parallel
with which joint the maxillæ are likewise jointed close
to the sinus where the maxillary palpi are inserted
laterally upon it. The basal portion thus throws the
anterior part forward or retracts it, at the will of the
insect, and in the latter case, being then in repose, it lies
in contiguous parallelism to the basal half, but beneath
it. When thus withdrawn, the short tongue itself, with
its paraglossæ and labial palpi are sheltered beneath the
.pn +1
.bn 175.png
coping of the labrum and the lateral protection of the
mandibles, whilst the horny sheathing of the maxillæ
protect the softer parts folding underneath.

In the <i>Apidæ</i>, or normal bees, the basal joint has the
same action in withdrawing the entire organ into its
place of rest; but the joint which gives it this power is
not in an analogous situation to that in the <i>Andrenidæ</i>,
for it is seated short of the joint which lies at the base
of the several organs of the cibarial apparatus. By
bending these downwards, it carries their apex backwards
towards the basal fulcrum through the action of
these two joints, and, when there, the more delicate
ones are protected from abrasion or injury, by the lateral
overlapping of the horny skin of the maxillæ. All being
thus withdrawn within this covering, upon the joint
which folds them back, seated at the base of the tongue,
the labrum falls, and further to strengthen this protection,
the mandibles close over it like forceps.

That this difference in the arrangement of the cibarial
apparatus points to any distinctive peculiarities of economy
has not been ascertained, for the habits of the <i>Scopulipedes</i>
greatly resemble those of the <i>Andrenidæ</i>; although
the habits of one of them, <i>Anthophora furcata</i>,
are remarkably like those of the foreign genus <i>Xylocopa</i>,
in its mode of drilling wood. But the <i>Apidæ</i> have cross
affinities amongst themselves, thus <i>Ceratina</i> resembles
<i>Heriades</i>, and some of the <i>Osmiæ</i>, in the way in which
it nidificates.

The tongues of the <i>Andrenidæ</i> are always shorter,
broader, and flatter than those of the <i>Apidæ</i>, in which
they are always long, cylindrical, and tapering. In the
first section of the <i>Andrenidæ</i>, the paraglossæ are obtusely
terminated at the apex, thence called lacerated,
.pn +1
.bn 176.png
and where they are fringed with brief bristles. The
peculiar form of the tongue in this section suggests its
being separated into two subsections, that organ being in
the first subsection very broad and bilobated, which gives
those insects their position in the series by approximating
them to the preceding family of the <i>Diploptera</i>, or
wasps, whose tongues have the same bilobate form, but
each lobe in them is furnished with a gland. These
tongues, in both cases of the wasps and these bees, may
conduce to the building or plastering habits of the insects.
The form may aid the wasp and the <i>Colletes</i>,
the first in the moulding of its hexagonal <i>papier-mâché</i>
cells, as it may the second in shaping and embroidering
the silk-lined abode of its embryonic progeny. Why
<i>Prosopis</i> should have this organization is difficult to
conceive, unless it be from an analogy of structure incidentally
previously referred to, beyond which any special
object has hitherto escaped detection.

In the second section of the <i>Andrenidæ</i>, which have
the paraglossæ entire and terminating in a point, the
tongues all also terminate acutely with a lateral inclination
inwards. In the lanceolate-tongued tribe they
bulge outwards laterally, although pointed at the apex.

All this subfamily of <i>Andrenidæ</i>, excepting only the
two genera reputed parasites, viz. <i>Prosopis</i> and <i>Sphecodes</i>,
are essentially <i>Scopulipedes</i>, densely brush-legged,
for the conveyance of pollen which they vigorously
collect; but from the brevity of their tongues they are
restricted to flowers with shallow petals and apparent
nectaria, their favourite plants being the abounding
<i>Compositæ</i> and <i>Umbelliferæ</i>, as well as the <i>Rosaceæ</i>,
whence they derive the agreeable odours which many of
them emit upon being captured.
.pn +1
.bn 177.png

Their peculiar mode of collecting is a further reason
for bringing the brush-legged <i>Apidæ</i> collectively to the
top of the normal bees, in juxtaposition to the <i>Andrenidæ</i>,
where the transition is made very naturally from
<i>Dasypoda</i> to <i>Panurgus</i>.

The whole of the cibarial apparatus, or trophi, is
always complete in all its constituent parts throughout
the <i>Andrenidæ</i>; and it is only with <i>Ceratina</i>, in the
group of <i>scopuliped Apidæ</i>, that it begins to show the
tendency it has to abnormal deficiencies, by the paraglossæ,
in that genus, being obsolete. This characteristic,
then, exhibits itself in the <i>Nudipedes</i> with two
submarginal cells who are parasitical upon the <i>Dasygasters</i>,
in whom also the maxillary palpi participate in
a deficiency in the authentic number of their joints,
whilst in <i>Apis</i> both maxillary palpi and paraglossæ are
unapparent. This shows that the numerical completion
of the organs of the mouth have nothing to do with the
qualifications of the creature, the best endowed in other
respects being thus curtailed, the final cause of which is
not yet understood.

The shape of the tongue itself thus separates the
<i>Andrenidæ</i> into three well-defined divisions readily perceptible.
These, as I have just observed with respect to
the differences in the mode of closing the oral apparatus
in both cases, yield no clue to economy and habits, for
which observation must supervene to illustrate it. This,
patiently carried out, is very desirable, as it is still in
discussion whether, notwithstanding the elucidation
structure affords, <i>Prosopis</i> and <i>Sphecodes</i> are or are
not parasitical. Structure says they are, for, like the
cuckoo-bees forming the group <i>Nudipedes</i> in the <i>Apidæ</i>,
they are destitute of the requisite apparatus for collecting
.pn +1
.bn 178.png
pollen. Mr. Kirby, however, gives direct testimony
in favour of <i>Sphecodes</i> being a burrower, in the case of
which bee it ought not to be a matter of much difficulty
to determine, for on sandy plateaus I have occasionally
found it very abundant, especially where there was ragwort
(<i>Senecio</i>) in flower in the vicinity, to which the
males resorted; but being at the time more intent on
other matters, I neglected the opportunity. Other observers
concur with Mr. Kirby as regards <i>Sphecodes</i>,
and also say as much for <i>Prosopis</i> (better known as
<i>Hylæus</i>). I strongly incline to the opinion enunciated
by Latreille and Le Pelletier de St. Fargeau, that they
are parasites. My opinion is based upon peculiarities
in them other than, although strengthened by, the negative
characteristic of absence of polliniferous organs. A
negative cannot be proved, it is true, yet what has been
positively asserted may as certainly result either from
defective observation, or from too strong a desire to find
no parasites among the <i>Andrenidæ</i>. My reasons occur
elsewhere in this work, and I need not repeat them. It
is still an open question, and the young entomologist, if
entering the arena unprepossessed, might win his spurs
in determining it. It would be well worth the trouble
of attending to for those who have leisure, and if decided
in favour of the independency of these genera, which
must be corroborated by a plurality of observations, and
not confined to one locality, they would form strong and
remarkable instances of a defective analogy in nature’s
workmanship, and suggest looking further for the causes
of so extraordinary an anomaly, and urge us to endeavour
to trace the equivalent which supersedes it.

The main subdivision of the <i>Apidæ</i> results from the
habits of the insects, which divides them into <sc>SOCIAL</sc>
.pn +1
.bn 179.png
and <sc>SOLITARY</sc>. The only tangible characters the social
tribes present to distinguish them from the solitary is
the glabrous surface of the posterior tibiæ, with their
lateral edges fringed with bristles slightly curved inwards,
and which form, with the slightly indented surface
of the limb, a sort of natural basket for the conveyance
of pollen or other stores to the nest. This, however,
has not been made use of as a main feature for
scientific distribution, although they might follow the
<i>Dasygasters</i>, as <i>corbiculated bees</i>, or little basket bearers,
in which case they would form as pertinent a group as
any of the rest, and the whole distribution of the bees,
<i>Apidæ</i>, would then rest upon the absence of, or the
mode in which the polliniferous organs were present.
But the wonderful attribute of their extraordinary instinct
prohibits their being treated with the rest in a
consecutive line, and renders it rationally imperative
that all the <i>Cenobites</i> should group together in a section
by themselves, and separate from the rest. Therefore
in my arrangement I have not availed myself of this
very natural character, and here indicate it, to show that
I have not passed it from not noticing it.

Although the division into social and solitary yields in
itself no tangible character whereby the insects may be
separated, it being wholly empirical, yet is it so natural
and necessary that it is impossible to gainsay it. We find
the solitary section readily resolve itself into groups or
subsections, determined by positive structural characters,
indicative of certain habits, and having a conforming
economy, besides which they are equivalents.

Thus the first subsection presents us with the brush-legged
<i>Apidæ</i> (<i>Scopulipedes</i>), which collect pollen upon
their posterior legs. These are further subdivided into
.pn +1
.bn 180.png
those which collect it upon the whole limb, viz. the coxa,
the femur, the tibia, and first joint of the tarsus, (the
<i>femoriferæ</i>), and those which gather it merely upon the
shank and basal joint of the foot (the <i>cruriferæ</i>). These
collectively form a well-defined group, and why <i>Panurgus</i>
should be separated from the brush-legged bees,
when it is a most conspicuous instance of the faculty,
even more so than any other of the <i>Scopulipedes</i>, I have
yet to learn. It is true its mode of collecting closely
resembles that practised by the <i>Andrenidæ</i>, as does also
the furniture for the purpose of its posterior legs, but
being essentially collocated with the <i>Apidæ</i> or normal
bees by its tongue, it fittingly links itself to the other
brush-legged <i>Apidæ</i> (which have hitherto been placed between
the <i>Dasygasters</i> and the Social Bees), by means of
the genus <i>Eucera</i>, by reason of its two submarginal cells,
the structure of its maxillary palpi, its mode of burrowing,
and by each being infested by a similar parasite—a
<i>Nomada</i>, which in accommodation to the size of the
sitos is the largest of the genus. <i>Nomada</i> does not
occur as a parasite upon any other of the brush-legged
bees, or indeed upon any other of the true bees at all,
which peculiarity brings these two genera into close
contiguity to all non-parasitical <i>Andrenidæ</i>, all of which
have their legs furnished with polliniferous brushes, and
upon which subfamily, exclusively of these two instances
of <i>Panurgus</i> and <i>Eucera</i>, <i>Nomada</i> is solely parasitical.

With respect to the two submarginal cells to the
wings, nature must have some reason for the limitation,
for we find it prevalent also throughout the <i>Dasygasters</i>,
or hairy-bellied bees.

The next very natural group is consistently central.
It comprises the cuckoo-bees, which are naked-legged
.pn +1
.bn 181.png
(<i>Nudipedes</i>), by reason of their parasitism, they not requiring
organs to collect what they have no occasion
to use. Their parasitism extends both upwards and
downwards, those with three submarginal cells being
parasitical upon all the brush-legged bees, whether subnormal
<i>Andrenidæ</i> or the <i>Scopulipedes</i>, those with two
submarginal cells being restricted in their parasitism to
the <i>Dasygasters</i>.

These <i>Dasygasters</i>, or hairy-bellied bees, form the
next very natural group. Their general peculiarity of
structure I have had occasion to advert to, in treating,
in a former section of the work, upon the structure of
the imago, and to which I now refer to avoid repetition.
This group contains the majority of the artisan bees,
whose habits I shall particularize when I speak of the
genera specially; but we find carpenters amongst the
<i>Scopulipedes</i>, and essentially builders amongst the <i>Cenobites</i>,
which form a further and the last of our natural
groups. A true cuckoo-bee (<i>Apathus</i>) consorts amongst
these <i>Cenobites</i>, and properly so, from many causes.
The anomaly would have been too great to have removed
it to a place amongst the <i>Nudipedes</i>, for although in
obsolete paraglossæ, and in a deficiency in the normal
number of the joints of the maxillary palpi, it resembles
some of these, its general habit and general structure,
bating that controlled by its parasitical habits, are so
like <i>Bombus</i>, that it cannot well be separated far from
the latter,—especially as we know too little of its habits
to say that it does not regularly dwell in the nest of its
sitos, which may well mistake it for one of its own community,
it resembling the species it infests so closely;
it therefore consistently associates systematically with
the temporarily social societies.
.pn +1
.bn 182.png

Having thus cursorily skimmed the surface of the
method I suggest, I have next to give my reasons for
proposing it in lieu of adopting any yet extant.

My exhibition of Kirby’s grouping, in the preceding
section, where I treat of the scientific cultivation of
British bees, will fully explain why I could not adopt
that arrangement.

Why I cannot follow Latreille’s, is, that in his last
elaboration, in his ‘Families Naturelles,’ published in
1825, which must be considered as his final view, he
does not satisfactorily divide the <i>Andrenidæ</i>, of the genera
of which he has made a complete jumble. With the
<i>Apidæ</i> in his group of <i>Dasygasters</i>, he intermixes <i>Ceratina</i>,
separating it from the group of <i>Scopulipedes</i>, where
it truly belongs by every characteristic, and he mingles
also with them the two cuckoo genera <i>Stelis</i> and <i>Cœlioxys</i>,
which are merely parasites upon these <i>Dasygasters</i>,
and can only be associated by the structural conformity
of the two submarginal cells to the superior wings, and
the length of the labrum, the latter being a character of
very secondary importance; and further, he dissevers the
<i>Scopulipedes</i> in placing <i>Panurgus</i> at the commencement
of the <i>Apidæ</i>, and the rest proximate to the social bees.

Westwood, in his modification of Latreille’s system,
certainly divides the <i>Andrenidæ</i> better than his master
had done, but he does not go far enough. Besides, he
interposes <i>Halictus</i> and <i>Lasioglossum</i>, (the latter admitted
as a genus merely out of courtesy to Curtis, who
had elevated it to that rank in his ‘British Entomology,’
although it is nothing more than a male <i>Halictus</i>),
between <i>Sphecodes</i> and <i>Andrena</i> with <i>Cilissa</i>, these
having lanceolate tongues with lacerate paraglossæ,
whereas <i>Halictus</i> has a very acute tongue, and its paraglossæ
.pn +1
.bn 183.png
are entire, as is also the case with <i>Dasypoda</i>,
from which <i>Halictus</i> is thus divided. In the <i>Apidæ</i>,
he does not separate the cuckoo-bees, but with Latreille
intermixes <i>Cœlioxys</i> and <i>Stelis</i> with the artisan bees,
although without retaining Latreille’s convenient and
suitable name of <i>Dasygasters</i>, for this group of mechanics.
The same objection I take to his <i>Scopulipedes</i> as
that expressed above, relative to Latreille’s.

Precisely the same fault I find with the <i>Andrenidæ</i> of
Smith, as that urged above with respect to Westwood’s.
He is more careful with his <i>Apidæ</i>, his <i>Cuculinæ</i> being
all genuine parasites, but he includes <i>Ceratina</i> with the
<i>Dasygasters</i>, with which it has no affinity of structure,
and only a slight analogy in the <i>form</i> merely of its abdomen
without its hairiness beneath, to that of <i>Osmia</i>,
from whose proximity he takes it to place it near
<i>Heriades</i>, when it is certainly intimately allied in every
respect with the <i>Scopulipedes</i>, and by reason of its subclavate
antennæ might suitably be brought into juxtaposition
with <i>Panurgus</i>, did not its obsolete paraglossæ
and three submarginal cells interfere with its occupying
this position. To his <i>Scopulipedes</i> the same objection
is valid as that taken to Latreille’s and Westwood’s disposition
of them. Amongst the social bees he separates
<i>Bombus</i> from <i>Apis</i>, by the intervention of <i>Apathus</i>,
which is scarcely consistent.

It is in no spirit of captiousness that these objections
are made; they are deduced from collocations whose
conspicuous incoherence is patent to the most superficial
observation. The distribution I have here introduced
has been made merely to ameliorate, and make more
cogent, what was so palpably defective and feeble.
.pn +1
.bn 184.png
.pb
.sp 4
.h2
CHAPTER IX. || <sc>A TABLE, EXHIBITING A METHOD OF DETERMINING\
THE GENERA OF BRITISH BEES WITH FACILITY.</sc>
.sp 2
.ni
<sc>The</sc> following table is constructed exclusively to facilitate,
by the most obvious characters, the recognition of
the several genera into which the family is divided; it
will, however, be incumbent upon the learner to use
some diligence in order to acquire an accurate perception
of their distinguishing characteristics.
.pi
By the present extremely artificial plan the systematic
sequence is disturbed; but the numbers, which will be
found appended to the names in the table, will show
their orderly succession.

The natural generic character which precedes the account
of each genus in the next division of the work will
give the reason, by comparison, of the order in which
“system” arranges them, and which being based mainly
upon the differences of the trophi,—although, conjunctively
with other characters, the trophi must necessarily
be studied for its explanation,—their description in the
description of the part of the imago is consequently referred
to.

Did we know exactly the uses of the component parts
.pn +1
.bn 185.png
of the trophi severally, we should be better able to determine
the legitimacy of applying them to the purpose
of indicating the natural generic character, but being
compelled, by reason of our ignorance of their several
special functions, to avail ourselves of their form, relative
proportions, and number only, uncertainty of having
caught the clue of nature’s scheme must of necessity
attend this distribution.

But as what we do know of their uses in this family
clearly indicates them to be an essential instrument
indispensable to the economy of the insect, and which
gives these organs an almost paramount importance,
their comparative construction in the several genera
would yield clear notions of the true order of succession,
were we acquainted with the relative significancy of the
various portions of the entire organ. Thus we see it
numerically most complete in what we are pleased to
suppose the least genuine bees—the <i>Andrenidæ</i>.

In my series of the genera proposed in the preceding
section, with the <i>Nudiped</i> true bee <i>Melecta</i> commences
a deficiency of either some of the joints of the maxillary
palpi, or of the paraglossæ;—throughout the artisan
bees this abridgment is conspicuous both in number
and proportion; and it culminates in what we consider
the <i>facile princeps</i>, that most wonderfully organized
of all insects—the genus <i>Apis</i>, which in its neuters has
neither paraglossæ nor maxillary palpi, the latter being
equally deficient in the male or drone, and in the queen;
and in both the male and the queen the paraglossæ are
but rudimentary.

Nature appears too mysterious in her operations to
permit us to solve these remarkable anomalies, for no
combination of the genera founded exclusively upon them
.pn +1
.bn 186.png
supplies us with Ariadne’s thread. Every such combination
breaks up more harmonious groups, and we then
retrace our steps, satisfied that we are on the wrong
road.

In some other orders of insects the cibarial apparatus
has but little bearing upon the insect’s mode of life, for
in many it is not used either for nutrition or in their
economy, or so slightly so as to admit of its being considered
of very inferior importance, although systematists—to
enhance the value of their own labours, by the
frequent difficulty, from excessive minuteness, of its examination—have
usually made it a prominent feature in
their arrangements.

That science has not widely strayed away from the
true succession and natural affinities by the main selection
of the trophi for the arrangement of the bees, seems
partially confirmed by the gradations of form or habit
that this method of treatment in general exhibits. A
higher method doubtless exists, which would give form,
number, and proportion very inferior rank in ordering
the arrangement, but at present the clue to it has not
been discovered.

These questions are indeed beyond the scope of a
work of this character, which is merely a ladder to the
fruits of learning, and the bearing of them is only hinted
at to indicate that there is much exercise for the intelligence
in the study of even this small family. The mind
that would stop in the study of nature at the knowledge
of genera and species, can be very speedily satisfied, and
one bright spring day’s successful collecting will furnish
the materials for much patient and industrious occupation.

In nature we find all things apparently blended in the
.pn +1
.bn 187.png
grandest confusion; but they all have mutual and reciprocal
bearings which give a definite purpose to the
seeming disorder, and which make each separate unit
the centre of all. But we, from our inability to grasp in
its fulness the order of this disorder, are obliged to seize
fragments and, separating them into what we conceive
to be their coherent elements, use them as exponents
of the entirety. They could not so exist in nature, but
would speedily die out, and it is only by the way in
which we find them intermingled, that they can be maintained.
Thus, as all conduce to the conservation of each,
each conduces to the conservation of all.

A large collection of natural history, composed of
every available item that can be gathered from every
kingdom of nature’s vast domain, may perhaps be compared
(<i>magnis componere parva</i>) with the constituent
parts of a most elaborately-constructed and complicated
clock, which its skilful artificer has designed and made
to record and chime the divisions of time, and to register
the days, weeks, months, and seasons, and which a
virtuoso having taken to pieces, has sorted into its details
of wheels and springs, levers and balances, chains, bells,
and hands, which told the time when its music would
peal; and arranging like to like, thinks he will thus
understand more clearly the complexity of the varied
movements. But, sadly disappointed, he finds he cannot
comprehend the combination of the intricate machinery,
although he singly admires the minute perfection of each
delicate and ingenious piece lying before him which
composed the structure, but which has now lost all
expression, his curiosity having deprived the organism of
its vitality, which is its most wonderful element.

And this is our process, for if we stop here we have
.pn +1
.bn 188.png
but an assortment of vapid machinery, no click of whose
wheels gives note of the vital hilarity of their relative
and combined effects. The final cause of creation
escapes us thus frittering it into details, which if we
merely abide by, we but loiter at the foot of Pisgah, instead
of ascending its summits to survey thence the
sunny and varied landscape, the glorious sea, and, arching
over all, the blue cope of heaven. The manifold
relations of animate and inanimate nature, which, although
they must be studied in detail, are to be appreciated
in their entirety, should stimulate the efforts of
the naturalist to conquer all impending difficulties, and
he should not permit himself to be satisfied with this
preliminary knowledge.

Although the above be the inevitable effect of distributing
nature into its component parts, it is the indispensable
precursor to the study, for the scientific
treatment is the only mode whereby, through special
study, we can arrive at the comprehension of the great
generality. We thus strive to trace the mode in which
each emanates from each; and even when this is not
absolutely tangible we may discover affinities or analogies
by structural resemblances which implicitly lead to
physiological inferences, and thence on, higher and
higher, all lending us aid to make the larger survey,
wherein we behold the concatenation of the many links
which harmonize the spiritual with the material. But
the study must be thorough, and its details are not to
be spread out before us merely as a beautiful picture-book.
They all have their place in the great ordinance
of nature, which it is for us to find. At first we can
only spell the syllables, which the study of species puts
together for us, but by degrees we shall trace the words,
.pn +1
.bn 189.png
and read the sentences: a study more abstruse but far
more pregnant than that of the Egyptian hieroglyphics,
and whose attainment is rewarded with a supremer
knowledge than is accorded by these, which exhibit
merely the legends of dead despots; but here we have
a display of the vitality of the wisdom inscribed in
gleaming characters upon the leaves of the wonderful
book of life, God’s glorious works, made manifest to
man.

Thus we should aim at the knowledge of final causes,
the apparent wisdom of whose adaptations points clearly
to the source of all—the first great Cause. A naturalist
with such large views has a wide field before him, which
with every step expands, and which alone is worthy of
engrossing the earnest attention of his intelligence, and
is in itself sufficient to absorb the profoundest contemplation.
His mind becomes thus filled with great objects,
which charm it with their beauty and feed it with the
complexity of their intricate combinations, whose earnest
development is an affluent stream of perpetual instructive
occupation. With Newton we may say: “We
everywhere behold simplicity in the means, but an inexhaustible
variety in the effects,” resulting all from the
luminous wisdom of prearranged design.

The humiliation which attends the sentiment of the
utter inability and incompetency of the mind to grasp
the intricacy and vastness of nature, is consoled by the
redundant proofs the contemplation yields of a supreme
and benevolent Providence presiding over all things, and
thence we derive the comfortable and supporting assurance,
in the fickle waywardness and vicissitudes of a harassed
and anxious life, that a benevolent eye is ever
watchfully awake; for the naturalist everywhere beholds
.pn +1
.bn 190.png
that omnipotently wise and loving Providence in active
operation throughout nature.

No study like natural history, pursued in a humble
and docile spirit, so harmoniously elicits the religion of
the soul, or than which so fitly prepares it to enter, by
the pathway of the works of God, the august temple of
His revealed Word.

But to return: what we call science is the mere accidence
of nature, which in fact aggravates our infirmity
by permitting our intelligence to attempt to grasp,
through the various details, their intricate combinations.
But as truth sooner arises out of error if methodically
pursued, and its results recorded, than out of confusion
and guesswork, theories based upon observation, however
inaccurate at first, ultimately lead up to the certain
acquisition of the truth itself.

.hr 20%
.nf c
AN EASY DISTRIBUTION OF THE BEES,
<s>THE NUMBERS REFERRING TO THE SCIENTIFIC SERIES.</s>

<sc>Andrenidæ</sc> (Subnormal Bees).

<sc>TONGUE SHORTER THAN THE MAXILLÆ, PORRECT.</sc>

<i>Posterior tibiæ clothed with hair to convey pollen.</i>
.nf-
.in 4
.nf l
Two submarginal cells.
  Posterior legs very robust, polliniferous
    hair on tibiæ and plantæ
    dense but short                    - <b><sc>Macropis</sc> (7).</b>
  Posterior legs slender; polliniferous
    hair on femora, tibiæ, and plantæ
    dense and very long                - <b><sc>Dasypoda</sc> (8).</b>
.pn +1
.bn 191.png

Three submarginal cells to the wings.
  Abdomen truncated at base            - <b><sc>Colletes</sc> (1).</b>
  Abdomen ovate.
    Abdomen entire at apex; maxillary
      palpi as long or longer than
      the maxillæ                      - <b><sc>Andrena</sc> (4).</b>

     Abdomen entire at apex; maxillary
       palpi half the length of the
       maxillæ       - <b><sc>Cilissa</sc> (5).</b>
    Abdomen with a vertical incision
      at the apex       - <b><sc>Halictus</sc> (7).</b>
.nf-
.nf c
<i>Posterior tibiæ without hair to convey pollen.</i>
.nf-
.nf l
Two submarginal cells to the wings.    - <b><sc>Prosopis</sc> (2).</b>
Three submarginal cells to the wings. - <b><sc>Sphecodes</sc> (3).</b>
.nf-
.nf c
<sc>Apidæ</sc> (Normal Bees).
.nf-
.in 6
.ti -4
<sc>Tongue as long or longer than the maxillæ, inflected
beneath, and covered by the maxillæ in repose.</sc>
.in 0
.nf c
<i>Without polliniferous organs.</i>
.nf-
.in 4
.nf l
Two submarginal cells to the wings.
  Abdomen at apex rounded              - <b><sc>Stelis</sc> (17).</b>
  Abdomen at apex conical              - <b><sc>Cœlioxys</sc> (18).</b>
Three submarginal cells to the wings.
  Abdomen lanceolate                   - <b><sc>Nomada</sc> (14),</b>
  Abdomen subtruncate at base.
    Abdomen obovate, thorax glabrous   - <b><sc>Epeolus</sc> (16).</b>
    Abdomen subconical, thorax hirsute - <b><sc>Melecta</sc> (15).</b>
    Entire body densely hairy          - <b><sc>Apathus</sc> (25).</b>
.nf-
.in 0
.nf c
<i>With polliniferous organs.</i>
.nf-
.in 4
.nf l
Pollen conveyed on the venter.
  Two submarginal cells to the wings of all.
.pn +1
.bn 192.png
  Abdomen subclavate.
    First three joints of labial palpi
      continuous, terminal joint inserted
      before apex of third             - <b><sc>Chelostoma</sc>\ (21).</b>
    First two joints of labial palpi
      continuous, two last inserted
      before the apex of the second    - <b><sc>Heriades</sc> (22).</b>
  Abdomen obovate, rounded at apex     - <b><sc>Osmia</sc> (24).</b>
  Abdomen truncated at base.
    Segments slightly constricted,
      and not spotted with colour      - <b><sc>Megachile</sc> (19).</b>
    Segments not constricted,
      spotted with yellow              - <b><sc>Anthidium</sc> (20).</b>
Pollen conveyed on the posterior legs.
  Two submarginal cells to the wings.
    Abdomen lanceolate; antennæ
      clavate; posterior legs covered
      with long hair                   - <b><sc>Panurgus</sc> (9).</b>
    Abdomen obovate; antennæ filiform;
      posterior legs covered
      densely with short hair          - <b><sc>Eucera</sc> (10).</b>
  Three submarginal cells to the wings.
    Short dense hair on the whole posterior
      tibiæ externally.
        Abdomen obovate; first joint of
          labial palpi twice as long as
          second                       - <b><sc>Anthophora</sc>\ (11).</b>
        Abdomen subrotund; first joint
          of labial palpi six times as
          long as the rest             - <b><sc>Saropoda</sc> (12).</b>
    Long hair, but loose, on the entire
      posterior tibiæ, externally
      and internally.
        Abdomen subclavate             - <b><sc>Ceratina</sc> (13)</b>
    Curved hair fringing the edge only
.pn +1
.bn 193.png
    of the posterior tibiæ, the
    centre glabrous.
  Body densely hirsute, spurs to
    all the tibiæ       - <b><sc>Bombus</sc> (26).</b>
  Body subpubescent, no spurs
    to the posterior tibiæ              - <b><sc>Apis</sc> (27).</b>
.nf-
.in 0
.hr 20%

It will be desirable to add a few observations to the
preceding table to facilitate its use, and because, as
many of the characters upon which it is framed are exclusively
those of the female, it is necessary to point out
the differences of their males, that the sexes of the
genera may be duly recognized and associated.

It may be first noticed generally that the antennæ,
in the males, are not usually geniculated at the scape,
which is nearly always the case in the opposite sex, and
they are also, with rare exceptions, always longer than
those of their females. In <i>Colletes</i>, <i>Prosopis</i>, <i>Dasypoda</i>,
<i>Panurgus</i>, <i>Ceratina</i>, <i>Nomada</i>, <i>Melecta</i>, <i>Epeolus</i>, <i>Stelis</i>,
and <i>Anthidium</i>, the habit or colouring of the males is
so similar to that of the females, that their genus may
be thus at once determined, and, in fact, the brief characters
in the table will embrace them.

The male Eucera can be distinguished from those of
<i>Anthophora</i> and <i>Saropoda</i>, both by the differences in the
number of the submarginal cells of the wing, and by the
extreme length of its antennæ, whence the genus derives
its name. In <i>Andrena</i> and <i>Cilissa</i>, the males have
usually lanceolate bodies. In the latter genus there
will be no difficulty in associating the legitimate partners;
but in <i>Andrena</i>, although general habit will usually
.pn +1
.bn 194.png
bring the male within the boundary of the genus, nothing
but experience, or specific description will associate the
sexes correctly, there being in many cases an extraordinary
discrepancy between them. These two genera
themselves also can scarcely be distinguished apart, excepting
by means of their trophi; <i>Cilissa</i>, however, in
general habit greatly resembles the genus <i>Colletes</i>, especially
the <i>Cilissa tricincta</i>, which might, upon a superficial
glance, be almost mistaken for one of them.

The male <i>Halicti</i> have long cylindrical bodies and
long antennæ, but from the male <i>Chelostoma</i>, which has
a very similarly shaped body also and long antennæ,
they may be distinguished by the differences in the number
of the submarginal cells; and from those of <i>Sphecodes</i>,
by the antennæ, which, in the latter are not relatively
so long, and are usually moniliform. The thorax
of these is also less pubescent, and the tinge of the red
colour of their abdomen is different from that of the red
male <i>Halicti</i>.

The males of <i>Cœlioxys</i> can be readily distinguished
from those of <i>Megachile</i>, by the spinose apex of their
abdomen. In <i>Megachile</i>, general habit will bring the
males within the precincts of their genus, as well as their
largely dilated anterior tarsi in some of the species.

A difficulty similar to what is found in the distinction
between <i>Andrena</i> and <i>Cilissa</i>, arises in the separation of
<i>Chelostoma</i> from <i>Heriades</i>, and which we shall again
meet with in drawing the line between <i>Anthophora</i> and
<i>Saropoda</i>. The difference can only be detected by examining
the trophi, but a pin and a little patience will
elucidate the separation. The males in all but two
species of <i>Anthophora</i> may be readily associated with
their partners; but in these two the females are entirely
.pn +1
.bn 195.png
black, and so hirsute as to have led Ray (wanting the
knowledge of the use of the trophi and posterior shanks)
to unite the one he knew with his <i>Bombylii</i>; their males
are fulvous, and the latter have a remarkable elongation
of the intermediate tarsi, from one of the joints of which
also a tuft of hair or a loose lateral fringe projects, giving
them thus a wider expansion, and the use of which
is prehensile, the same as that for which the anterior
tarsi in some of the <i>Megachiles</i> and in our single <i>Anthidium</i>
receive their dilatation. This structure has also
the effect of adding very considerably to the elegance of
their appearance when they are in fine condition.

The male <i>Apathi</i> can only be distinguished from the
male <i>Bombi</i> by familiarity with specific characteristics,
or by the examination of the trophi. But the former
is the more certain mode of separation, as the trophi
in <i>Bombus</i> vary in some species, but not sufficiently to
authorize generic subdivison. General appearance will
mark where they approximately belong. The length of
their antennæ sufficiently distinguishes them as males,
and they may be taken with impunity in the fingers
from flowers for examination, being, like all the male
aculeate <i>Hymenoptera</i>, unarmed with stings. The female
<i>Apathi</i> may be superficially distinguished from the female
<i>Bombi</i>, which they most resemble, exclusively of the
generic characters of the convex and subpubescent external
surface of the posterior tibiæ and the trophi, also
by their abdomen being considerably less hirsute than
that of the genuine <i>Bombi</i>, in which it is entirely covered
with dense shaggy hair, whereas in <i>Apathus</i> there is a
broad disk upon its surface nearly glabrous. If I remember
rightly, it is the male <i>Apathi</i> only, and not the
male <i>Bombi</i>, which emit on capture a pleasantly fragrant
odour of attar of roses.
.pn +1
.bn 196.png

The table will suffice for distinguishing the male <i>Apis</i>
from all other male <i>Apidæ</i>, and which has a further
peculiarity exhibited by no other of our native bees, in
the conjunction upon the vertex of the compound eyes,
in front of which, upon the frons, the simple eyes or
ocelli are placed in a very slightly-curved line.

These indications are enough to enable the beginner
to work his way smoothly, and a little practice will soon
render these observations superfluous.

The economy of nature is so perfect that wherever
we can trace a difference, we may assume that a reason
and a purpose exist for the variation. Thus we do not
know why some bees have three submarginal cells to
their wings, and others only two. Nor do we know
what governs their variety of shape. The deficiency we
might think implied inferiority; but this cannot be, for
those with most frequently the smaller number, viz. the
artisan bees, are, in the majority of cases, the most
highly endowed, and have the most special habits.

In the relative numbers of the maxillary and labial
palpi, there are remarkable differences, the reason for
which we cannot trace, for, as before observed, we do
not know even their function, which would perhaps
guide us to other views. Their normal numbers are six
maxillary, and four labial palpi. The latter take remarkable
relative development and peculiarity of insertion
and form, especially in the <i>Apidæ</i>; but throughout
the whole series of our bees, they are never reduced to
fewer than their normal number, whereas the maxillary
palpi never have similarly large development of structure,
and are variously modified in number and consistency
from the typical or normal condition.

Thus in <i>Eucera</i> and <i>Melecta</i> there are but five joints;
.pn +1
.bn 197.png
in <i>Osmia</i> and <i>Saropoda</i>, four; in <i>Chelostoma</i> and <i>Cœlioxys</i>,
three; in <i>Anthidium</i> and <i>Megachile</i>, etc., two;
and in <i>Epeolus</i> and <i>Apis</i> but one.

In this collocation no incidental peculiarity beyond
diversity is apparent, for in the first instance a parasite
and a bee not parasitical are associated; and in the last,
a parasite is associated with the bee which has the most
elaborate economy, and the most largely developed instinct
of all known insects. Nor are, in any case, those
parasites associated by these means with their own sitos,
or insect upon which they are parasitical.

Thus encouragement attends the beginner at the very
outset of his study; and the prospect of a wide field for
discoveries, in many directions, lies open to him, to
excite his curiosity and to stimulate his industry to the
pursuit of higher aims than the mere accumulation of
species.
.pn +1
.bn 198.png
.pb
.sp 4
.h2
CHAPTER X. || <sc>THE SCIENTIFIC ARRANGEMENT AND DESCRIPTION\
OF THE GENERA, WITH LISTS OF OUR NATIVE SPECIES\
AND AN ACCOUNT OF THE HABITS AND ECONOMY\
OF THE INSECTS, WITH INCIDENTAL OBSERVATIONS\
SUGGESTED BY THE SUBJECT.</sc>
.sp 2
.ni
<sc>I now</sc> proceed to the treatment and description of the
genera severally, and the enumeration of the species in
due scientific consecutive order.
.pi
The generic names adopted are those of the first
describers of the genera; but the generic characters
given by them could not be employed, they having been
usually framed to suit special purposes.

All the generic characters introduced into this work
are therefore quite original, and have been made from
a very careful autoptical examination of the insects
themselves.

The synonymy added to the lists of species is limited
to the species described in Mr. Kirby’s work, where he
is not the first describer, or to those of such other
English works wherein the species may have been described
in ignorance of its previous registration.

The observations appended, wherein the habits of the
insects are described, will be found to embrace discursive
.pn +1
.bn 199.png
subjects suggested by the matter in hand, and here
a dry didactic style has been purposely avoided, as in
the majority of cases they record the personal experiences
or notions of and hints from an old practical entomologist.
.sp 2
.nf c
<sc>Class</sc> INSECTA METABOLIA, <i>Leach</i>.

Order <b>HYMENOPTERA</b>, <i>Linnæus</i>.

<sc>Division</sc> <i>ACULEATA</i>, Leach.

<s>Antennæ in male with 13 joints, in female with 12. Abdomen in\
male with 7 segments, in female with 6.</s>

<sc>Family</sc> MELLICOLLIGERÆ (Honey collectors), <i>Shuck</i>.

Subfamily 1. <sc>Andrenides</sc> (Subnormal Bees), <i>Leach</i>.

<i>Syn.</i> Genus <sc>Melitta</sc>, <i>Kirby</i>.

<s><i>The maxillary palpi always six-jointed.</i></s>

Section 1. <i>With lacerate paraglossæ.</i>

Subsection <i>a</i>. <sc>Linguæ emarginatæ</sc> (with emarginate\
tongues).

<s><i>Syn.</i> <sc>Obtusilingues</sc>, <i>Westw.</i></s>

<i>Three submarginal cells to the wings.</i>

Genus 1. <sc>Colletes</sc>, <i>Latreille</i>.

(#Plate I.:PLATE-I# fig. 1. ♂ ♀.)

<sc>Melitta</sc> * <i>a</i>, Kirby.
.nf-
.sp 2
<i>Gen. Char.</i>: <sc>Head</sc> transverse, flattish;
<i>ocelli</i> in an open triangle on the vertex; <i>antennæ</i>
not geniculated, but slightly curved, filiform, short; joints,
excepting the basal or scape, which is as long as five of the
rest and slightly curved, nearly equal; <i>face</i> beneath and
within the insertion of the antennæ, slightly protuberant,
laterally flat or concave; <i>clypeus</i> convex, margined
anteriorly, entire; <i>labrum</i> transverse, slightly produced
in the centre in
.pn +1
.bn 200.png
front, and the process rounded; <i>mandibles</i> obtuse, subbidentate;
<i>cibarial apparatus</i> short; <i>tongue</i> deeply
emarginate and bilobate, the lobes fringed with short
setæ; <i>paraglossæ</i> half the length of the tongue, abruptly
terminating and lacerate, and setose at the apex; <i>labial
palpi</i> much shorter than the paraglossæ, four-jointed, the
joints equal and each subclavate; <i>labium</i> about the same
length as the tongue, its inosculation acutely angulated;
<i>maxillæ</i> broad, lanceolate, the length of the tongue;
<i>maxillary palpi</i> six-jointed, not so long as the maxillæ,
the two basal joints the longest, the rest equal, short, and
subclavate, the apical one rounded. <sc>Thorax</sc> subquadrate,
very pubescent, the prothorax inconspicuous; <i>scutellum</i>
transversely triangular or semilunate, <i>postscutellum</i>
lunulate; <i>metathorax</i> abruptly truncated, and densely pubescent,
especially laterally, for the conveyance of pollen;
<i>wings</i> with three submarginal cells and a fourth slightly
commenced, the second and third each receiving about
their centre a recurrent nervure; <i>legs</i> all pubescent, the
anterior and intermediate on their external surface chiefly,
their <i>plantæ</i> also setose; the posterior <i>coxæ</i>, <i>trochanters</i>,
<i>femora</i>, and <i>tibiæ</i> very hirsute, especially beneath, their
<i>tarsi</i> entirely setose; <i>claws</i> bifid. <sc>Abdomen</sc> truncated
at the base, subconical with a downward bias, the <i>segments</i>
with bands of closely decumbent nap, and the surface
of all more or less deeply or delicately punctured;
the basal segment in the centre, beneath, with a longitudinal
tuft of long hair.

The <sc>MALE</sc> differs in having the <i>mandibles</i> more distinctly
bidentate, and in being less densely pubescent,
especially upon the legs. In general aspect it is very
like its female.

<i>Note.</i> The genus <i>Cilissa</i> has, superficially observed,
.pn +1
.bn 201.png
much of the habit of <i>Colletes</i>, particularly in the male of
<i>Cilissa tricincta</i>.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>succincta</i>, Linnæus, ♂ ♀. 3½-5½ lines.
   <i>succincta</i>, Kirby.
   <i>fodiens</i>, Curtis.
2. <i>fodiens</i>, Kirby, ♂ ♀. 3½-4½ lines.
   <i>pallicincta</i>, Kirby, ♀.
3. <i>marginata</i>, Linn., ♂ ♀. 3-4 lines.
4. <i>Daviesiana</i>, Kirby, ♂ ♀. 3½-4½ lines.
   (#Plate I.:PLATE-I# fig. 1 ♂ ♀.)
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus is named from <i>κολλήτης</i>, <i>one that plasters</i>,
in allusion to the habits of the insects, which will be described
below. The female insects themselves have, at
the first glance, very much the appearance of the working
honey-bee, but they are considerably smaller, and,
upon a very slight inspection, they are found to be exceedingly
distinct. The respective males of the species
are conspicuously smaller than their females, but their
specific characteristics are very much alike, and there is
some difficulty in separating and determining the species.
One strong peculiarity, marking all of them, is that the
segments of the abdomen are banded with decumbent,
hoary or whitish down, in both sexes, and the determination
of the species lies chiefly in the variations of these
bands, and in the almost entire absence or conspicuous
presence of minute punctures covering the segments.
The females are very active collectors of pollen, and return
from their excursions to obtain it, very heavily
laden to their nests. I am not sure that all the species
are not gregarious, to use this term in an acceptation
.pn +1
.bn 202.png
somewhat different from its usual application, for here,
and whenever used in entomology, it is meant to signify
that they burrow collectively in large communities, forming
what is called their metropolis, although each bores
its independent and separate tube, wherein to deposit its
store of eggs. The males, neither in these insects nor
throughout the whole family of the bees, participate at
all in the labours required for the preservation and
nurture of the progeny, a duty that wholly devolves upon
the maternal solicitude of the female,—these males
having fulfilled their mission, which is not perhaps restricted
to their sexual instinct, but may also be conducive
to the grand operation of the family in the economy
of nature, viz. the fertilization of the flowering plants,
flit from blossom to blossom, and thus convey about the
impregnating dust. They may also be often seen basking
in the sunshine upon the leaves of shrubs, and
thence they become lost or dispersed or the prey of their
many enemies,—birds or insects, which are always on
the alert in search of ravin.

The aspect selected by the females for their burrows,
varies according to the species. Some choose a northern,
and others a southern aspect; thus, the <i>C. succincta</i>
seems to prefer the former, and the <i>C. fodiens</i> the latter,
as does also the <i>C. Daviesana</i>; and where they burrow
they congregate in enormous multitudes. The mortar
interstices of an old wall, or a vertical sand-rock, which,
from exposure, is sufficiently softened for their purpose,
are equally agreeable to them; nor have they any objection
to clay banks.

In these localities each individual perforates a cylindrical
cavity, slightly larger than itself, and which it
excavates to a depth of from eight to ten inches, or even
.pn +1
.bn 203.png
sometimes less. Now comes into operation the use of
the peculiarly-formed tongue with which nature has
furnished them, and described above in the generic character.
These cells are occupied by a succession of six,
or eight, or even sometimes no more than two, three, or
four cartridge- or thimble-like cases, in each of which
is deposited a single egg with a sufficiency, taught the
creature by its instinct, of a mingled paste of honey and
pollen, for the full nurture and development of the vermicle
that will proceed from the egg upon its being hatched,
and wherein this larva, having consumed its provender,
becomes transformed into the pupa, and by the continuance
of nature’s mysterious operations, it speedily
changes into the perfect insect. But the beauty with
which these little cells are formed transcends conception.
Each consists of a succession of layers of a membrane
more delicate than the thinnest goldbeater’s skin, and
more lustrous than the most beautiful satin. In glitter
it most resembles the trail left by the snail, and is
evidently, from all experiments made, a secretion of the
insect elaborated from some special food it consumes, and
by means of its bilobated tongue, which it uses as a trowel,
it plasters with it the sides and the bottom of the tube
it has excavated to the extent necessary for one division.
As this secretion dries rapidly to a membrane it is
succeeded by others, to the number of three or four,
which may be separated from each other by careful
manipulation. It then stores this cell, deposits the egg,
and proceeds to close it with a covercle of double the
number of membranes with which the sides are furnished,
and continues with another in a similar manner,
until it has completed sufficient to fill the tubular cavity,
which, after closing the last case similarly to the rest, it
.pn +1
.bn 204.png
stops up the orifice with grains of sand or earth. The
food stored up is subject to fermentation, but this does
not appear to be prejudicial to the larva, which first consumes
the liquid portion of the store and then drills
into the centre of the more solid part, and continues
enlarging this little cylinder until increasing in growth
by its consumption, it itself fills the cavity, and thus
supplies the lateral stay or prop which, by means of the
stored provender, was previously prevented from falling
in. It has not been ascertained what number of eggs
each insect lays, or whether it bores more than one
tube, but it is presumable that it may do so, and possibly
thus, from the numbers annually produced, for
there are two broods in the year, colonies are thrown off
which gradually form another metropolis somewhere in
the vicinity, although the majority continue to occupy
the old habitat from year to year. But the number of
these insects is kept within due limits by the individual
abundance of the parasites that infest them, and by the
unsparing and unflinching attacks of earwigs, which consume
all before them,—perfect insect, larva, and provender.
The two most conspicuous parasites they have,
are the beautiful little bee, <i>Epeolus variegatus</i>, the young
of which is sustained, as in all bee-parasitism, by consuming
the food stored for the sustenance of the young
of the <i>Colletes</i>; and the other is the little dipterous
<i>Miltogramma punctata</i>, whose larva, evolved from the
egg deposited in the cell, feeds upon the larva of the
<i>Colletes</i>, or possibly upon that of the <i>Epeolus</i>, which
otherwise would seem to have no check to its fertility,
excepting that it may be subdued by the <i>Forficulæ</i>.

These insects are to be found during the spring and
summer months, and throughout the southern counties,
.pn +1
.bn 205.png
although some species are extremely local. Some occur
also in the north of England and in Ireland. I am not
prepared to say what flowers they prefer, for I have
never captured them on flowers, but they have been
found frequenting the Ragwort, and Curtis took a species
at Parley Heath, in Hampshire, on the Bluebell
(<i>Campanula glomerata</i>). They form a remarkable instance
of an artisan bee, but so only in its habits, amongst
the <i>Andrenides</i>.
.hr 10%
.nf c
<s><i>Two submarginal cells to the wings.</i></s>
Genus 2. <sc>Prosopis</sc>, <i>Fabricius</i>.
(#Plate I.:PLATE-I# fig. 2 ♂ ♀.)
<sc>Melitta</sc> * <i>b</i>, Kirby.—<sc>Hylæus</sc>, Latreille.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, flattish; <i>ocelli</i> in
an open triangle on the vertex; <i>antennæ</i> geniculated, the basal
joint of the flagellum as long as the second, and both subclavate, the
rest of the joints short and equal; <i>face</i> flat, slightly
protuberant between the insertion of the antennæ, and distinguished from
the clypeus by a suture; <i>clypeus</i> transversely quadrate, slightly
widening gradually to the apex, marginate; <i>labrum</i> transverse,
obovate, fringed with setæ; <i>mandibles</i> broad at apex, tridentate;
<i>cibarial apparatus</i> short; <i>tongue</i> broad, subemarginate and
fringed with short hair; <i>paraglossæ</i> very slightly longer than the
tongue, their apex broadly rounded and fringed with hair; <i>labial
palpi</i> as long as the tongue, joints subequal, gradating in
substance, subclavate; <i>labium</i> about as long as the tongue,
pyramidal at its apical inosculation; <i>maxillæ</i> about as long as
the tongue, slightly lanceolate, fringed with short hair;
.pn +1
.bn 206.png
<i>maxillary palpi</i> rather longer than the maxillæ, with
six joints, the basal joint robust and slightly constricted
in the middle, the third joint linear and the longest, the
remainder gradually decreasing in length and substance.

<sc>Thorax</sc> subquadrate; <i>prothorax</i> transverse, linear,
angulated at the sides; <i>mesothorax</i> with its <i>bosses</i> protuberant;
<i>scutellum</i> and <i>post-scutellum</i> semilunulate;
<i>metathorax</i> abruptly truncate, and longitudinally carinated
in the centre; <i>wings</i> with two submarginal cells,
a third slightly indicated, the first recurrent nervure
springing from the extreme apex of the first submarginal
cell, closely to the first transverso-cubital nervure, and
the second closely before the termination of the second
submarginal cell; <i>stigma</i> of the wing large and distinct;
<i>legs</i> wholly destitute of polliniferous hair, the terminal
joint of the tarsus as long as the two preceding; <i>claws</i>
bifid; <sc>Abdomen</sc> subtruncate at the base, subconical
with a downward bias.

The <sc>MALE</sc> differs in having the <i>mandibles</i> distinctly
bidentate, the external tooth acute; the <i>antennæ</i> are
very slightly longer and more curved, and their colouring
is more intense and more widely distributed. These
insects are glabrous, generally intensely black, dull on
the head and thorax, but shining on the abdomen, and
are more or less thickly punctured, and they are usually
gaily marked with yellow, citron, or red, especially on
the face, thorax, and legs.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>annulatus</i>, Fab., ♂ ♀. 2½-3 lines.
   <i>annulatus</i>, Kirby.
2. <i>dilatata</i>, Kirby, ♂. 3 lines. (#Plate I.:PLATE-I# fig. 2 ♂.)
   <i>Hylæus dilatatus</i>, Curtis.
.pn +1
.bn 207.png
3. <i>annularis</i>, Kirby, ♂ ♀. 2½-3 lines.
4. <i>hyalinata</i>, Smith, ♂ ♀. 2-3 lines.
5. <i>signata</i>, Panzer, ♂ ♀. 3-3½ lines. (#Plate I.:PLATE-I# fig. 2 ♀.)
   <i>signata</i>, Kirby.
6. <i>cornuta</i>, Kirby, ♂ ♀. 3-3¼ lines.
7. <i>varipes</i>, Sm., ♂ ♀. 1½ lines.
8. <i>variegata</i>, Fab., ♂ ♀. 2-3 lines.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus is named from <i>προσωπὶς</i>, apparently in
allusion to its seemingly masked face, most of the species
having yellow markings more or less conspicuous upon
the face.

It is the least pubescent of any of the bees, even
less so than those confirmed parasites, the genera <i>Nomada</i>
and <i>Stelis</i>, thus further tending to corroborate its
apparently parasitical habits, for none of the truly pollinigerous
bees are so destitute of hair. The ground-colour
of the species is intensely black, variously decorated
on the face, thorax, and legs, with markings of
different intensities of yellow; but one of our species,
the <i>P. variegata</i>, is also gaily marked with red. Indeed
exotic species, and especially those of warm climates,
are often very gay insects.

They have usually been considered as parasitical insects,
from their being unfurnished with the customary
apparatus of hair upon the posterior legs, with which
pollinigerous insects are generally so amply provided.
In contradiction to their parasitism, it is asserted that
they have been repeatedly bred from bramble sticks;
this circumstance is no proof of the fact of their not
.pn +1
.bn 208.png
being parasitical, for many bees, for instance <i>Ceratina</i>,
<i>Heriades</i>, etc., nidificate in bramble sticks, and they
may have superseded the nidificating bee by depositing
their ova in the nests of the latter; although it certainly
is a remarkable circumstance that some one of these
bees has never escaped destruction in the several instances
in which these have been thus bred. It is also said that
their nests contain a semi-liquid honey. The fact of the
larva of a wild bee being nurtured upon any other provender
than a mixture of pollen and honey, does not
elsewhere occur, and it would seem to contradict the
function this family is ordained to exercise, by conveying
pollen from flower to flower, and which besides, in every
other case, constitutes the nutritive aliment of the larva.
But then, again, the structure of its tongue, which resembles
somewhat that of <i>Colletes</i> in lateral expansion,
and with which it would be provided for some analogous
purpose, seems to contradict parasitical habits, although
St. Fargeau asserts that it is parasitical upon this genus,
and if so, although it has not been observed in this
country, the analogous structure of the tongue might be
perhaps explained.

But notwithstanding this deficiency of positive characters,
from the absence of pollinigerous organs, nature
is not to be controlled by laws framed by us upon the
imperfect induction of incomplete facts, for if it be incontestable
that this genus is constructive and not parasitical,
the riddle presented by this structure of its
tongue is at once solved, for without any affinity beyond
that single peculiarity with <i>Colletes</i>, it presents an anomaly
of organization which cannot be accounted for but
by its application to a use similar to what we find it
applied in that extraordinary genus,—a use that could
.pn +1
.bn 209.png
not be extant in a parasite. In <i>Colletes</i> it is the concomitant
of as ample a power of collecting pollen as any
that we find exhibited throughout the whole range of
our native bees, but in <i>Prosopis</i> it is concurrent with a
total deficiency of the ordinary apparatus employed for
that purpose.

One of the species of this genus has been found near
Bristol, with the indication of a <i>Stylops</i> having escaped
from it, which is a further extension of the parasitism
of that most extraordinary genus, but the <i>Stylops</i> frequenting
it has not yet been discovered, which would
doubtless present a new species, therefore an interesting
addition to the series already known.

These insects are not at all uncommon in some of the
species during the latter spring and summer months,
and they frequent the several <i>Resedas</i>, being very fond
of Mignonette. They are also found upon the <i>Dracocephalum
Moldavica</i>, and occur not unfrequently upon the
Onion, which in blossom is the resort of many interesting
insects. The majority of them emit when captured,
and if held within the fingers, a very pungent citron
odour, exceedingly refreshing on a hot day, in intense
sunshine. Some of the species are rare, especially those
very highly coloured, as is also the <i>P. dilatata</i>, so named
from the peculiar triangular expansion of the basal joint
of the antennæ, the female of which is not known or
possibly has only been overlooked or not identified.
The <i>P. varipes</i> and <i>P. variegata</i>, which are the most
richly coloured, occur in the west of England, and
in one, the <i>P. cornuta</i>, the clypeus is furnished with a
tubercle.
.pn +1
.bn 210.png
.hr 10%
.nf c
<s>Subsection <i>b</i>. <sc>Linguæ lanceolatæ</sc> (with\
lancet-shaped tongues).</s>
Genus 3. <sc>Sphecodes</sc>, <i>Latreille</i>.
(#Plate I.:PLATE-I# fig. 3 ♂♀.)
<sc>Melitta</sc> ** <i>a</i>, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, linear, fully as wide as
the thorax, flat, with a slightly convex tendency; <i>ocelli</i>
in a triangle; <i>antennæ</i> short, scarcely geniculated; <i>face</i>
beneath the insertion of the antennæ, protuberant;
<i>clypeus</i> transverse, margined, convex; <i>labrum</i> transversely
ovate, deeply emarginate, in the centre in front;
<i>mandibles</i> bidentate, obtuse, the external tooth projecting
much further than the second; <i>tongue</i> short, lanceolate,
fringed with setæ; <i>paraglossæ</i> not so long as
the tongue, abruptly terminated, and setose at the extremity;
<i>labial palpi</i> not so long as the paraglossæ;
the joints comparatively elongate and slender, and
decreasing towards the apex in length and substance;
<i>labium</i> rather longer than the tongue, its inosculation
straightly transverse; <i>maxillæ</i> about the length of the
tongue, broad and lanceolate; <i>maxillary palpi</i> six-jointed,
the first joint shorter and less robust than the
second, which is also shorter and less robust than the
third, which is the longest and most robust of all, the
terminal joints more slender, and declining gradually in
length. <sc>Thorax</sc> ovate; <i>prothorax</i> linear, produced into
a sharp tooth on each side; <i>mesothorax</i> with longitudinal
lateral impressed lines; <i>bosses</i> acutely protuberant;
<i>scutellum</i> quadrate; <i>postscutellum</i> inconspicuous; <i>metathorax</i>
slightly gibbous; <i>wings</i> with three submarginal
cells, and a fourth slightly commenced, the second
narrow, forming a truncated triangle, and receiving the
.pn +1
.bn 211.png
first recurrent nervure in its centre, the second recurrent
nervure springing from just beyond the centre of the
third submarginal cell; <i>legs</i> slightly but rigidly spinose
and setose; <i>claws</i> bifid. <sc>Abdomen</sc> ovate.

The <sc>MALES</sc> differ, in having the antennæ longer and
sometimes moniliform, the lower part of the <i>face</i> and
<i>clypeus</i> usually covered with a dense short silvery decumbent
pubescence, and they have the <i>metathorax</i> truncated
at its base; in other respects they greatly resemble their
females.

The insects of this genus may be called glabrous, their
pubescence being so slight and scattered, they usually
shine brightly, and are more or less deeply punctured; and
the abdomen is always partially or entirely of a bright
ferruginous red, sometimes verging into fuscous or pitchy.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>gibbus</i>, Linnæus, ♂♀. 3-4½ lines.\
(#Plate I.:PLATE-I# fig. 3 ♂♀).
   <i>sphecoides</i>, Kirby, ♀.
   <i>monilicornis</i>, Kirby, ♂.
   <i>picea</i>, Kirby, ♂.
2. <i>Geoffroyella</i>, Kirby, ♂♀. 1-3 lines.
   <i>divisa</i>, Kirby, ♂.
3. <i>fuscipennis</i>, Germar, ♂♀. 4½-6 lines.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus is named from <i>σφὴξ</i>, a wasp, from its
apparent resemblance to some of the sand wasps.

They are not uncommon insects, and I have found
them abundant in sandy spots sporting in the sunshine
upon the bare ground, where they run about with great
activity, the females chiefly, the males the while disporting
.pn +1
.bn 212.png
themselves upon any flowers that may be adjacent,
and they are especially fond of Ragwort. Their
prevalent colours are black and red, the latter occurring
only on the abdomen in different degrees of intensity
and extension, sometimes occupying the whole of that
division of the body, and sometimes limited to a band
across it. Much difficulty attaches to the determination
of the species from the characters which separate
them being extremely obscure, for it is not safe to depend
upon the differences of the arrangement of colour
upon them, as it varies infinitely; nor can their relative
sizes be depended upon as a clue, for in individuals
which must be admitted to be of the same species, size
takes a wider extent of difference than in almost any of
the genera of bees. St. Fargeau, who maintains the
parasitism of the genus, accounts for it by saying that
in depositing their eggs in the nests of the <i>Andrenæ</i>,
<i>Halicti</i>, and <i>Dasypoda</i>, the <i>Sphecodes</i> resorts to the
burrows of the species of these genera indifferent to
their adaptation to its own size, and thus from the
abundance or paucity of food so furnished to its larvæ,
does it become a large or a small individual. Westwood
says the species are parasitical upon Halictus.
Latreille says they are parasites. They are certainly
just as destitute of the pollinigerous apparatus as the
preceding genus. Mr. Thwaites once thought he had
detected a good specific character in the differing lengths
of the joints of the antennæ, but I believe he never
thoroughly satisfied himself of its being practically
available. At all events great difficulty still attaches to
their rigid and satisfactory determination. There is an
array of entomologists who deny their being parasites.
Mr. Kirby says they form their burrows in bare sections
.pn +1
.bn 213.png
of sandbanks exposed to the sun, and nine or ten inches
deep, and which they smooth with their tongues. But
then, in impeachment of the accuracy of his observation,
he further supposes there are three sexes, founding his
statement upon what Réaumur remarks of having observed
pupæ of three different sizes in the burrows. In
the first place, it is not conclusive that these pupæ were
those of <i>Sphecodes</i>, and secondly we know that this condition
of three sexes is found only in the social tribes,
wherein the peculiarities of the economy exact a division
of offices. Therefore his adoption of this inaccuracy
militates against the reception of his other statement.
But Smith also states that they are not parasites, and
apparently founds his assertion upon direct observation.
It still, however, remains a debatable point, from the
fact of the destitution of pollinigerous brushes, and
thence the character of the food necessary to be stored
for the larva. It would be very satisfactory if these
apparent inconsistencies could be lucidly explained.

If, however, it be ultimately proved that <i>Sphecodes</i> is
a constructive bee, as well as <i>Prosopis</i>, we have then
this fact exhibited by our native genera, that none of the
subfamily of our short-tongued bees, or <i>Andrenidæ</i>, are
parasitical. This is a remarkable peculiarity, as it is
amongst them that we should almost exclusively expect
to find that distinguishing economy, from the seemingly
imperfect apparatus furnished in the short structure of
their tongues. It is possible, however, that nature has
so moulded them as to fit them chiefly for fulfilling its
objects within merely a certain range of the floral reign,
and which restricts them to visiting flowers which do
not require the protrusion of a long organ to rifle their
sweet stores.
.pn +1
.bn 214.png
.sp 2
.nf c
Genus 4. <sc>Andrena</sc>, <i>Fabricius</i>.
(Plates #II.:PLATE-II# and #III.:PLATE-III#)
<sc>Melitta</sc> ** <i>c</i>, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, as wide as the
thorax; <i>ocelli</i> in a triangle on the vertex; <i>antennæ</i>
filiform, geniculated, the basal joint of the flagellum the
longest; <i>face</i>
flat; <i>clypeus</i> convex, transverse, quadrate, slightly rounded
in front; <i>labrum</i> transverse, oblong; <i>mandibles</i> bidentate;
<i>tongue</i> moderately long, lanceolate, fringed with fine
hair; <i>paraglossæ</i> half the length of the tongue, abruptly
terminated and setose at the extremity; <i>labium</i> about
half the length of the entire apparatus, its inosculation
acute; <i>labial palpi</i> inserted above it, below the origin of
the paraglossæ in a sinus upon the sides of the tongue;
<i>maxillæ</i> irregularly lanceolate; <i>maxillary palpi</i>
six-jointed,
longer than the maxillæ, the basal joint about as long as the fourth,
but more robust, the second joint the longest, the rest declining in
length and substance. <sc>Thorax</sc> ovate; <i>prothorax</i> not
distinct; <i>mesothorax</i> quadrate; <i>bosses</i> protuberant;
<i>scutellum</i> lunate; <i>post-scutellum</i> lunulate;
<i>metathorax</i> gibbous, and pubescent laterally; <i>wings</i> with
three submarginal cells, and a fourth slightly commenced, the second
quadrate, and with the third receiving a recurrent nervure about their
middle; <i>legs</i> densely pubescent, especially externally, and
particularly the posterior pair, which have a long curled lock upon the
trochanter beneath, the anterior upper surface of the femora clothed
with long loose hair, which equally surrounds the whole of the tibiæ,
but which is less long upon their plantæ, the <i>claws</i> strongly
bifid. <sc>Abdomen</sc> ovate, a dense fringe edging the fifth segment,
.pn +1
.bn 215.png
and the terminal segment having a triangular central
plate, its sides rigidly setose.

The <sc>MALE</sc> differs in having the <i>head</i> rather wider than
the thorax, the <i>vertex</i> where the ocelli are placed more
protuberant, the <i>mandibles</i> very large and more acutely
bidentate, sometimes largely forcipate and with but one
acute tooth; the males in most species greatly differ
from their females.

None of these insects exhibit any positive colouring of
the integument, excepting in some upon the abdomen,
which exhibits red bands, and is disposed to vary considerably
in intensity and breadth, and in some the
<i>clypeus</i> and <i>face</i> are of a cream-colour, but which occurs
chiefly among the males. They are very dissimilar in
general appearance, some being densely pubescent all
over, others merely so on the head and thorax; others
are banded with white decumbent down, and some are
wholly unmarked upon the abdomen. These peculiarities
help to group them, and thus facilitate their
recognition.
.sp 2
.nf c
NATIVE SPECIES.

<s>§ <i>Banded with red on the abdomen, the segments of which are\
more or less fringed.</i></s>
.nf-
.in 4
.nf l
 1. <i>Hattorfiana</i>, Fab., ♂ ♀. 6—7 lines.
    <i>Lathamana</i>, Kirby, ♀.
    <i>hæmorrhoidalis</i>, Kirby, ♀.
 2. <i>zonalis</i>, Kirby, ♂ ♀. 4½-5 lines.
 3. <i>florea</i>, Fabricius, ♂ ♀. 5-6½ lines.
    <i>Rosæ</i>, Kirby, var.
 4. <i>Rosæ</i>, Panzer, ♂ ♀. 4-6 lines.\
(#Plate III.:PLATE-III# fig. 1 ♂ ♀.)
   <i>Rosæ</i>, Kirby, ♀.
.pn +1
.bn 216.png
 5. <i>decorata</i>, Smith, ♂ ♀. 5-6½ lines.
 6. <i>Schrankella</i>, Kirby, ♂ ♀. 4-5 lines.
    <i> affinis</i>, Kirby.
 7. <i>cingulata</i>, Fabricius, ♂ ♀. 3½-4 lines.\
(#Plate III.:PLATE-III# fig. 3 ♂ ♀.)
    <i>cingulata</i>, Kirby.
.nf-
.in 0
.nf c
<s>§§ <i>Abdominal segments edged with decumbent short down, or\
fringed with long hair.</i></s>
.nf-
.in 4
.nf l
 8. <i>longipes</i>, Shuckard, ♂ ♀. 4-6 lines.\
(#Plate III.:PLATE-III# fig. 2 ♂ ♀.)
 9. <i>chrysosceles</i>, Kirby, ♂ ♀. 3½-4½ lines.
10. <i>dorsata</i>, Kirby, ♂ ♀. 4-4½ lines.
    <i>combinata</i>, Kirby.
    <i>nudiuscula</i>, Kirby.
11. <i>connectens</i>, Kirby. 5 lines.
12. <i>Wilkella</i>, Kirby, ♀. 5¾ lines.
13. <i>Coitana</i>, Kirby, ♂ ♀. 4 lines.
    <i>Shawella</i>, Kirby.
14. <i>labialis</i>, Kirby, ♂ ♀. 5½-6 lines.
15. <i>Lewinella</i>, ♂. 3¾ lines.
16. <i>xanthura</i>, Kirby, ♂ ♀. 3½-6 lines.
    <i>ovatula</i>, Kirby.
17. <i>Collinsonana</i>, Kirby, ♂ ♀. 3½-4½ lines.
    <i>digitalis</i>, Kirby.
    <i>proxima</i>, Kirby.
18. <i>albicrus</i>, Kirby, ♂ ♀. 4-5½ lines.
    <i>barbilabris</i>, Kirby.
19. <i>minutula</i>, Kirby, ♂ ♀. 2½-3½ lines.
    <i>parvula</i>, Kirby.
20. <i>nana</i>, Kirby, ♀. 3½ lines.
21. <i>convexiuscula</i>, Kirby, ♂ ♀. 5 lines.
22. <i>Kirbyi</i>, Curtis, ♀. 6 lines.
.pn +1
.bn 217.png
23. <i>fuscata</i>, Kirby, ♀. 4½ lines.
24. <i>Afzeliella</i>, Kirby, ♂ ♀. 4½-5 lines.
25. <i>fulvicrus</i>, Kirby, ♂ ♀. 3½-5¼ lines.
    <i>contigua</i>, Kirby.
26. <i>fulvago</i>, Christ. ♂ ♀. 4-4½ lines.
    <i>fulvago</i>, Kirby.
27. <i>tibialis</i>, Kirby. 5-7¼ lines.
    <i>atriceps</i>, Kirby.
28. <i>Mouffetella</i>, Kirby, ♂ ♀. 5-7 lines.
29. <i>nigro-ænea</i>, Kirby, ♂ ♀. 5-6½ lines.
30. <i>bimaculata</i>, Kirby, ♂. 5½ lines.
31. <i>Trimmerana</i>, Kirby, ♂ ♀. 5-6 lines.
32. <i>conjuncta</i>, Smith, ♀. 5½ lines.
33. <i>varians</i>, Rossi, ♂ ♀. 4-5½ lines.
34. <i>helvola</i>, Linnæus, ♂ ♀. 5-5½ lines.
    <i>picipes</i>, Kirby, ♂.
    <i>angulosa</i>, Kirby.
35. <i>Gwynana</i>, Kirby, ♂ ♀. 4-5½ lines.
    <i>pilosula</i>, Kirby.
36. <i>angustior</i>, Kirby, ♂ ♀. 4-5 lines.
37. <i>picicornis</i>, Kirby, ♂ ♀. 5-6 lines.
38. <i>spinigera</i>, Kirby, ♂ ♀. 5-6 lines.
39. <i>Smithella</i>, Kirby, ♂ ♀. 3-6 lines.
40. <i>Lapponica</i>, Zetterstedt, ♂ ♀. 3½-5½ lines.
41. <i>tridentata</i>, Kirby, ♂. 4½ lines.
42. <i>denticulata</i>, Kirby, ♂ ♀. 4-5½ lines.
    <i>Listerella</i>, Kirby.
43. <i>nigriceps</i>, Kirby, ♀. 5 lines.
44. <i>pubescens</i>, Kirby, ♂ ♀. 4-5 lines.
    <i>rufitarsis</i>, Kirby.
    <i>fuscipes</i>, Kirby.
.nf-
.in 0
.pn +1
.bn 218.png
.nf c
<s>§§§§ <i>Thorax very pubescent, abdomen smooth and shining.</i></s>
.nf-
.in 4
.nf l
45. <i>albicans</i>, Kirby, ♂ ♀. 4-5 lines.
46. <i>pilipes</i>, Fabricius, ♂ ♀. 5-7 lines.
    <i>pratensis</i>, Kirby.
47. <i>cineraria</i>, Linnæus, ♂ ♀. 5-7 lines.\
(#Plate II.:PLATE-II# fig. 2 ♂ ♀.)
    <i>cineraria</i>, Kirby.
48. <i>thoracica</i>, Fabricius, ♂ ♀. 5-7½ lines.
    <i>thoracica</i>, Kirby.
    <i>melanocephala</i>, Kirby.
49. <i>nitida</i>, Fourcroy, ♂ ♀. 5-6½ lines.\
(#Plate II.:PLATE-II# fig. 3 ♂ ♀.)
    <i>nitida</i>, Kirby.
50. <i>vitrea</i>, Smith, ♀. 6½ lines.
.nf-
.in 0
.nf c
<s>§§§§ <i>The entire body densely pubescent.</i></s>
.nf-
.in 4
.nf l
51. <i>fulva</i>, Schrank, ♂ ♀. 4-6½ lines.\
(#Plate II.:PLATE-II# fig. 1 ♂ ♀.)
    <i>fulva</i>, Kirby.
52. <i>Clarkella</i>, Kirby, ♂ ♀. 4½-6½ lines.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
Fabricius seems to have named this genus from <i>ανθρήνη</i>,
<i>a wasp</i>, but why, it is impossible to say. Although one
name is as good as another, it being indifferent what the name
may be, yet where so evident an attempt to give a name pertinence
is conspicuous, it is remarkable that it should be so little
relevant, for none of the characteristics of a wasp or hornet are
exhibited in these insects.

Possibly it was from the genus being the most numerous
in species that Dr. Leach was induced to give
.pn +1
.bn 219.png
this subfamily its collective designation, making the
other genera thus converge to it as to a centre. He
took its elliptical form as typical. Indeed, it is remarkable
how very judiciously this was done, for it is a form
not apparent among the normal bees excepting in two
exceptional cases, the one upon the frontiers of this
subfamily, in almost debatable land, where the last of
the <i>Andrenidæ</i> and the first of the <i>Apidæ</i> seem almost
to melt into one another; and in the other case, in the
parasitical <i>Nomada</i>, whose parasitism is in every instance,
but one only, restricted to the first subfamily.
A different type of form prevails amongst the <i>Apidæ</i>,
upon which I shall have subsequently occasion to speak.

These insects are not distinguished for any elaborate
economy. Varying in the species, some prefer vertical
banks, others sloping undulations, and again others horizontal
flat ground or hard down-trodden pathways.
Some burrow singly, and others are gregarious, collected
in great numbers upon one spot. They are,
perhaps, the most inartificial burrowers of all the bees.
Their tunnels vary from five to nine or ten inches in
depth, and in some species they are formed with other
small tunnels slanting off from the main cylinder. The
sides and bottom are merely smoothed, without either
drapery or polish. The little cells thus formed are then
supplied with the usual mixture of pollen and honey
kneaded together, which in the larger species forms a
mass of about the size of a moderate red currant, its
instinct teaching it the quantity necessary for the nurture
of the young which shall proceed from the egg
that it then deposits upon this collected mass of food.
The aperture of each little tunnel is closed with particles
of the earth or sand wherein the insect burrows,
.pn +1
.bn 220.png
and it proceeds to the elaboration of another receptacle
for a fresh brood until its stock of eggs becomes exhausted.
Some species have two broods hatched in the
year, especially the earlier ones,—for several present
themselves with the earliest flowers,—but others are restricted
to but one. The quantity of pollen they collect
is considerable, and in fact they are supplied with
an apparatus additional to what is furnished to any of
the other genera in a curled rather long lock of hair
that emanates from the posterior trochanters. This, with
the fringes that edge the lower portion and sides of the
metathorax, as well as the usual apparatus upon the
posterior legs, enables the insect to carry in each flight
home a comparatively large quantity of pollen, but perhaps
scarcely enough at once for the nurture of one
young one, and it therefore repeats the same operation
until sufficient is accumulated.

The exact period occupied by their transformations is
not strictly known; it will, of course, vary in the species,
as also in those in which two broods succeed each
other in the year, but the larva rapidly consumes its
store and then undergoes its transformation. It does
not spin a cocoon, but in its pupa state it is covered
all over with a thin pellicle, which adheres closely to
all the distinct parts of the body. It is not known how
this is formed; perhaps it is a membrane which transudes
in a secretion through the skin of the larva, or it
may be this itself converted to its new use, which seems
to be for the protection of all the parts of the now
transmuting imago, until these in due course shall have
acquired their proper consistency.

These insects in their perfect state vary very considerably
in size, both individually and specifically, the
.pn +1
.bn 221.png
former depending upon both the quantity and quality
of the food stored up, for the pollen of different plants
varies possibly in its amount of nutriment, else why
should we observe so marked a difference in the sizes
of individuals whose parent instinct would prompt to
furnish them with an uniform and equal supply. The
differences of specific appearance is often very considerable
in long genera, and perhaps in no genus is it
more conspicuously so than in <i>Andrena</i>, for here we
have some wholly covered with dense hair, and others
almost glabrous; others again with the thorax only
pubescent; some are black, some white, some fulvous,
or golden tinted, and some red; some we find banded
with decumbent down, and others with merely lateral
spots of this close hair, but the most prevalent colour
is brown, which will sometimes by immaturity take a
fulvous or reddish hue. In many males we see excentrically
large transversely square heads broader than the
thorax, which also have widely spreading forcipate mandibles,
with often a downward projecting spine at their
base beneath; and it is chiefly these extravagantly
formed males which are most dissimilar to their own
partners that the result of observation alone confirms
their specific identity. In other cases the males are so
like their females that a mere neophyte would unite them.
In many males the clypeus and labrum are white, which
also occurs in some females; for instance, in <i>A. labialis</i>,
but this peculiarity is found more rarely in this sex.
The species are much exposed to the restricting influences
of several parasites, whose parasitism is of a
varying character, but the term should properly be applied
only to the bees which deposit their eggs in their
nests, and whose young, like that of the cuckoo among
.pn +1
.bn 222.png
the birds, thrives at the expense of the young of the
sitos by consuming its food, and thus starving it. These
parasites consist of many of the species of <i>Nomada</i>,
very pretty and gay insects, but in every case totally
unlike the bee whose nest they usurp. Several of the
species of these <i>Nomadæ</i> are not limited to any particular
species of <i>Andrena</i>, but infest several indifferently,
whereas others have no wider range in their spoliation
than one single species, to which they always confine
themselves. In my observations under the genus <i>Nomada</i>
I shall notify those which they assail amongst the
<i>Andrenæ</i>, as well as the other genera which they also
infest.

The others which attack them are more properly positive
enemies than parasites, for they prey upon the
bees themselves, or, as in the case of the remarkable
genus <i>Stylops</i>, render the bee abortive by consuming
its viscera and ovaries. I have spoken of these insects
in the chapter upon parasites, to which I must refer,
but I may here add that the female is apterous, and
never quits the body of the bee. Much mystery attaches
to their history in which their impregnation is
involved, for the male, immediately upon undergoing its
change into the imago, escapes through the dorsal plates
of the abdomen of the bee wherein it was bred and
takes flight. In localities where they occur they may
be usually taken on the wing in the month of May.
The female would seem to be viviparous, and produces
extraordinary multitudes at one birth, extending to hundreds.
Being born as larvæ within the body of the
bee they seek to escape from their confinement, and find
the opportunity in the suture which separates the mesothorax
from the metathorax. Their extreme minuteness
.pn +1
.bn 223.png
admits of their passing through the very constricted
tube which connects the abdomen with the thorax.
Having now escaped into the air they alight upon the
flowers which the bee frequents, and thence they affix
themselves to other bees which may visit these plants,
and thus perpetuate the activity of the function it is
their instinct to fulfil. That many may be lost there
can be no question; but Nature is very prodigal of life,
for by life it endows life, and thus its activity is enlarged
to a wider circle. Although the matured <i>Stylops</i>
has preyed upon all the internal organs of the bee its
attack is not immediately fatal, although the life of the
creature may be thus considerably abridged, but it seems
to live sufficiently long afterwards to disseminate the
distribution of the <i>Stylops</i>. A small blackish <i>Pediculus</i>,
which Mr. Kirby called <i>Pediculus Melittæ</i>, is found also
both upon the flowers the bees frequent and also upon
the bees themselves, especially the pubescent ones; but
this insect is not limited to the genus <i>Andrena</i>, as I
shall have occasion to notice. The flower I have
chiefly found them upon is the Dandelion (<i>Leontodon</i>).
Their peculiar economy and connection with the bees is
unknown; it may be merely an accidental and temporary
attachment, but they even accompany them to their
burrows.

Another and more curious case of attack upon the
young of the <i>Andrena</i>, is instanced in the reputed parasitism
of the Coleopterous genus <i>Meloë</i>. The perfect insect
is a large apterous, fleshy, heteromerous beetle, ten
times as big as the bee. Its vermicle, having issued from
the egg, has the appearance of a very small pediculus, of
an orange colour. They are often seen upon flowers, and,
like the former pediculus, attach themselves to such suitable
.pn +1
.bn 224.png
<i>Andrena</i> as may happen to visit the flowers they are
upon; and, it is said, that they are thus conveyed by the
bee to its domicile, and there feed to maturity upon the
larva of the bee. I have no faith in the correctness of this
statement, for it is not credible that so small a creature
as the larva of an <i>Andrena</i> could fully feed the larva of
so large a beetle. Observation has not satisfactorily confirmed
it, and the connection may be, as in the former
case, merely accidental.

Although, perhaps, not a strictly scientific course, it is
certainly a matter of convenience in very long genera
to break them up into divisions, framed upon external
characters, readily perceptible, and, by which means, the
species sought for may be more readily found. This I
have done in the preceding list of the species, and which
are based upon very prominent features. A slight divarication
from the typical neuration of the wing is observed
in some species, but it is not of a sufficiently
marked character to afford a divisional separation, and
even much less a subgeneric one. I have therefore passed
it unnoticed. The commencing entomologist will often
find considerable difficulty at first in determining the
species of this genus, for so much depends upon condition;
and where the colour of the pubescence is the
chief characteristic, a very little exposure to the atmosphere
much alters their physiognomy, but time, patience,
and perseverance will ripen the novice into an adept.
The connection of the males with the females, from their
ordinarily great dissimilarity, was only to be accomplished
by positive observation, but now that this, in the
majority of cases, is effected, good descriptions facilitate
their discrimination.

The most conspicuous species are the <i>Hattorfiana</i> and
.pn +1
.bn 225.png
the <i>Rosæ</i> for size and colour; the <i>Schrankella</i> is also a
very pretty species; and perhaps the commonest of all
the <i>cingulata</i> is the prettiest of all, with its yellow nose
and red abdomen; in the next section we may point out
the <i>longipes</i> as being a very elegant insect,[#] as are also
the <i>chrysosceles</i> and the <i>helvola</i>. In this section we find
those most subject to the attacks of the <i>Stylops</i>, for instance
the <i>labialis</i>, <i>convexiuscula</i>, <i>picicornis</i>,
 <i>Afzeliella</i>,
<i>nigro-ænea</i>, <i>Trimmerana</i>, <i>Gwynana</i>, etc. The whole of
the third and fourth sections are splendid insects, especially
the <i>fulva</i> in the last. The comparative rarity of
some results chiefly from an exceedingly local habitat.
Many of the species may be found everywhere where insects
can be collected, consequently, all over the United
Kingdom. In all the three seasons of the year, which
prompt animal life, some of the species may be collected,
and the flowers they chiefly prefer are the catkins, especially
of the sallow, the early flowering-fruits, the hedge-row
blossoms, the heath, the broom, the dandelion, chickweed,
and very many others.
.pm fn-start
This insect was first captured by me, and with this, my
manuscript name, attached to it, it was distributed to entomologists
with an unsparing hand. The ordinary courtesy of the science has been,
for the describer, when not the capturer, to adopt and circulate the
original authority, and not to appropriate it. Similar buccaneering has
been practised with poor Bainbridge’s <i>Osmia pilicornis</i>, to
which he had attached this manuscript name, he being the first to
introduce it, having caught it at Birchwood.
.pm fn-end
.hr 10%
.nf c
Genus 5. <sc>Cilissa</sc>, <i>Leach</i>.
(#Plate V.:PLATE-V# fig. 1 ♂ ♀.)
<sc>Melitta</sc> ** <i>c</i>, partly, Kirby.—<sc>Andrena</sc>,\
Fab. Latreille.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, scarcely so wide as the
thorax, flat; <i>ocelli</i> in an open triangle on the vertex;
.pn +1
.bn 226.png
<i>face</i> flat; <i>clypeus</i> transverse, margined;
<i>labrum</i> transverse, slightly rounded in front;
<i>mandibles</i> bidentate; <i>cibarial apparatus</i> moderately
long; <i>tongue</i> lanceolate, fringed with delicate hair;
<i>paraglossæ</i> about one-third the length of the tongue,
abruptly terminated, lacerate and setose at the extremity;
<i>labial palpi</i> rather longer than the paraglossæ, the basal
joint considerably the longest, all the joints subclavate and
diminishing both in robustness and length to the apex;
<i>labrum</i> half the length of the entire apparatus, its
inosculation acutely triangular; <i>maxillæ</i> subhastate, as
long as the tongue; <i>maxillary palpi</i> six-jointed, less than
half the length of the maxillæ, the joints short, subclavate and
decreasing gradually from the base to the apex. <sc>Thorax</sc>
densely pubescent, obscuring its divisions; <i>metathorax</i>
truncated; <i>wings</i> with three submarginal cells, and a
fourth slightly commenced, the second subquadrate and receiving
the first recurrent nervure in its centre, the second recurrent
nervure issuing from beyond the centre of the third submarginal
cell; <i>legs</i> all pilose, especially the posterior pair,
which have hair beneath the <i>coxæ</i> and <i>trochanters</i>,
above only on their femoræ, but surrounding the <i>tibiæ</i>, and
as dense externally upon their <i>plantæ</i>; <i>claws</i>
distinctly bifid. <sc>Abdomen</sc> ovate, truncated at the base,
the segments banded at their apex, with decumbent down, which
becomes densely and widely setose on the fifth segment, the
terminal segment having a central triangular glabrous plate,
carinated down the centre, and very rigidly setose laterally.

The <sc>MALE</sc> scarcely differs, except in having the <i>antennæ</i>
.pn +1
.bn 227.png
less distinctly geniculated, the flagellum taking a sweeping
curve, the <i>face</i> and <i>clypeus</i> much more pubescent,
but the <i>legs</i> sexually less so; the sexes are much alike.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>tricincta</i>, Kirby, ♂ ♀. 5 lines.\
(#Plate V.:PLATE-V# fig. 1 ♂ ♀.)
   <i>? Apis leporina</i>, Panzer.
2. <i>hæmorrhoidalis</i>, Fab. ♂ ♀.
   <i>hæmorrhoidalis chrysura</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus has been named without any reference to
any peculiarity, Dr. Leach having applied a Proper name
to it to designate it.

The <i>Cilissa tricincta</i> is perhaps most like the larger
species of the genus <i>Colletes</i>, both in markings and in
the form of the body, but in resemblance of form the second
species participates. Although robust insects, and
as large as the larger <i>Andrenæ</i>, they are yet unprovided
with the same ample means for conveying pollen, being
destitute of the lock of hair upon the posterior trochanters
and the sides of the metathorax are less densely pubescent.
The ground colour is brown. Their economy
is assumed to resemble that of <i>Andrena</i>, although it has
not been so closely investigated; for my own part I have
never had the opportunity of tracing it to its nidus, having
always captured the species upon flowers. They are
fond of the trefoil (<i>Trifolium repens</i>), and the <i>C. chrysura</i>
frequents the <i>Campanula rotundifolia</i>, as well as the
flowers of the throatwort (<i>Trachelium</i>). In their excursions
they are usually accompanied by their males. Both
species are found in the south and west of England.
.pn +1
.bn 228.png

.nf c
Section 2. <i>With entire paraglossæ.</i>
Subsection <i>c</i>. <sc>Linguæ Acutæ</sc> (acute tongues).
a. <i>With three submarginal cells to the wings.</i>
Genus 6. <sc>Halictus</sc>, <i>Latreille</i>.
(#Plate IV.:PLATE-IV#)
<sc>Melitta</sc> ** <i>b</i>, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, flattish, scarcely so
wide as the thorax; <i>ocelli</i> in an open triangle on the
vertex, which is flat; <i>antennæ</i> short, filiform, geniculated,
scape quite or more than half as long as the flagellum;
<i>face</i> flat, excepting in the centre just below the
insertion of the antennæ, where it is protuberant; <i>clypeus</i>
transversely lunulate, very convex; <i>labrum</i> subquadrate,
very convex, with a central, linear, carinated appendage
in front, nearly as long as the basal portion; <i>cibarial
apparatus</i> moderate; <i>tongue</i> very acute and delicately
fringed with short hair; <i>paraglossæ</i> acute, about half
the length of the tongue; <i>labial palpi</i> not quite so long
as the paraglossæ, the basal joint very long, the rest
decreasing gradually in length; <i>labium</i> about as long
as the tongue, its inosculation emarginate; <i>maxillæ</i>
subhastate, rather longer than the tongue; <i>maxillary
palpi</i> filiform, the basal joint the shortest, second the
longest, the rest decreasing in length. <sc>Thorax</sc> oval,
usually pubescent, sometimes glabrous; <i>prothorax</i> inconspicuous,
as are the bosses of the mesothorax; <i>scutellum</i>
and <i>post-scutellum</i> lunulate, the former convex;
<i>metathorax</i> gibbous or truncated, but laterally pubescent
even in the glabrous species; <i>wings</i> with three submarginal
cells, and a fourth sometimes commenced, the second
subquadrate and receiving the first recurrent nervure
close to its extremity, the second being received beyond
.pn +1
.bn 229.png
the centre of the third submarginal cell [a slightly different
arrangement takes place in some of the species,
which will be noticed subsequently]; the <i>legs</i> all setose,
but the setæ not very long, and the posterior <i>coxæ</i> and
<i>trochanters</i> have long hair beneath; the <i>claws</i> bifid.
<sc>Abdomen</sc> ovate, the terminal segment with a longitudinal
linear incision in its centre.

The <sc>MALES</sc> differ in having the antennæ as long or
longer than the thorax; the <i>labrum</i> transverse, linear,
and the <i>abdomen</i> usually elongate and cylindrical, and
much longer than the head and thorax.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
 1. <i>xanthopus</i>, Kirby, ♂ ♀. 4-5 ½ lines.\
(#Plate IV.:PLATE-IV# fig. 1 ♂♀.)
    <i>Lasioglossum tricingulum</i>, Curtis.
 2. <i>quadricinctus</i>, Fabricius, ♂ ♀. 4-4½ lines.
    <i>quadricinctus</i>, Kirby.
 3. <i>rubicundus</i>, Christ. ♂ ♀. 4-5 lines.
    <i>rubicundus</i>, Kirby.
 4. <i>cylindricus</i>, Fabricius, ♂ ♀. 3-5 lines.
    <i>malachura</i>, Kirby.
    <i>fulvo-cincta</i>, Kirby.
    <i>abdominalis</i>, Kirby.
 5. <i>albipes</i>, Fabricius, ♂ ♀. 3-4 lines.
    <i>albipes</i>, Kirby.
    <i>obovata</i>, Kirby.
 6. <i>lævigatus</i>, Kirby, ♂ ♀. 3-4½ lines.
    <i>lugubris</i>, Kirby.
 7. <i>leucozonius</i>, Schrank, ♂. 3-4½ lines.
    <i>leucozonius</i>, Kirby.
 8. <i>quadrinotatus</i>, Kirby, ♂ ♀. 2-3 lines.
 9. <i>sexnotatus</i>, Kirby, ♂ ♀.
.pn +1
.bn 230.png
10. <i>lævis</i>, Kirby, ♀. 4 lines.
11. <i>fulvicornis</i>, Kirby, ♂. 4 lines.
12. <i>minutus</i>, Kirby, ♂ ♀. 2½-3½ lines.
13. <i>nitidiusculus</i>, Kirby, ♂ ♀. 2-3 lines.
14. <i>minutissimus</i>, Kirby, ♂ ♀. 1½-2½ lines.\
 (#Plate IV.:PLATE-IV# fig. 3 ♂ ♀.)
15. <i>flavipes</i>, Kirby, ♂ ♀. 3-4 lines.\
(#Plate IV.:PLATE-IV# fig. 2 ♂ ♀.)
    <i>seladonia</i>, Kirby.
16. <i>Smeathmanellus</i>, Kirby, ♂ ♀. 2½-3½ lines.
17. <i>æratus</i>, Kirby, ♂ ♀. 2½-3 lines.
18. <i>leucopus</i>, Kirby, ♂ ♀. 3-3½ lines.
19. <i>morio</i>, Kirby, ♂ ♀. 2-2½ lines.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus was named by Latreille from <i>ἁλίξω</i>, to
<i>crowd</i>, or <i>collect together</i>, from the fact of their
nidificating in numbers on the same spot.

The females closely resemble in form those of the
genus <i>Andrena</i>, but the males are very unlike both
those of that genus and their own females, for they all
have long cylindrical bodies and very long antennæ,
much longer relatively than those of the former genus.
Although none of the species approach in size the larger
ones of the preceding genus, their extremes of specific
size are as distant apart as they are in that genus, the
smallest being extremely minute. Some of even the
commoner species are very pretty when in fine condition,
and several of them have a rich metallic green
or blue tint, and in the majority the wings are iridescent
with the brightest and gayest colours of the rainbow.
The numbers in which they associate together upon the
same spot varies considerably, and a very few indeed
.pn +1
.bn 231.png
burrow solitarily and apart from their congeners. In
burrowing they form a tunnel which branches off to
several cells, the excavations being as inartificial as are
those of <i>Andrena</i>. Walkenaer tells us in his memoir
upon the genus <i>Halictus</i>, that they line their cells with
a kind of glaze, that they burrow in horizontal surfaces
to a depth of about five inches, and which they polish
very smoothly previous to covering it with their viscous
secretion, and that the cells are all oval, the largest end
being at the bottom. He says also that they burrow
solely during the night, especially when the moon is
shining, when it is difficult to walk without treading
upon them; so numerous are they, indeed, that they
look like a cloud floating close to the surface of the
ground. Although burrowing thus at night, it is only
during the day that they supply their nests with their
provision of pollen and lay their eggs. Each of their
cells is furnished with a small ball of pollen, varying in
size with the species, but which never entirely fills the
cell, and is affixed intermediately between both extremities,
and upon the mass contained in each cell they deposit
their small egg, which is placed at the extremity
of the lump of pollen most distant from the entrance.
The larva is hatched in about ten days, when it changes
into the pupa. Some doubt attaches as to the length of
time that the pupa remains before its transformation
into the imago, and also as to the period at which this
takes place. A peculiarity attends the appearance of
the larger species. Some are very early spring insects,
among which is the <i>Halictus rubicundus</i>; this I have
seen in abundance on the first fine spring days collecting
its stores on the flowers of the chickweed. It is then in
the very finest condition, and it is really a very beautiful
.pn +1
.bn 232.png
although a very common insect, having a richly golden
fulvous pubescence on the thorax, an intensely black
and glabrous abdomen, the apex of which is fringed with
golden hair. No males are now to be found at all. Yet
it is only some species, and these the larger ones, which
are subject to this peculiarity, for the smaller ones I
have found burrowing during the summer months in
vertical or sloping banks with a sunny aspect, whilst
the males were hovering about both in the vicinity and
close by, sometimes either playing or fighting on the
wing with the very small <i>Nomadæ</i>, which infest these
species parasitically, whilst their females were sedulously
pursuing their vocation. Gradually these joyous spring
insects lose their gayness and their brilliancy, as do
those which have followed in succession of development
with the growing year, and they become senile and
faded and are lost as they have progressively fulfilled
their function. By this time the ragwort is in bloom, and
the thistle displays its pinky blossoms; now the males
are to be found numerously exhibiting themselves upon
these flowers, and also another equally fresh brood to
those of the spring and early summer, of females. My
friend the late Mr. Pickering, who was in the early days
of the present Entomological Society, when it held its
meetings in Old Bond Street, its honorary curator,
and who was then and always, even when less leisure
was afforded him from professional duties, a most assiduous
and diligent observer of the habits of insects,
propounded his theory, both in conversation and before
the meetings of the Society, although he never drew up
a paper upon the subject, that these females were then
impregnated, upon which they retired to a hibernaculum,
and there remained until the breath of a new spring
.pn +1
.bn 233.png
brought them forth in all the beauty of their gay attire,
and that it was from their broods deposited thus in the
spring and early summer, that the autumnal insects
were developed. This theory is both plausible and possible,
and I have no doubt that it is the correct one; and
thus is explained the total absence of males at the time
of the appearance of the females in the foremost portions
of the year; this habit we shall find also in the <i>Bombi</i>.

The flowers they delight in, besides those previously
named, are among others the ribwort plantain, and the
bramble, as well as the <i>Umbelliferæ</i> and the flowers of
the broom. The females possess two remarkable distinctions
of structure not found in any of the other bees,
which consist in an articulated appendage in the centre
of the front margin of the labrum, and a vertical cleft in
the terminal segment of the abdomen, both of which
will necessarily have their uses in the economy of the
insect, although what these may be has not been discovered.

They, like <i>Andrena</i>, are exposed to parasites and
enemies. The smaller species of <i>Nomada</i> infest their
smaller kinds, and St. Fargeau tells us that the <i>Sphecodes</i>
are also parasitical upon them. The smallest of
the genus, which is indeed an exceedingly minute insect,
is subject to a very minute strepsipterous destroyer;
whether this be a genuine <i>Stylops</i> I am not aware, but
the supporting insect being so minute, in fact the
smallest of our bees, how small must be the enemy bred
within it! Another genus of this order has been found
by Mr. Dale upon them, and which is figured as the
genus <i>Elenchus</i> in Curtis’s ‘British Entomology.’ The
smaller species are also attacked, upon their return home
laden, by spiders and ants. <i>Chryses</i> and <i>Hedychra</i> are
.pn +1
.bn 234.png
bred at their expense, and some of the <i>Ichneumons</i>
attack them, as well as the fossorial <i>Hymenoptera</i> of the
genera <i>Cerceris</i>, <i>Crabro</i>, and <i>Philanthus</i>, and these
latter carry them off bodily to furnish their own nests
with pabulum. Several of the species exhale a rich
balmy odour, and, like all the <i>Andrenidæ</i>, they are
silent on the wing, and their sting is innocuous and not
painful. The males are very eager in their amours, and
are not easily repulsed.

Some of the species vary slightly in the neuration of
the wings, and this being a rather numerous genus, although
not nearly approaching the extent of <i>Andrena</i>,
it has been proposed to make use of it for its division,
but I think this is scarcely required, it not being sufficiently
abundant to cause any inconvenience, the species
being so distinctly marked in their specific differences by
the aid of the metallic brilliancy of several of them. I
have therefore arranged the species in the above list in
connective order without intermission, and have placed
in juxtaposition those species which appear the closest
in affinity.
.hr 10%
.nf c
<s>b. <i>With two submarginal cells to the wings.</i></s>
Genus 7. <sc>Macropis</sc>, <i>Panzer</i>.
(#Plate V.:PLATE-V# fig. 2 ♂ ♀.)
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, as wide as the thorax,
flattish; <i>ocelli</i> placed in a very open curve upon the
vertex; <i>face</i> flat, but convex in the centre beneath the
insertion of the antennæ; <i>clypeus</i> very slightly convex;
<i>labrum</i> transverse, narrowly lunulate; <i>mandibles</i> bidentate;
<i>cibarial apparatus</i> moderately long; <i>tongue</i> very
.pn +1
.bn 235.png
acute and fringed with delicate down; <i>paraglossæ</i> barely
half the length of the tongue, and acute, their apex
fringed laterally with down; <i>labial palpi</i> inserted in a
deep sinus, filiform, the basal joint the longest, the rest
diminishing both in length and substance; <i>labium</i> about
half the length of the entire organ, its inosculation
emarginate; <i>maxillæ</i> hastate, rather longer than the
tongue; <i>maxillary palpi</i> six-jointed, the basal joint the
shortest, the third the longest, the remainder diminishing
gradually in length, and all declining in substance
from the basal joint. <sc>Thorax</sc> oval, rather pubescent;
<i>prothorax</i> transverse, curving to the mesothorax, whose
<i>bosses</i> are inconspicuous; <i>scutellum</i> transverso-quadrate;
<i>post-scutellum</i> transverse linear; <i>metathorax</i> truncated.
<sc>Wings</sc> with two submarginal cells, and a third commenced,
the second about as long as the first, and receiving
both the recurrent nervures, the first near its
commencement, and the second nearer its extremity;
<i>legs</i> robust, with the posterior <i>tibiæ</i> and <i>plantæ</i> densely
clothed externally with short hair; the <i>plantæ</i> broad;
the second joint of the <i>tarsus</i> inserted at the lower angle
of the plantæ; <i>claws</i> bifid. <sc>Abdomen</sc> subtriangular,
truncated at its base, not longer than the thorax.

The <sc>MALE</sc> differs in having the <i>antennæ</i> as long as the
thorax and curved; the <i>posterior coxæ</i> very large and
robust, the <i>trochanters</i> small and triangular; the <i>femora</i>
large and much swollen in the centre, the posterior
<i>tibiæ</i> very large and triangular and convex externally,
and the <i>plantæ</i> longer than the rest of the tarsus, and
slightly curved beneath longitudinally.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>labiata</i>, Panzer, ♂ ♀. 4-4½ lines.
           (#Plate V.:PLATE-V# fig. 2 ♂ ♀.)
.nf-
.in 0
.pn +1
.bn 236.png
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
The name of this genus comes from <i>μακρὸς</i>, <i>long</i>, and
<i>ὦψ</i>, <i>face</i>, in allusion to the length of that portion of
the head, although this assumed discriminative characteristic
is scarcely suitable; this again constitutes
another of the many instances wherein it would have
been much preferable to have imposed a name without
any significancy than one which is not thoroughly applicable.
It is, indeed, always dangerous to attach a
name to a new genus which has reference to some individual
peculiarity, for it may eventually exhibit itself as
limited to the one single species or sex to which it was
originally applied, as to every other subsequently discovered
species in the genus it may be inappropriate.

Nothing, so far as I am aware, is known of the habits
of these singular insects, which, I believe, have been
caught only three times in this country and then only
the male sex.

The first, which is in the collection of the British
Museum, was brought by Dr. Leach from Devonshire;
the second was caught in the New Forest by the late
John Walton, Esq., distinguished for his knowledge of
the British <i>Curculionidæ</i>, and who kindly presented it to
me for my collection when I was at the zenith of my
enthusiasm for the Hymenoptera, and with that collection
it passed to Mr. Thomas Desvignes, in whose possession
it remains; and the third was caught by Mr.
Stevens, at Weybridge, in Surrey. Why I enter so
particularly into these circumstances is, that the genus
is extremely peculiar both for scientific position and for
structure. In the latter the male is extremely like the
male of <i>Saropoda</i> and its female is more like the female
<i>Scopulipedes</i> among the <i>Apidæ</i> than one of the <i>Andrenidæ</i>,
.pn +1
.bn 237.png
especially in the form of the abdomen and of
the intermediate and posterior legs, as well as in the
length of the claws and the low insertion of the posterior
joints of the tarsi upon their plantæ, a peculiarity not
occurring in another genus of the <i>Andrenidæ</i>.

I have no doubt, also, that they are very musical in
their flight and are, perhaps, as shrill-winged as is <i>Saropoda</i>;
whereas one of the great characteristic specialities
of the <i>Andrenidæ</i> is their silence. This genus,
although restrained within the circuit of the subnormal
bees by the structure and folding of its tongue, has so
much of the habit of one of the true <i>Apidæ</i> that it almost
prompts the wish to resuscitate the circular systems
and place it within its own circle in analogical juxtaposition
to <i>Saropoda</i> in the circle of the <i>Apidæ</i>, where
they might impinge one upon the other. It is not often
that so rare an insect is at the same time so curious
and so suggestive. Having been found, there is no
reason why it may not be again found with due and
patient diligence; my own experience has taught me
how easy it is even in well-hunted ground to make
rarities common, within almost a stone’s throw of the
metropolis, at Hampstead, Highgate, and Battersea,
from which localities in the course of my entomological
career I have introduced to our fauna many novelties,
one of which was certainly a remarkable discovery,
from the last spot named, which it is worth recording.
A quantity of soil had been removed from the City
where an artesian well was being bored, and consequently
from varying depths, and carted thence and cast upon
the edge of the river-bank at Battersea. The following
season, from this soil, a thick and prodigious quantity of
the common mustard plant shot up, and when in flower
.pn +1
.bn 238.png
I happened to be collecting near the spot on the day of
our gracious Queen’s coronation, when I captured multitudes
of a splendid large <i>Allantus</i>, entirely new to the
British fauna, and a choice addition to collections. This
ground had been hunted at all seasons through all botanical
and entomological time, and neither had the
mustard plant been found there before nor had the insect.
Whence did they both come? These observations
have certainly nothing to do with the subject in hand,
beyond suggesting that with untiring energy in the
vicinities indicated where <i>Macropis</i> has been already
found it may possibly turn up in abundance.
.hr 10%
.nf c
Genus 8. <sc>Dasypoda</sc>, <i>Latreille</i>.
<sc>Melitta</sc> ** <i>c</i>, partly, Kirby.
(#Plate V.:PLATE-V# fig. 3 ♂ ♀.)
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse; <i>vertex</i>
glabrous; <i>ocelli</i> placed in a curved line; <i>antennæ</i>
short, filiform, geniculated, the scape thickly bearded with long
hair and scarcely half the length of the flagellum; <i>face</i>
and <i>clypeus</i> densely pubescent, the latter slightly convex;
<i>labrum</i> transverse, linear, slightly rounded in front;
<i>mandibles</i> arcuate, bidentate, the teeth acute and robust;
<i>cibarial apparatus</i> moderately long; <i>tongue</i> long,
very acute, and fringed with delicate hair; <i>paraglossæ</i>
about one-third the length of the tongue, very slender, and
acute; the <i>labial palpi</i> inserted upon the junction of the
labium, very slender, filiform, of uniform thickness, the joints
subclavate, the basal joint considerably the longest, the second
joint also long, the two terminal joints much shorter and
decreasing in length; <i>labium</i> about the
.pn +1
.bn 239.png
length of the tongue, its inosculation acutely triangular;
<i>maxillæ</i> hastate, as long as the tongue; <i>maxillary palpi</i>
six-jointed, rather more than half the length of the
maxillæ, slender, the basal joint the most robust, the
second the longest, the rest declining both in thickness
and length. <sc>Thorax</sc> oval, densely pubescent, the divisions
indistinct from its density; <i>scutellum</i> lunulate;
<i>metathorax</i> subtruncate; <i>wings</i> with two submarginal
cells and a third commenced, the second receiving both
the recurrent nervures, the first close to its commencement
and the second just beyond its centre; <i>legs</i> slender,
pubescent, especially the <i>tibiæ</i> and <i>plantæ</i>, the hair upon
the posterior pair being extremely dense and long, and
each hair twisted minutely spirally; their <i>coxæ</i>, <i>trochanters</i>,
and <i>femora</i> also covered with long hair; <i>claws</i>
bifid, the inner tooth very short. <sc>Abdomen</sc> oval, the
basal and fifth segments densely hairy, the superior surface
glabrous and shining, excepting where the white
decumbent bands broadly edge the three intermediate
segments.

The <sc>MALE</sc> differs in being more densely pubescent,
especially upon the abdomen, which is not glabrous,
and in not having the <i>antennæ</i> geniculated; the bands
of the <i>abdomen</i> are fulvous, and its legs are longer and
more slender, and it is sexually less hairy, although still
considerably so.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>hirtipes</i>, Fab., ♂ ♀. 6-7 lines.\
(#Plate V.:PLATE-V# fig. 3 ♂ ♀.)
  <i>Swammerdamella</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus is named from the extreme hairiness of its posterior
legs, <i>ποῦς</i>, <i>hairy</i>, <i>ποῦς, ποδὸς</i>, <i>foot
or leg</i>.
.pn +1
.bn 240.png
It is one of the most elegant of our native bees, both
in form and the extreme congruity of its habiliment.
This is unfortunately but a bridal raiment, for almost
as soon as the arduous duties of maternity supervene
these bright garments fade, and the workday suit immediately
shows the wear and tear produced by the
labours of life. The male flaunts about longer in the
freshness of his attire, but he is usually the assiduous
companion of his spouse, although he does not participate
in her toils. They are late summer insects, and
form their burrows upon banks having a southern aspect;
these they excavate deeper than does <i>Andrena</i>,
and smooth and polish them internally. They generally
prefer spots intertangled with shrubs, and at the
mouth of the cylinder they tunnel they heap up the
extracted soil, to use a portion for closing it when their
task is accomplished. In the course of this process,
especially if a cloud pass over the sun, they will come
forward to the aperture. They collect large quantities
of pollen, for which the hair upon their posterior
tibiæ and plantæ is excellently well adapted both by
its length and the additional storing power it possesses
in each individual hair being spirally twisted, although
they are unprovided with the furniture of hair upon
the femora and coxæ found in the genus <i>Andrenæ</i>.
Thus nature likes to vary its mode of accomplishing
the same object. The details of their nursery processes
are not known. For their protection their sting is very
virulent, and also actively employed, as they have many
enemies, especially amongst the fossorial <i>Hymenoptera</i>,
whom they stoutly resist to the extent of their strength.
We are not aware of any special parasites that infest
them. They are semi-gregarious in their habits, for
.pn +1
.bn 241.png
where they occur any quantity of them may be taken.
They are found in their season in the southern counties,
the Isle of Wight, and in several parts of Kent and its
eastern coast, and even as near London as Charlton.
They seem to prefer the composite flowers, having a
great liking for the bastard Hawkweed and the Dandelion.
A fine series of them forms a great ornament to
a collection.
.hr 10%
.nf c
Subfamily 2. <sc>Apidæ</sc> (Normal Bees), <i>Latreille</i>.
<i>Syn.</i> <sc>Apis</sc>, <i>Kirby</i>.
<s><i>Tongue always folded back in repose.</i>
<i>Maxillary palpi varying in the number of the joints.</i>
Section 1. <i>Solitary.</i>
Subsection 1. <sc>Scopulipedes</sc> (brush-legged).
a. <i>Femoriferæ</i> (collectors on entire leg).
† <i>With two submarginal cells to the wings.</i></s>
Genus 9. <sc>Panurgus</sc>, <i>Panzer</i>.
(#Plate VI.:PLATE-VI# fig. 1 ♂♀.)
<sc>Apis</sc> * <i>a</i>, <i>Kirby</i>.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transversely subquadrate;
<i>ocelli</i> in a triangle on the <i>vertex</i>, which, as well
as the <i>face</i>, is convex, the latter between the antennæ
carinated as far as the clypeus; <i>antennæ</i> short,
subclavate, the second joint of the flagellum considerably the
longest, the remainder equal; <i>clypeus</i> slightly convex;
<i>labrum</i> transversely quadrate, convex; <i>mandibles</i>
acutely unidentate; <i>cibarial apparatus</i> long; <i>tongue</i>
half its entire length, gradually acute, and fringed laterally
with delicate hair; <i>paraglossæ</i> slender, acute, membranous,
not quite half the length of the tongue; <i>labial palpi</i> more
than half
.pn +1
.bn 242.png
the length of the tongue, the basal joint longer than
the two following, the remainder gradually decreasing
in length, all conterminous; <i>labium</i> half the length of
the cibarial apparatus, broad; <i>maxillæ</i> slender, subhastate,
as long as the tongue; <i>maxillary palpi</i> six-jointed,
the basal joint robust, subclavate, as is the
second joint, but more slender, the remainder filiform,
gradually declining in length. <sc>Thorax</sc> oval; <i>prothorax</i>
inconspicuous; <i>mesothorax</i> with a deep central groove;
<i>bosses</i> protuberant; <i>scutellum</i> and <i>post-scutellum</i> lunulate;
<i>metathorax</i> gibbous; wings with the marginal
cell slightly appendiculated, two submarginal cells and a
third commenced, the second receiving both the recurrent
nervures, the first close to its commencement and
the second beyond its centre; the <i>legs</i> densely pilose,
the posterior pair having their <i>coxæ</i> and <i>trochanters</i>
beneath, their <i>femora</i> in front, above, the <i>tibiæ</i> and
<i>plantæ</i> all round, covered with long hair; <i>claws</i> bifid.
<sc>Abdomen</sc> ovate, the base subtruncate, the basal segment
having a deep central impression at its base, the
fifth segment fringed with short dense hair, the terminal
segment with a triangular plate carinated in the centre,
and fimbriated laterally, and all very slightly constricted.

The <sc>MALE</sc> scarcely differs, except in having the <i>head</i>
rather more globose and more pubescent; and the <i>legs</i>,
although still hairy, much less so than in the female.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>Banksiana</i>, Kirby, ♂♀. 4-5¼ lines.
   <i>ursinus</i>, Curtis, iii. 101. (#Plate VI.:PLATE-VI# fig. 1 ♂♀.)
2. <i>calcaratus</i>, Scopoli, ♂♀. 3-4 lines.
   <i>ursinus</i>, Kirby.
.nf-
.in 0
.pn +1
.bn 243.png
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
<i>Πανοῦργος</i> signifies <i>one excessively industrious</i>, at
least as it is applied here, although it has other less
meritorious meanings, but these insects can scarcely be
considered more energetic than any of their associates;
perhaps the contrast made between the bright yellow
pollen and their lugubrious vestment might give the
idea of very active collecting, they being usually, upon
returning from their foray, almost entirely disguised in
the produce of their excursion. They are rather remarkable
insects from their intensely black colour and
their compact active forms; their square head and short
clavate antennæ give them a sturdy business-like appearance.
They also are silent on the wing, but being
at the very van of the present subfamily, forming as
it were the advanced picket of the <i>Apidæ</i>, it may be
considered suitable that they should retain, by way of
partial disguise, some of the characteristics of the preceding
subfamily. In many respects, therefore, they
closely approach <i>Dasypoda</i>: thus their legs are similarly
furnished with hair, relatively as long and having the
same spiral twist, and their whole habit is that of one of
the <i>Andrenidæ</i>, excepting that their clavate antennæ,
and the folding of their tongue in repose, separate them
from that subfamily. They are local insects, but extremely
abundant when fallen upon. I used to find the first
species upon an elevated plateau, on the south side over-hanging
the Vale of Health and its large pond at Hampstead.
Every Dandelion, for a wide circuit in the vicinity,
was crowded with individuals—assiduously collecting,
in the case of females, but basking in sunny indolence,
and revelling in the attractions of the flower, in the case
.pn +1
.bn 244.png
of males, and, at the same time, their burrowing spot,
which was not larger than half-a-dozen square yards,
was swarming with them, coming and going, burrowing
and provisioning. Very numerous, but not so numerous
as themselves, were their pretty parasite, the <i>Nomada
Fabriciana</i>, fine specimens of both sexes of which I have
constantly captured; and a remarkable singularity pertaining
to the latter is, that some seasons it would totally
fail, and another season present itself sparsely, when,
after these lapses, it would recur in all its primitive profusion,
although the <i>Panurgus</i> was every season equally
present. Both these insects are found during the months
of June and July, especially about the middle of the
former. In their burrows, which they perforate vertically,
they usually enclose about six cells, each being
duly provisioned and the egg deposited, when each is
separately closed and the orifice of the cylinder filled up.
This species is also found in Kent and Surrey, and I
have no doubt they might be discovered in most of the
southern counties. The smaller species, which is a good
deal like a little <i>Tiphia</i>, is remarkable for the peculiarity
of the male having a projecting process upon its posterior
femora, whence it derives its specific name, <i>calcaratus</i>,
which is hardly consistent, as it is not quite the
right place for a spur. This smaller species is also found
in Kent, Hampshire, and at Weybridge, in Surrey, and
in the Isle of Wight. As well as in the <i>Leontodon</i>, it
likes to repose in the flowers of the Mouse-ear Hawkweed
(<i>Hieracium</i>).
.pn +1
.bn 245.png
.hr 10%
.nf c
<s>b. <i>Cruriferæ</i> (collectors on the shanks and tarsi).
† <i>With two submarginal cells to the wings.</i></s>
Genus 10. <sc>Eucera</sc>, <i>Scopoli</i>.
(#Plate VI.:PLATE-VI# fig. 2 ♂ ♀.)
<sc>Apis</sc> ** <i>d</i> 1, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse; <i>vertex</i>
concave; <i>ocelli</i> in a curve, and very high up; <i>face</i>
flattish; <i>clypeus</i> very convex, hirsute, and fimbriated;
<i>labrum</i> transverse-ovate, and emarginate in front;
<i>mandibles</i> very obtusely and inconspicuously bidentate;
<i>tongue</i> very long and slender, and gradually acuminating,
transversely striated; <i>paraglossæ</i> slender, membranous,
very acute, and about two-thirds the length of the tongue;
<i>labial palpi</i> membranous, and about the length of the
paraglossæ, the basal joint linear, broad, longer than the rest
united, the second about half its length and acuminate, the two
terminal ones are very short and equal, and articulate within the
apex of the second joint; <i>labium</i> less than half the length
of the tongue, its inosculation concave; <i>maxillæ</i>
two-thirds the length of the tongue, subhastate; <i>maxillary
palpi</i> six-jointed, short, less than one-third the length of
the maxillæ, the basal joint robust, the rest filiform, and
gradually decreasing in length and substance. <sc>Thorax</sc>
very pubescent, which conceals its divisions; <i>metathorax</i>
truncated; <i>wings</i> with two submarginal cells, the second
receiving both the recurrent nervures, one near each of its
extremities; <i>legs</i> setose, especially the tibiæ and plantæ,
which, in the posterior pair is very dense on the exterior of the
tibiæ, and both externally and internally upon the plantæ, the
following joints of the posterior tarsi inserted beneath, and
within
.pn +1
.bn 246.png
the extremity of their plantæ; the claw-joint being longer
than the two preceding, and the <i>claws</i> acutely bifid.
<sc>Abdomen</sc> oval, convex above, subtruncate at the base,
where it is thickly pubescent, the other segments glabrous
on the disk; the fifth segment fimbriated with
decumbent short hair, and the terminal segment having
a central triangular plate at the sides of which it is rigidly
setose.

The <sc>MALE</sc> differs in having the <i>antennæ</i> longer than
the thorax, filiform, but with their several joints curved,
the curvature increasing towards the terminal joints, the
integument of the whole of the flagellum consisting of a
congeries of minute hexagons, the edges of which are all
raised, and the whole resembling shagreen; the legs have
the usual sexual slighter and extended development, and
are necessarily less setose; it is also deficient in the
transverse whitish bands of decumbent hair upon the
abdomen, which is more densely pubescent on the first
and second segments; and the four terminal joints of
the posterior tarsi are conterminous with their plantæ.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>longicornis</i>, Linnæus. 6-7 lines.\
(#Plate VI.:PLATE-VI# fig. 2 ♂♀.)
  <i>longicornis</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus derives its name from the great length of the antennæ
in the male,—<i>εὖ</i>, <i>good</i> or <i>great</i>, <i>κέρας</i>,
<i>horn</i>. The name of the genus is usually given from
some female characteristic, or from a peculiarity common to both
sexes, or irrespective of any direct application, but here we
find it deduced from a feature exclusively masculine. Instances
of the first class we see in <i>Colletes</i>,
.pn +1
.bn 247.png
<i>Halictus</i>, <i>Andrena</i>, <i>Dasypoda</i>,
<i>Panurgus</i>, <i>Saropoda</i>, <i>Ceratina</i>,
<i>Cœlioxys</i>, <i>Chelostoma</i>, <i>Heriades</i>,
<i>Anthocopa</i>, and <i>Apathus</i>; of the second class we have
<i>Prosopis</i>, <i>Sphecodes</i>, <i>Macropis</i>,
<i>Anthophora</i>, <i>Nomada</i>, <i>Melecta</i>, perhaps
<i>Epeolus</i>, according to Latreille’s idea, <i>Stelis</i>,
<i>Anthidium</i>, <i>Osmia</i>, and <i>Bombus</i>; the third
class comprises in our series merely <i>Cilissa</i>, and in this
series the
male characteristics that have suggested the name are
just as few, being limited to the present genus. But
the males among the bees exhibit in many cases strong
and striking peculiarities which distinguish them from
their partners. Exclusively of the general distinction
expressed in their organic difference by the possession
of one additional joint to the antennæ and one more
segment to the abdomen than is exhibited in the females,
we find in many cases in these two parts of their
structure very marked singularities. Great sexual differences
in the length of the antennæ are not restricted
to the present genus; in fact, in most of the genera,
this is the first striking feature, but which becomes
conspicuously so in some species of <i>Sphecodes</i>, in most
of the <i>Halicti</i>, in some <i>Nomadæ</i>, in <i>Chelostoma</i>, <i>Osmia</i>,
<i>Apathus</i>, and <i>Bombus</i>. In <i>Eucera</i> and <i>Sphecodes</i>, each
joint of the flagellum is slightly curved, and in the
former the surface of those joints appears compounded
of hexagons. In <i>Chelostoma</i> the antennæ, besides being
longer than in the female, are also very much slighter
and slightly compressed, and have a structure capable
of curling upon itself; in the female of this genus the
organ is clavate; and in <i>Osmia</i>, besides their length, in
one species the male has a fringe of hair attached to
one side along the whole of the organ. In other cases,
where the antennæ are not remarkably longer in the
.pn +1
.bn 248.png
male they have extra development by becoming thicker,
as in <i>Melecta</i>; and in <i>Megachile</i> the terminal joint of
their antennæ is laterally dilated and compressed. In
scarcely any case are they geniculated at the scape in the
male, as they are in the female. The other genera with
clavate antennæ have the same structure in both sexes,
as in <i>Panurgus</i> and <i>Ceratina</i>. Remarkable peculiarities
in the terminal ventral segment or segments of the male
may be found most conspicuously developed in <i>Halictus</i>,
<i>Cœlioxys</i>, <i>Anthidium</i>, <i>Chelostoma</i>, <i>Heriades</i>, <i>Osmia</i>, <i>Apathus</i>,
Bombus, and Apis. In <i>Cœlioxys</i> and <i>Anthidium</i>, and
some of the <i>Osmiæ</i>, this sex is further furnished with a
series of projecting spines, processes, or serrations at the
apex of the terminal dorsal segment. In <i>Chelostoma</i>, the
ventral structure of the male is very singular, the apex
being adapted to a mucro at the base which permits the
insect to curl up this portion of the body similarly to
its antennæ, the furcated extremity of the abdomen
fitting, when thus folded, upon the mucro. It is as
well to draw observation to these peculiarities, which
give additional interest to the study of the group.

The genus <i>Eucera</i> appears in May and June. In
some parts they are found in large colonies; although I
have seen them abundant I never found them in this
gregarious condition, and I have usually discovered
them frequenting loamy and sandy soils; they burrow
a cell six or eight inches deep, form an oval chamber at
its extremity, which as well as the sides of the cylinder
leading to it they make extremely smooth, and by some
process prevent its absorbing the mixture of honey and
pollen which they store for the supply of the larva, and
each contains but one young one. These, having full
fed, lie in a dormant state throughout the winter and
.pn +1
.bn 249.png
do not change into pupæ until mid-spring, and speedily
transform into the imago, which, until fully matured, is
closely in every part and limb covered with a thin silky
pellicle, wherein it lies as in a shroud, but at its appointed
time, regulated by some influence of which we have no
cognizance, active life becomes developed, it then casts
off its envelope and comes forth to revel in the sunshine,
in close companionship with a partner which its
instinct promptly teaches it to find. The largest of our
native <i>Nomadæ</i> is its parasite the <i>N. sexcincta</i>, and
which seems wholly restricted to it, but which is often
even rare in places where the <i>Eucera</i> abounds. The
female, like those of the rest of the bees, is no time-waster,
but flies steadily to and fro in her occupation of
provisioning her nest, and the male often accompanies
her in these expeditions, gallantly winging about with
extreme velocity as if to divert his sedulous companion
in the fatigue of her toil, by his evolutions and his
music, which is very sonorous. And on a fine May day
it is extremely pleasant in a picturesque situation to sit
and watch the operations of these very active insects.
In their recent state, when just evolved from the nidus,
they are very elegant, being covered with a close silky
down, which labour and exposure soon abrades. It is
said that this bee deserts her nest when she finds the
stranger’s egg deposited on the provender laid up in
store, or when she meets with the <i>Nomada</i> within, which
sometimes lays two eggs in one cell. To this she does
not deliver battle, as does the <i>Anthophora</i> to <i>Melecta</i>,
but patiently vacates the nest, leaving it to the service
of the parasite, which is also supposed to close it herself,
having been caught with clay encrusted upon her
posterior legs. For the accuracy of this supposition I
.pn +1
.bn 250.png
cannot vouch, never having observed the circumstance,
nor have I seen reason to abandon the idea that the parasite
has no instinct for labour of any kind,—the presence
of the clay being, I expect, merely accidental, for
it is notorious that these insects have an overruling predilection
for keeping themselves extremely clean.
.hr 10%
.nf c
<s>†† <i>With three submarginal cells to the wings.</i></s>
Genus 11. <sc>Anthophora</sc>, <i>Latreille</i>.
(#Plate VI.:PLATE-VI# fig. 3, and Plate VII. fig. 1.)
<sc>Apis</sc> ** <i>d</i>, 2 <i>a</i>, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, nearly as wide as the
thorax; <i>vertex</i> depressed; <i>ocelli</i> placed in a curved line
upon its posterior margin; <i>antennæ</i> short, subclavate,
basal joint of flagellum globose, its second joint longer
than the scape, very slender, the rest of the joints
subequal; <i>face</i> flattish; <i>clypeus</i> protuberant; <i>labrum</i>
quadrate, convex; <i>mandibles</i> distinctly bidentate and
obtuse; <i>cibarial apparatus</i> very long; <i>tongue</i> very long,
transversely striated, and with a small knob at the extremity;
<i>paraglossæ</i> about one-third the length of the
tongue, acuminate; <i>labial palpi</i> slender, more than half
the length of the tongue, membranous, the basal joint
as long again as the remainder, the second joint very
slender and very acute; the two terminal joints very
short and subclavate, inserted before the extremity of
the second joint; <i>labium</i> short, one-fourth the length of
the tongue, its inosculation concave; <i>maxillæ</i> hastate,
not so long as the tongue; <i>maxillary palpi</i> one-third
the length of the maxillæ, six-jointed, the basal joint
very robust, the rest filiform, the second the longest,
.pn +1
.bn 251.png
and all the rest decreasing in length and substance.
<sc>Thorax</sc> oval, densely pubescent, which conceals its
divisions; <i>metathorax</i> truncated; <i>wings</i> with three
submarginal cells, closed, the second receives the first
recurrent nervure in its centre, and the third, which
bulges externally, receives the second at its extremity;
<i>legs</i> setose, the exterior of the posterior <i>tibiæ</i> and
<i>plantæ</i> moderately so, and the interior of the latter also
densely setose; the second joint of the posterior <i>tarsi</i>
inserted beneath and within the termination of their
plantæ; the claw-joint longer than the two preceding;
<i>claws</i> bifid, the inner tooth distant from the external.
<sc>Abdomen</sc> ovate, subpubescent, the fifth segment densely
fimbriated and the terminal segment with an emarginate
appendage.

In the <sc>MALES</sc> the antennæ are very similar, but the
mandibles are more acutely bidentate, and with the
exception of the form of the legs, the general aspect is
like the female; the legs, although setose, are less conspicuously
so, the intermediate tarsi in the first section
of the genus being longer than the rest of the entire leg,
and are fringed externally with very long hair, or it is
restricted to the plantæ of that leg and then it is short
and very rigid; the entire limb stretched out extends
beyond the widest expansion of the superior wings.
The <sc>ABDOMEN</sc> is also less retuse than in the female, at
its basal segment.

In the second division of this genus, of which <i>Anthophora
furcata</i> may be considered to be the type, the
general habit is precisely the same, but the insects are
not so pubescent, and there is a greater similarity between
the sexes. The intermediate legs also, although
long in the male, are not so extremely long as they are
in the first section.
.pn +1
.bn 252.png
.sp 2
.nf c
NATIVE SPECIES.

<s>§ <i>Males with elongate tufted intermediate tarsi, and\
differing from female in colour.</i></s>
.nf-
.in 4
.nf l
1. <i>retusa</i>, Linnæus, ♂ ♀. 6 lines.\
(#Plate VI.:PLATE-VI# fig. 3 ♂ ♀.)
   <i>Haworthana</i>, Kirby.
   <i>Haworthana</i>, Curtis, viii. 357.
2. <i>acervorum</i>, Fabricius, ♂ ♀. 6-8 lines.
  <i>retusa</i>, Kirby.
.nf-
.in 0
.nf c
§§ <i>Males without elongate tufted intermediate tarsi,\
concolorous with their females.</i>
.nf-
.in 4
.nf l
3. <i>furcata</i>, Panzer, ♂ ♀. 5-6 lines.\
(#Plate VII.:PLATE-VII# fig. 1 ♂ ♀.)
   <i>furcata</i>, Kirby.
4. <i>quadrimaculata</i>, Panzer, ♂ ♀. 4-5 lines.
   <i>vulpina</i>, Kirby.
   <i>subglobosa</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
The name <i>ἄνθος</i>, <i>φὼρ φωρὸς</i>,
<i>flower-rifler</i>, would be as suitable for any other genus of
bees, and therefore may be classed with those names which have no
explicit signification.

The two divisions which our native species of this
genus form, might very consistently constitute two genera,
differing so much as they do both in habit and
habits. In the first section the males totally differ from
their females, the latter being black and the pubescence
of their partners fulvous, and whose intermediate legs
are so much longer, and are decorated besides with tufts
of hair upon their plantæ, neither peculiarity being
found in those of the second section, which conform
.pn +1
.bn 253.png
more regularly to the ordinary type of structure. The
first section also nidificate gregariously, forming enormous
colonies which consist of many hundreds; whereas
the second are solitary nidificators, and at most half-a-dozen
may be found within as many square yards of
territory, and one species, the <i>A. furcata</i>, diverges considerably
from the ordinary habits of the genus, and
closely approaches those of the foreign genus <i>Xylocopa</i>,
but its structure necessarily retains it within the boundaries
of the genus. All these insects exhibit the peculiar
characteristic of the <i>Scopulipedes</i>, in the insertion of
the second joint of the posterior tarsi at the very bottom
of their plantæ, conjunctively with the polliniferous
scopa, placed externally upon their tibiæ and plantæ, in
which characteristics the Andrenoid <i>Macropis</i> remarkably
resembles them, and which I have noticed in my
remarks upon that genus.

The first section burrows in banks, where their colonies
are extremely numerous. In the tunnels which
they form they construct several elliptical cells which
they line with a delicate membrane of a white colour,
formed by a secretion or saliva derived from the digestion
of either the pollen or the honey which they
consume. Each cell when formed is stored as usual,
and the egg deposited, and then it is closed. There is
but little variation in these processes among all the
solitary bees, excepting in the case of the artisan bees
and the more elaborate processes of <i>Colletes</i>, in which,
however, the casing is merely thicker, arising from
several layers of the coating membrane. The perfect
insects make their appearance during the spring and
summer months, their successive maturity being the
result of the previous summer and autumn deposit of
.pn +1
.bn 254.png
eggs. They pass the winter and spring in the larva
state, and undergo their transformations into pupa and
imago with but slight interval, and only shortly before
the appearance of the perfect insect. When first presenting
themselves they are certainly very handsome
insects, and if carefully killed preserve their beauty for
many years in the cabinet. I have found the retusa,
Linn., (Kirby’s <i>Haworthana</i>,) in enormous profusion at
Hampstead Heath, indeed, so numerous were they, that
late in the afternoon, upon approaching the colony, they,
in returning home, would strike as forcibly against me
as is often done by <i>Melolontha vulgaris</i> or <i>Geotrupes
stercorarius</i>. In equal abundance I have found the
<i>A. acervorum</i> at Charlton, where I have experienced
a similar battery. This is the insect which Gilbert
White, in his letters from Selborne, describes as having
found in numbers at Mount Caburn, near Lewes, a spot
I have often visited in my schoolboy days. This section
is subject to the parasitism of the genus <i>Melecta</i>,
whose incursions are very repugnant to them, and which
they exhibit in very fierce pugnacity, for if they catch
the intruder in her invasion they will draw her forth and
deliver battle with great fury. I have seen both the
combatants rolling in the dust, the combat and escape
made perhaps easier to the <i>Melecta</i> by the load the
<i>Anthophora</i> was bearing home. Upon the larva also of
this bee it is said that the larva of the Heteromerous
genus <i>Meloë</i> is nurtured; this I have never been able to
verify, but I believe the fact is fully confirmed. This
beetle is closely allied to the <i>Cantharides</i>, or blister-beetles,
and it itself exudes a very acrimonious yellow
liquid when touched or irritated. Two of the <i>Chalcididæ</i>
also infest their larvæ, which they destroy; one is
.pn +1
.bn 255.png
the <i>Melittobia</i>, named thus from its preying upon bees;
it, like the majority of its tribe, is exceedingly minute,
and of a shining dark green metallic colour. It is peculiar
from having its lateral eyes simple, and in possessing
besides three ocelli. The other genus is <i>Monodontomeris</i>,
an equally small insect, which, although living
upon the larva of <i>Anthophora</i>, is equally preyed upon by
that of the <i>Melittobia</i>. The universal scourge, <i>Forficula</i>,
is a great devastator of these colonies, where, of course,
it revels in its destructive propensities.

The insects of the second division I have never been
able to track to their burrows, but have always caught
them either on the wing or on flowers, especially upon
those of the common Mallow, and I have found both species
all round London. They are said also to frequent the
Dead Nettle (<i>Lamium purpureum</i>). The <i>A. quadrimaculata</i>
burrows in banks, and its processes are scarcely
different from those of the preceding species, only its
habits are solitary. In flight it is exceedingly rapid,
and thus much resembles <i>Saropoda</i>. But the <i>A. furcata</i>
bores into putrescent wood, in which it forms a longitudinal
pipe subdivided into nine or ten oval divisions,
separated from each other by agglutinated scrapings of
the same material, very much masticated, the closing of
each forming a sharp sort of cornice; each of these cells
is about half an inch in length, and three-tenths of an
inch in diameter, the separations between them being
about a line thick. These pipes or cylinders run parallel
to the sides of the wood thus bored, an angle being
made both at its commencement and its termination,
and thus the latter permits the ready escape of the developed
imago nearest that extremity, which being the
first deposited, that cell being the first constructed, it
.pn +1
.bn 256.png
necessarily becomes the first transmuted, and thus has
not to wait for the egress of all above it.

All these insects are usually accompanied by their
partners in their flight, and their amorous intercourse
takes place upon the wing.
.hr 10%
.nf c
Genus 12. <sc>Saropoda</sc>, <i>Latreille</i>.
(#Plate VII.:PLATE-VII# fig. 2 ♂♀.)
<sc>Apis</sc> ** <i>d</i>, 2, a, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, as wide as the thorax,
very pubescent; <i>ocelli</i> placed in a triangle, the anterior
one low towards the face; <i>vertex</i> slightly concave; <i>antennæ</i>
short, filiform, basal joint of flagellum globose,
the second joint subclavate and the longest, the rest
short and equal; <i>face</i> flattish, short; <i>clypeus</i> forming
an obtuse triangle, slightly convex; <i>labrum</i> quadrate,
with the angles rounded; <i>mandibles</i> obtusely bidentate;
<i>cibarial apparatus</i> long; <i>tongue</i> very long and slender,
but gradually expanding towards half its length and then
as gradually tapering to the extremity and terminating
in a small knob, its sides throughout being fimbriated
with short delicate down; <i>paraglossæ</i> one-third its
length, membranous, very delicate, and tapering to a
point; <i>labial palpi</i> slender, membranous, the joints conterminous,
the basal joint more than half the length of
the tongue, the remainder short, the second the longest
of these three, and all tapering to the pointed apical
one; <i>labium</i> scarcely one-third as long as the tongue,
rather broad, bifid at its inosculation; <i>maxillæ</i> nearly as
long as the tongue, gradually diminishing from its basal
sinus to a point at its extremity; <i>maxillary palpi</i> four-jointed,
.pn +1
.bn 257.png
about one-third the length of the maxillæ, the
basal joint short, robust, the second tapering from its
base to the third joint, which is rather shorter and subclavate,
the terminal joint slender. <sc>Thorax</sc> very pubescent,
rendering its divisions inconspicuous; <i>scutellum</i>
and <i>post-scutellum</i> lunulate and convex; <i>metathorax</i>
truncated; <i>wings</i> as in <i>Anthophora</i>, with three marginal
cells closed, the second forming a truncated triangle,
and receiving the first recurrent nervure near its centre,
the third bulging outwardly and receiving the second
recurrent nervure at its extremity; <i>legs</i> very setose,
especially the posterior tibiæ externally, and their plantæ
both externally and internally, but the setæ are longer
on the exterior of the joint, the second joint of these
tarsi inserted beneath, and before the termination of
their plantæ, the terminal joint longer than the two
preceding; <i>claws</i> bifid, the inner tooth distant from the
apex. <sc>Abdomen</sc> subovate, very convex, truncated at its
base, where it is densely pubescent, the fifth segment fimbriated
with stiff setæ, and the terminal segment having
a central triangular plate with rigid setæ at its sides.

The <sc>MALE</sc> scarcely differs, excepting in the characteristic
sexual disparities of slightly longer antennæ, and
considerably longer intermediate tarsi, whose apical joint
is very clavate.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>bimaculata</i>, Panzer. ♂ ♀. 4-5 lines.\
(#Plate VII.:PLATE-VII# fig. 2 ♂ ♀.)
   <i>bimaculata</i>, Kirby.
   <i>rotundata</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
The name of this genus is as applicable to the subsection
.pn +1
.bn 258.png
as to the genus itself, <i>σάρος</i>, <i>brush</i>,
 <i>ποῦς ποδὸς</i>, <i>a foot</i>, in allusion to their
 polliniferous posterior legs.

We have but one species, but it is very characteristic;
for, although retaining several of the features of the
second division of <i>Anthophora</i> (in the colouring of the
face it participates with the males of both divisions),
yet has it still a marked physiognomy of its own; it
retains the normal colouring of bees generally, but its
strongest distinction from that division of <i>Anthophora</i>
is the shortness of the antennæ in the female, as in the
length of the intermediate legs of the male it would
seem to form a link between the two divisions, could a
distinct genus stand in such a position, and would almost
import the necessity of elevating that division to
generic rank, as hinted at in the observations under
<i>Anthophora</i>. In the large development of its claws it
seems to point to an economy somewhat differing from
that second division, but nobody appears to have traced
it to its nidus. I have often captured it at Battersea
upon the Mallow, together with <i>A. quadrimaculata</i>, but
the singular velocity of its flight might indicate a very
distant domicile,—in a few minutes it could traverse
miles. The electrical vivacity and rich opaline tint of
its eyes has been often observed, but this, unfortunately,
fades with death; yet so marked is it that it has called
forth the distinct observation of a Panzer and a Kirby.
Besides the Mallow it has been observed to frequent the
Heaths, and were its habits better known would be found,
I have no doubt, to visit many other flowers, for Curtis
took it in the Isle of Wight sleeping in the great Knapweed,
<i>Centaurea scabiosa</i>. I have never caught it laden.

I have hazarded the conjecture in a different part of
this work that the music of the bees might be attuned
.pn +1
.bn 259.png
to a musical scale by associating the different species in
the due gradation of their varying tones. Here we have
one of the most musical of the tribe,—not a monotonous
dull sleepy hum, but a fine <i>contralto</i>, the very Patti
amongst the bees. But it is rapidity of motion which
in them intensifies the note they chant, and the velocity
of the flight of this insect is something remarkable.
They dart about with almost the rapidity of a flash of
lightning, and this swiftness of approach and retreat
modulates their accents.

Under the head “Macropis” I have pointed to some
strong resemblances between this genus and that.
.hr 10%
.nf c
Genus 13. <sc>Ceratina</sc>, <i>Latreille</i>.
(#Plate VII.:PLATE-VII# fig. 3 ♂ ♀.)
<sc>Apis</sc> ** <i>d</i> 2, a, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, convex, glabrous;
<i>ocelli</i> placed in a triangle on the vertex, which is, as
well as the face, convex; <i>antennæ</i> short, subclavate, each
inserted in a separate deep cavity in the centre of the face, the
first joint of the flagellum globose, the second the longest of
all and slender at its base, but all gradually enlarging to the
extremity; <i>clypeus</i> very gibbous; <i>labrum</i> quadrate,
convex; <i>cibarial apparatus</i> long; <i>tongue</i> long and
tapering, and with a minute knob at its extremity;
<i>paraglossæ</i> obsolete; <i>labial palpi</i> three-fourths as
long as the tongue, the two first joints membranous and
diminishing in width, the second joint rather shorter than the
basal one and acute at its extremity, and externally before its
termination the two very short terminal ones are inserted;
<i>labium</i> half the length of the tongue,
.pn +1
.bn 260.png
with a lozenge-shaped inosculation; <i>maxillæ</i> as long as
the tongue, broad at the base, whence it abruptly acuminates
to the slender apex; <i>maxillary palpi</i> six-jointed,
filiform, the three first joints subequal, the three terminal
gradually decreasing in length. <sc>Thorax</sc> oval,
glabrous; <i>prothorax</i> inconspicuous; <i>mesothorax</i> with a
central basal groove, the <i>bosses</i> conspicuous and shining;
<i>scutellum</i> and <i>post-scutellum</i> lunulate; <i>metathorax</i>
subtruncate; <i>wings</i> with three submarginal cells and a
fourth slightly commenced, the second in the form of a
truncated triangle, the third considerably larger than
the second, and each receiving a recurrent nervure just
beyond the centre; <i>legs</i> plumose but not densely so, the
hair very long within the posterior tibiæ, but denser
and shorter on its exterior; the <i>posterior plantæ</i> also
plumose, and all the joints of the posterior tarsi conterminous;
<i>claws</i> bifid. <sc>Abdomen</sc> glabrous, subclavate,
very convex above and flat beneath, subtruncate at the
base, and the basal segments slightly constricted.

The <sc>MALE</sc> scarcely differs, excepting in the <i>clypeus</i>
being less gibbous, the <i>legs</i> not plumose, and the sixth
segment of the <i>abdomen</i> carinated in the centre towards
its extremity, and impending over the seventh, which
is transversely gibbous, then depressed, and with an obtuse
process at its extremity.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>cærulea</i>, Villers, ♂ ♀. 2-3 lines.\
(#Plate VII.:PLATE-VII# fig. 3 ♂ ♀.)
   <i>cyanea</i>, Kirby.
2. <i>albilabris</i>, Fabricius, ♂ ♀. 2½ lines.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus is named from the presence of a little
.pn +1
.bn 261.png
horn between its antennæ, <i>κερατίνη</i>, <i>a horn</i>. Some
foreign entomologists, especially Latreille and Le Pelletier
de St. Fargeau, have considered it to be parasitical,
but that it is not so we have the authority of the Marquis
Spinola, of Genoa, confirmed by the testimony of
Mr. Thwaites, a very accurate observer, in the vicinity of
Bristol, where the insect is not at all uncommon, although
extremely rare in most other parts, and consequently
usually a desideratum to cabinets, from its great
beauty both of form and colour, notwithstanding that it
is so very small in size. It has also been found in other
localities, as at Birchwood, where the late Mr. Bambridge
used to take it, and as near London as Charlton, at
both which places I have no doubt it might frequently
be found were it carefully looked for, but the practised
entomological eye is often wanting to detect an insect
unless it be conspicuously present. Its usual nidus is a
bramble or briar stick, from which it excavates the pith,
and this it has been frequently observed doing, and both
sexes have been repeatedly bred from such sticks. We
have no notice of any peculiarity in its mode of forming
its cells, which may resemble that of such wood-boring
genera as <i>Chelostoma</i> and <i>Heriades</i>, although its
structure would intimate a closer affinity to the habits of
the exotic genus <i>Xylocopa</i>; nor is there extant any account
of the process or time occupied in the development
of its young. Spinola’s notion, from not seeing the
sufficiency of the hair upon the posterior tibiæ for the
purpose, assumed that the pollen was conveyed home
on the forehead and between the antennæ, he having
caught an insect with some pollen accidentally incrusted
there in the insect’s honey-seeking excursion. The
hair upon these legs is very sparse, it is true, but then it
.pn +1
.bn 262.png
is very long, and the quantity of pollen required for the
nurture of the larva is evidently small, from its having
been observed that the store upon which the egg is deposited
is semi-liquid, thus preponderating in the admixture
of honey.

That it has not been caught laden with pollen upon
its legs has no weight against the fact of its non-parasitism,
for it is not always that the excursions of bees
are made for the purpose of collecting pollen. Honey
is as necessary to their economy—and in this case perhaps
more so—as pollen, and the only way to determine
the fact of its carrying pollen, corroboratively, would
be when knowing that one of these bees has visited a
bramble stick—its presumptive nidus,—to watch the
stick very patiently for the insect’s return from every
journey until it came back laden; the presence of
pollen upon its legs would surely be indicated by the
difference of its colour from the ordinary dark hue of
the little labourer.

We have already noticed bees with metallic hues
among the <i>Halicti</i>, and there are slight indications of it
in some of the <i>Andrenæ</i>, for instance, in the <i>A. cinerea</i>
and the <i>A. nigro-ænea</i>, etc., but in none hitherto so
absolutely is it exhibited as in this genus. The prevalent
colour of the bees, that is to say, the ground colour
of the integument, and not the fleeting one of the pubescence,
is black or brown, but here we have a positive
metallic tinge, which we shall again come across in
many shades and hues in the genus <i>Osmia</i>.

A second species of the genus was brought from
Devonshire by Dr. Leach, and is in the collection of the
British Museum, but no other specimens of the same
species have since been found.
.pn +1
.bn 263.png

The only flower which it has been noticed that they
frequent is the Viper’s Bugloss (<i>Echium vulgare</i>).
.hr 10%
.nf c
<s>Subsection 2. <sc>Nudipedes</sc> (naked-legged cuckoo-bees).
a. <i>With three submarginal cells to the wings.</i></s>
Genus 14. <sc>Nomada</sc>, <i>Fabricius</i>.
(Plates #VIII.:PLATE-VIII#, #IX.:PLATE-IX#, #X.:PLATE-X#)
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse; <i>ocelli</i> in a
triangle on the vertex; <i>antennæ</i> filiform, scarcely
geniculated, the
scape short, the basal joint of the flagellum subglobose,
the second joint clavate, the remainder subequal; <i>face</i>
flat, or slightly concave, carinated longitudinally in the
centre between the insertion of the antennæ; <i>clypeus</i>
subtriangular, convex, deflected at the lateral angles;
<i>labrum</i> subcircular, very gibbous and protuberant;
<i>mandibles</i> acute or subbidentate; <i>tongue</i> long, acute;
<i>paraglossæ</i> about one-fourth its length, acute; <i>labial
palpi</i> two-thirds the length of the tongue, the two basal
joints membranous, the basal one as long as the rest
united, and tapering to its extremity, the second joint
less than half the length of the first, and not wider at
its base than the apex of the first joint, and tapering
like that to its end, where it is acute, the third joint
short, subclavate, and the terminal one-half the length
of the preceding, very slender and linear; <i>labium</i> about
one-half the length of the tongue, and at its inosculation
produced obtusely in the centre; <i>maxillæ</i> subhastate,
about the length of the tongue; <i>maxillary palpi</i> six-jointed,
the basal joint short, robust, subclavate, the
second the longest, and with the rest tapering in substance
and diminishing in length to the extremity, the
.pn +1
.bn 264.png
terminal joint being very little shorter than the preceding.
<sc>Thorax</sc> ovate; <i>prothorax</i> inconspicuous, or distinct
and angulated laterally; <i>mesothorax</i> glabrous, deeply
punctulated; its <i>bosses</i> conspicuous and prominent;
<i>scutellum</i> divided into two very prominent tubercles;
<i>post-scutellum</i> linear, convex; <i>metathorax</i> with a triangular
space at its base, and declining to the insertion
of the abdomen; <i>wings</i> with three submarginal cells,
and a fourth very slightly commenced, the first as long
as the two following, and each of which receives a recurrent
nervure about its centre; <i>legs</i> subspinose externally
on the tibiæ, and not polliniferous; <i>claws</i> of tarsi
small and not bifid. <sc>Abdomen</sc> oval, glabrous, shining;
terminal segment triangular, with its sides ridged.

The <sc>MALE</sc> scarcely differs, excepting in sometimes
being more profusely adorned with colour, but this is not
always the case, the female being often the most ornate.
There are very slight differences in the antennæ in the
sexes, which may be readily associated together.
.sp 2
.nf c
NATIVE SPECIES.

§ <i>With filiform antennæ.</i>
.nf-
.in 4
.nf l
 1. <i>sexfasciata</i>, Panzer, ♂ ♀. 5-6 lines. (#Plate VIII.:PLATE-VIII# fig.\
 3 ♂ ♀.)
    <i>Schæfferella</i>, Kirby.
    <i>connexa</i>, Kirby.
 2. <i>Goodemana</i>, Kirby, ♂ ♀. 4-5 lines.\
(#Plate VIII.:PLATE-VIII# fig. 1 ♂ ♀.)
    <i>? succincta</i>, Panzer.
 3. <i>alternata</i>, Kirby, ♂ ♀. 4-5 lines.
    <i>Marshamella</i>, Kirby.
 4. <i>Lathburiana</i>, Kirby, ♂ ♀. 4-5½ lines.\
(#Plate VIII.:PLATE-VIII#fig. 2 ♂ ♀.)
.pn +1
.bn 265.png
 5. <i>varia</i>, Panzer, ♂ ♀. 4-4½ lines.
    <i>varia</i>, Kirby.
    <i>fucata</i>, Kirby.
 6. <i>ruficornis</i>, Linnæus, ♂ ♀.
    <i>ruficornis</i>, Kirby.
    <i>leucophthalma</i>, Kirby.
    <i>flava</i>, Kirby.
 7. <i>lateralis</i>, Panzer, ♂ ♀.  4-4½ lines.\
(#Plate X.:PLATE-X# fig. 3 ♂ ♀.)
 8. <i>ochrostoma</i>, Kirby, ♂ ♀. 4-4½ lines. Hillana, Kirby.
 9. <i>signata</i>, Jurine, ♂ ♀. 4-5 lines.\
(#Plate IX.:PLATE-IX# fig. 1 ♂ ♀.)
10. <i>borealis</i>, Zetterstedt, ♂ ♀. 3½-5 lines.
11. <i>lineola</i>, Panzer, ♂ ♀. 4-6 lines.
    <i>cornigera</i>, Kirby.
    <i>subcornuta</i>, Kirby.
    <i>Capreæ</i>, Kirby.
    <i>sexcincta</i>, Kirby.
12. <i>xanthosticta</i>, Kirby, ♂ ♀. 2-2¾ lines.
13. <i>flavoguttata</i>, Kirby, ♂ ♀. 2-3 lines.\
(#Plate IX.:PLATE-IX# fig. 3 ♂ ♀.)
14. <i>furva</i>, Panzer, ♂ ♀. 2-2½ lines.
    <i>rufocincta</i>, Kirby.
    <i>Sheppardana</i>, Kirby.
    <i>Dalii</i>, Curtis.
15. <i>Germanica</i>, Panzer, ♂ ♀.  4 lines.
    <i>ferruginata</i>, Kirby.
16. <i>Fabriciana</i>, Linnæus, ♂ ♀. 3½-5 lines.\
(#Plate IX.:PLATE-IX# fig. 2 ♂ ♀.)
    <i>Fabriciella</i>, Kirby.
    <i>quadrinotata</i>, Kirby.
17. <i>armata</i>, Schaeffer, ♂ ♀. 5-5½ lines.
.pn +1
.bn 266.png
    <i>Kirbii</i>, Stephens.
.nf-
.in 0
.nf c
§§ <i>With subclavate antennæ.</i>
.nf-
.in 4
.nf l
18. <i>Jacobeæ</i>, Panzer, ♂ ♀. 4-4½ lines.\
(#Plate X.:PLATE-X# fig. 1 ♂ ♀.)
    <i>Jacobeæ</i>, Kirby.
    <i>flavopicta</i>, Kirby.
19. <i>Solidaginis</i>, Panzer, ♂ ♀. 3½-4 lines.\
(#Plate X.:PLATE-X#\
fig. 2 ♂ ♀.)
    <i>picta</i>, Kirby.
    <i>rufopicta</i>, Kirby.
20. <i>Roberjeotiana</i>, Panzer, ♂ ♀. 3 lines.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus was named by Fabricius from the <i>Nomades</i>,
a pastoral Scythian tribe, in allusion to the assumed
wandering habits of the insects, and it is the fact indeed
that they are usually found leisurely hovering about
hedge-rows, or the banks enclosing fields, or about the
metropolis or nidus of any bee upon which they are
parasitical. They are the gayest of all our bees, their
colours being red or yellow intermixed with black, in
bands or spots; they are also very elegant in form,
which is after the type of that of the most normal <i>Andrenidæ</i>,
and to which they have a further affinity by
the silence of their flight, and by their parasitism upon
many of the species of that subfamily. From their
very general resemblance to wasps in colour they are
often mistaken for wasps, and are popularly called wasp-bees,
although they have none of the virulence of that
vindictive tribe, for although all the females are armed
with stings, they are not prompt in their use, or if
roused to defence the puncture is but slight. In addition
.pn +1
.bn 267.png
to their prettiness of colour and elegance of form,
they have a further attraction in the agreeable odours
they emit, sometimes of a balmy or balsamical, and
sometimes of a mixed character, and often as sweet as
the <i>pot-pourri</i>, and occasionally pleasantly pungent. A
fine string of specimens of the several species is a great
ornament to a collection, but to secure this in its perfection
some care is required in the mode of killing
them. Their colours are best permanently retained by
suffocating them with sulphur, which fixes the reds and
yellows in all their natural and living purity. My
method was in my collecting excursions to convey with
me a large store of pill-boxes of various sizes, and as
I captured insects in my green gauze bag-net, I transferred
them separately to these boxes. When home
again I lifted the lids slightly on one side and placed as
many as would readily go beneath a tumbler, and then
fumigated them with the sulphur. This is a better
plan than killing them with crushed laurel-leaves, for it
leaves the limbs much longer flexible for the purposes
of setting, whereas the laurel has a tendency to make
them rigid, and this rigidity is extremely difficult to
relax, whereas the setting of those killed with sulphur,
if they are kept in a cool place, may be deferred for a
few days, until leisure intervene to permit it, and even
then if they become stiffened they are readily relaxed
for the purpose.

A division might very consistently be established in
the genus by the separation of those which have subclavate
antennæ, and the segments of whose abdomen
are slightly constricted; these also are more essentially
midsummer insects, and usually frequent the Ragwort.
This is the only genus of parasites amongst the true
.pn +1
.bn 268.png
bees whose parasitism is directed exclusively upwards in the
scientific arrangement; the parasitism of all the rest of the
genera of <i>Nudipedes</i> bears upon the genera below them in
the series. Some of the species of the <i>Nomadæ</i> attack more
than one species or one genus, but the majority are strictly
limited to but one genus and one species. The genera obnoxious to
this annoyance are <i>Andrena</i>, <i>Halictus</i>,
<i>Panurgus</i>, and <i>Eucera</i>; the latter two have but one
of these enemies each, the <i>Nomada Fabriciana</i> infesting the
<i>Panurgus Banksianus</i>, and the <i>N. sexfasciata</i>
frequenting the <i>Eucera longicornis</i>. Under <i>Panurgus</i>
I have alluded to the relative abundance of the parasite at the
metropolis of its sitos. As far as known, the other species are
thus distributed. Those frequenting several indifferently are the
<i>Nomada alternata</i>, <i>Lathburiana</i>, <i>succincta</i>,
and <i>ruficornis</i>, which are found to infest <i>Andrena
Trimmerana</i>, <i>tibialis</i>, <i>Afzeliella</i>, and
<i>fulva</i>, without displaying any choice; whereas others
confine themselves to one sitos exclusively: thus <i>Nomada
ochrostoma</i> limits itself to <i>Andrena labialis</i>; <i>N.
Germanica</i> to <i>A. fulvescens</i>; <i>N. lateralis</i> to
<i>A. longipes</i>; <i>N. baccata</i> to <i>A. argentata</i>;
<i>N. borealis</i> to <i>A. Clarkella</i>; <i>N. Fabriciana</i>
to <i>Panurgus Banksianus</i>; and <i>N. sexfasciata</i> to
<i>Eucera longicornis</i>. Observation has not yet fully
determined whither each species of <i>Nomada</i> conveys its
parasitism; several infest the <i>Halicti</i>, especially the
smaller species; the association of these it is difficult to
determine; I have usually found several of the small
<i>Halicti</i> burrowing together in the vertical surface of an
enclosure bank, and several of the small <i>Nomada</i> hovering
cautiously opposite, now alighting and entering a burrow, then
retreating backwards and winging off. I lost patience in
endeavouring to combine the
.pn +1
.bn 269.png
species by the aid of blades of grass or slight straws
thrust into the aperture, but the crumbling nature of
the soil frustrated my wishes, and I abandoned the attempt.
This field of observation is widely open to the
exertions of observing naturalists, and the novelty of
their discoveries would well reward the toil of the undertaking,
for it would not be long before they gathered
fruit.
.hr 10%
.nf c
Genus 15. <sc>Melecta</sc>, <i>Latreille</i>.
(#Plate XI.:PLATE-XI# fig. 1 ♂ ♀.)
<sc>Apis</sc> ** <i>a</i>, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> transverse, scarcely so wide as
the thorax; <i>ocelli</i> in a triangle on the vertex;
<i>antennæ</i> filiform, rather robust, and but slightly
geniculated, the scape not longer than the two following joints,
the second joint of the flagellum the longest and clavate, the
rest short, nearly equal, and the terminal one laterally
compressed at its extremity; <i>face</i> flat, very pubescent;
<i>clypeus</i> short transverse, lunulate, convex; <i>labrum</i>
irregularly gibbous, obovate; <i>mandibles</i> strongly
bidentate; <i>tongue</i> long, slightly expanding towards the
middle and thence tapering to the extremity, and with a central
line; <i>paraglossæ</i> scarcely half the length of the tongue,
almost setiform, but robust at the base; <i>labial palpi</i> more
than half the length of the tongue, the two first joints
membranous and very slender, the first longer than the rest
united, the second about half the length of the first, and
terminating acutely, the third not more than one-fourth the
length of the second, and inserted laterally before its
termination, the fourth about as long
.pn +1
.bn 270.png
as the third, and, like it, subclavate, both being more
robust than the second; <i>labium</i> not half the length of
the tongue, and acutely triangular at its inosculation;
<i>maxillæ</i> subhastate, not quite so long as the tongue;
<i>maxillary palpi</i> five-jointed, about one-third the length
of the maxillæ, the basal joint clavate, short, and robust;
the second elongate, subclavate, the remainder gradually
but slightly diminishing in substance and length, the
terminal not so long as the basal joint. <sc>Thorax</sc> very
retuse, and its divisions scarcely distinguishable; <i>scutellum</i>
bidentate; <i>metathorax</i> abruptly truncated; <i>wings</i>
with three closed submarginal cells, the second the
smallest, irregularly triangular, and receiving the first
recurrent nervure just beyond its centre, the third submarginal
considerably larger than the second, sublunulate,
but angulated externally and receiving the second
recurrent nervure about its centre; the <i>legs</i> robust and
spinulose, especially the tibiæ externally (where they are
very convex) and the femora beneath; the <i>claws</i> short,
strong and bifid. The <sc>Abdomen</sc> conical, truncated, and
retuse at its base, the apical segment with a central
triangular plate ridged laterally, and fimbriated at its
sides with strong setæ.

The <sc>MALE</sc> scarcely differs in personal appearance,
excepting that its antennæ are more robust and its
ornamental pubescence is more profuse, its posterior
tibiæ very robust and almost triangular, and the terminal
segment of its abdomen slightly emarginate and concave
at its extremity.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. punctata, Fabricius, ♂ ♀. 6 lines. (#Plate XI.:PLATE-XI# fig. 1 ♂ ♀.)
.pn +1
.bn 271.png
   <i>? Atropos</i>, Newman.
   <i>? Lachesis</i>, Newman.
2. <i>armata</i>, Panzer, ♂ ♀. 6-7 lines.
   <i>punctata</i>, Kirby.
   <i>? Tisiphone</i>, Newman.
   <i>? Alecto</i>, Newman.
   <i>? Clotho</i>, Newman.
   <i>? Megæra</i>, Newman.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
Named from <i>μέλι</i>, <i>honey</i>, <i>λέγω</i>, <i>I
collect</i>; which is scarcely the case, for the parasites,
although they may indulge in the luxury of honey as epicures, or
resort to it as a repast, cannot be said to collect it, for it is
only the labouring bees that truly collect it for the purpose of
storing.

These insects are extremely handsome, their ground-colour
being intensely black, brightly shining on the
abdomen, upon the segments of which it is laterally
ornamented with silvery pubescent tufts and spots; the
black legs are also variously ringed with similar silver
down. The great variation these spots and markings
undergo—from what cause we know not—has induced
several entomologists to consider them as distinct species.
But the strongest varieties so rarely recur with
identical ornaments, and as almost all can be closely
connected together in a regular series by interlacing
differences impossible to divide, it would be certainly
incorrect, without stronger characteristics, to raise such
fugitive variations to specific rank. Whether the curious
spines of the scutellum which they possess furnish
a more certain character is doubtful, for we find
all such processes equally liable to variation in size and
.pn +1
.bn 272.png
form. What can be the uses of these spines? They
can hardly be for defence, although an entomologist
has said that a male which he held endeavoured to
pinch by that means. We find similar processes in
the same situation in <i>Cœlioxys</i>, equally a parasitical
genus; but the former genus infests the <i>Scopulipedes</i>
and the latter the <i>Dasygasters</i>, whose economies are
so very different, and thus it can hardly be supposed
to have reference to habits. In <i>Epeolus</i> and <i>Stelis</i> the
same part is mucronated, a tendency to which we see in
the <i>Nomadæ</i> with subclavate antennæ. Under <i>Anthophora</i>
I have given an account of the pugnacious spirit
of these insects in their contests with the sitos, and it is
necessary to be cautious in handling them, as they sting
very severely. Our two native species are parasitical
upon the two species of the first division of <i>Anthophora</i>,—those
which are gregarious. The circumstance of <i>Melecta</i>
being often caught with many of the extremely
young larvæ of <i>Meloë</i> upon it seems to confirm the fact
of this coleopterous insect preying upon <i>Anthophora</i>, as
it may be thus assumed to prey simultaneously upon the
larva of <i>Melecta</i>. I have never captured these insects
upon flowers, nor can I trace what flowers they frequent,
although Latreille tells us, in the name he has
imposed, that they are honey collectors; but Curtis reports
that he has found the genus upon the common
furze or whin (<i>Ulex Europæus</i>).
.hr 10%
.nf c
Genus 16. <sc>Epeolus</sc>, <i>Latreille</i>.
(#Plate XI.:PLATE-XI# fig. 2 ♂ ♀.)
<sc>Apis</sc> ** <i>b</i>, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Body</sc> glabrous. <sc>Head</sc>
transverse, vertex
.pn +1
.bn 273.png
convex; <i>ocelli</i> placed in a triangle on its summit;
<i>antennæ</i> short, linear, the joints of the flagellum subequal;
<i>face</i> flat, carinated longitudinally in its centre
between the insertion of the antennæ; <i>clypeus</i> transverse,
lunulate, convex, margined anteriorly; <i>labrum</i>
transversely ovate, with a small process in the centre in
front; <i>mandibles</i> bidentate, the internal tooth minute,
the external robust and broad; <i>tongue</i> rather long, more
than twice the length of the labium, tapering to its extremity;
<i>paraglossæ</i> short, about one-fourth the length
of the tongue, broad at the base, and acuminate towards
the apex; <i>labial palpi</i> more than half the length of the
tongue, the basal joint longer than the three following,
membranous, and gradually decreasing to the second,
which is one-third the length of the first, and acute at
its apex, where the third subclavate joint is articulated,
the terminal joint considerably shorter than the third;
<i>labium</i> not more than one-third the length of the tongue,
and trifid at its inosculation, the central division being
hastate; <i>maxillæ</i> subhastate, more than one-half the
length of the tongue; <i>maxillary palpi</i> consisting of one
robust short conical joint inserted in a deep circular receptacle.
<sc>Thorax</sc> subglobose; <i>prothorax</i> conspicuous,
with its lateral angles slightly prominent; <i>mesothorax</i>
with its bosses prominent; <i>wing</i>-scales large; <i>scutellum</i>
transverse, gibbous, margined posteriorly, slightly
mucronated laterally, slightly depressed in the centre,
and impending over the <i>post-scutellum</i>, which is inapparent;
<i>metathorax</i> abruptly truncated; <i>wings</i> with
three submarginal cells, and a fourth feebly commenced,
the first as long as the two following, the second subtriangular,
and receiving the first recurrent nervure about
its centre, and the third lunulate, and receiving the
.pn +1
.bn 274.png
second recurrent nervure also about the centre; <i>legs</i>
short, stout, the <i>tibiæ</i> slightly spinulose externally;
<i>claws</i> very small, short, robust and simple.
<sc>Abdomen</sc> obtusely conical, truncated at the base, its
terminal segment triangular, and the lateral margins slightly
reflected.

The <sc>MALE</sc> scarcely differs, excepting in the usual male
characteristics, and that the apical segment of the abdomen
is rounded and margined.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>variegatus</i>, Linnæus, ♂ ♀. 3-4 lines.\
(#Plate XI.:PLATE-XI# fig. 2 ♂ ♀.)
   <i>variegatus</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
It is difficult to assign a reason for the name of this
genus, or to trace an applicable derivation from <i>ἐπίαλος</i>,
for the insect in no way suits, either directly or by anti-phrase,
any of the significations of this word. It is one
of the prettiest of our little bees, and is parasitical upon
the <i>Colletes Daviesiana</i>, and it may be found in abundance
wherever the metropolis of this species occurs. There
is one special locality near Bexley, in Kent, a vertical
sandbank within a few hundred yards of the village,
where I have always found it in the spring months, and
have there taken it as numerously as I wished. I have
already alluded, in another part of this work, to the
uniformly greater beauty of the parasitical bees, to those
which they infest, and their exceedingly different appearance
in every case excepting in that of the genus <i>Apathus</i>.
We might have expected that they would have
been disguised like these, the better to carry on their
nefarious practices, but what can well be more dissimilar
than <i>Epeolus</i> and <i>Colletes</i>, or than <i>Nomada</i>
and all its
.pn +1
.bn 275.png
supporters, and the same of <i>Melecta</i>, <i>Cœlioxys</i>, and
<i>Stelis</i>. These facts puzzle investigation for a reason; nor
will the perplexity be speedily solved. All that we can surmise
is that there must be a motive for it, for wherever we
successfully elicit her secret from the veiled goddess, we
invariably find the reason founded in profound wisdom. In some
cases the mystery seems devised to test our sagacity, but it
cannot be so here, for the most palpable and plausible cause that
would suggest itself in the supposition of its being for the
guardianship and apprisal of the sitos is often contravened, as
in this instance, by it and its parasite living in great harmony
together, again by the desertion of its nidus by <i>Eucera</i> in
favour of the parasite, although itself is a very much more
powerful insect; but in the cases of <i>Panurgus</i>,
<i>Halictus</i>, and <i>Andrena</i>, they all live well
reconciled to the intrusion of the stranger’s young, and this,
without their enumeration, may be adopted as nearly the universal
case. The hostility of <i>Anthophora</i>, previously noticed, is
an almost insulated case of the contrary. The form of these
insects does not promise much activity, and we accordingly find
that they are slow, heavy, and indolent; yet they must be
cautiously handled, for they sting acutely; but indeed it is not
well ever to handle insects whose markings, as we find them in
these, consist of a close nap, as evanescent as the down upon a
plum, and of course the fingers carry it readily off, and
disfigure the beauty of the little specimen. When their special
habitat is not known they may often be found upon the blossoming
Ragwort in the vicinity, or upon the Mouse-ear Hawkweed
(<i>Hieracium murorum</i>) within whose flowers they are
frequently observed enjoying their siesta.
.pn +1
.bn 276.png
.hr 10%
.nf c
<s>b. <i>With two submarginal cells.</i></s>
Genus 17. <sc>Stelis</sc>, <i>Panzer</i>.
(#Plate XI.:PLATE-XI# fig. 3 ♂ ♀.)
<sc>Apis</sc> ** <i>c</i>, 1 <i>β</i>, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Body</sc> glabrous, much punctured. <sc>Head</sc>
transverse, curving posteriorly to the thorax, where it is
angulated laterally; <i>ocelli</i> in a triangle at the summit
of the vertex; <i>antennæ</i> short, slender, filiform, scarcely
geniculated, the scape about as long as the three first
joints of the flagellum, all the joints of which are subequal
but slightly increasing in length towards the apical
one, which is a little compressed laterally; <i>face</i> entirely
flat; <i>clypeus</i> transverse, rather convex; <i>labrum</i> elongate,
convex; <i>mandibles</i> robust, tridentate, the external tooth
considerably the stoutest; <i>cibarial apparatus</i> long, tongue
three times as long as the labium, slightly inflated in the
centre, and terminating in a small knob; <i>paraglossæ</i>
very short, not more than one-sixth the length of the
tongue and acuminate; <i>labial palpi</i> about two-thirds
the length of the tongue, the two first joints membranous,
the basal one the most robust, and both tapering
to an acute apex, shortly before which the two very short
subclavate terminal joints articulate; <i>labium</i> about one-third
the length of the tongue, its inosculation trifid,
the central division considerably the longest and truncated
at its extremity; <i>maxillæ</i> subhastate, nearly as long
as the tongue, acutely acuminated towards their apex;
<i>maxillary palpi</i> very short, two-jointed, the basal joint
subclavate and slightly the longest, and inserted in a
circular cavity, the terminal joint short ovate. <sc>Thorax</sc>
subglobose; <i>prothorax</i> inconspicuous; <i>mesothorax</i> very
convex; <i>scutellum</i> lunulate, very gibbous, and impending
.pn +1
.bn 277.png
over the post-scutellum and metathorax, mucronated
laterally; <i>metathorax</i> abruptly truncated; <i>wings</i> with
two submarginal cells, and a third very slightly commenced,
the two subequal, the second being the largest
and receiving the first submarginal cell near its commencement
and the second at the inosculation of the
terminal transverso-cubital nervure; <i>legs</i> short, moderately
stout, the <i>tibiæ</i> very slightly setose externally;
<i>claws</i> short, bifid, the internal tooth near the external.
<sc>Abdomen</sc> oblong, truncated at its base, very convex above
and flat beneath, deflexed towards its extremity, and the
terminal segment almost rounded, being very slightly
produced in the centre and margined.

The <sc>MALE</sc> scarcely differs, excepting in the usual male
characteristics, and by the apical segment being obsoletely
tridentate.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>aterrima</i>, Panzer, ♂ ♀. 4-4½ lines.
   <i>punctulatissima</i>, Kirby,
2. <i>phæoptera</i>, Kirby, ♂ ♀. 4-4½ lines.\
(#Plate XI.:PLATE-XI# fig. 3 ♂ ♀.)
3. <i>octomaculata</i>, Smith, ♂ ♀. 3 lines.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
The name of this genus may be derived from <i>στελὶς</i>,
<i>a sort of parasitical plant</i>, perhaps <i>mistletoe</i>, if
we could be sure that Panzer imposed it after being aware of the
parasitical nature of these bees. It is true his book (the
‘Revision’) was published in 1805, and Kirby, who first intimated
a suspicion of such cuckoo-like habits in some of the bees,
published his in 1802; therefore it might have been given in
allusion to that peculiarity of
.pn +1
.bn 278.png
their economy, but it may also be from <i>στηλὶς</i>, <i>a little
column</i>, in application to their cylindrical form. In
but few of the parasitical bees do we know the precise
nature of their transformations, I have therefore been
obliged to be silent upon this point of their natural
history, and I have nothing to state of its nature in
these, although I expect there is much uniformity with
but slight modifications in all. The species of this genus
are parasitical upon the <i>Osmiæ</i>; thus the <i>S. phæoptera</i>
is found to infest the <i>O. fulviventris</i>, and the <i>S. octomaculata</i>
intrudes itself into the nests of <i>O. leucomelana</i>,
both of which occur tolerably abundantly near Bristol.
I have no doubt that the south-west and west of England,
if well searched, would yield many choice insects.

It is singular that bee-parasitism does not prevail
throughout all the genera of bees, some being subject to
it and others not. Thus the genera <i>Colletes</i>, <i>Andrena</i>,
<i>Halictus</i>, <i>Panurgus</i>, <i>Eucera</i>, <i>Anthophora</i>, <i>Saropoda</i>,
<i>Megachile</i>, <i>Osmia</i>, and <i>Bombus</i> have all parasites,
whereas the genera <i>Cilissa</i>, <i>Macropis</i>, <i>Dasypoda</i>, <i>Ceratina</i>,
<i>Anthidium</i>, <i>Chelostoma</i>, <i>Heriades</i>, <i>Anthocopa</i>, and
<i>Apis</i> have none, as far as we yet know; and some of the
genera of parasites frequent two or more genera indifferently,
whilst others are restricted to a single one;
also some of the species of the parasitical genera infest
indifferently several of the species of the genus to which
their parasitism is mainly limited; other species have
a more circumscribed range and do not visit the nests of
more than a single species. What law may control all
these seeming anomalies we cannot discover,—it may
possibly be scent that guides them, and this may control
their parasitism by indicating the species they are
taught by their instinct to be most suitable from the
.pn +1
.bn 279.png
quality of the pollen with which it supplies its own nest,
to be that which is best adapted for the nurture of their
young. It is not likely that we shall very speedily lift
the veil from these mysteries, but they are suggestive of
observation which in seeking one thing may fall upon
another equally interesting.

I have usually caught these insects settled upon the
leaves of shrubs, especially of fruit bushes, particularly
that of the black currant, upon which, in a favourable locality,
many bees, as well as numerous small fossorial
<i>Hymenoptera</i> may be found in genial weather. I have
never caught them upon flowers, nor do I know what
flowers they frequent. The end of May, if warm, and
throughout June, they are usually found most abundantly.
.hr 10%
.nf c
Genus 18. <sc>Cœlioxys</sc>, <i>Latreille</i>.
(#Plate XII.:PLATE-XII# fig. 1 ♂ ♀ .)
<sc>Apis</sc> ** <i>c</i> 1 <i>α</i>, <i>Kirby</i>.
.nf-

<i>Gen. Char.</i>: <sc>Body</sc> subglabrous. <sc>Head</sc>
transverse, concave posteriorly to fit the anterior portion of
the thorax; <i>ocelli</i> in a triangle on the vertex;
<i>antennæ</i> filiform, short, subgeniculated, the basal joint
of the flagellum globose, the second subclavate, and all from the
second subequal, the terminal joint compressed laterally;
<i>face</i> flat, very pubescent; <i>clypeus</i> ovate, concavely
truncated in front, its surface convex; <i>labrum</i> oblong,
with its sides parallel, but with lateral processes at its
articulation; <i>mandibles</i> broad, quadridentate; <i>cibarial
apparatus</i> long, the <i>tongue</i> very long, nearly three
times the length of the labium, linear but slightly inflated in
the centre, and thence tapering to its extremity, and
.pn +1
.bn 280.png
slightly covered with a very short down; <i>paraglossæ</i> wholly
wanting; <i>labial palpi</i> membranous, the two first joints
long, the second slightly the longest, and both tapering to the
extremity of the second, which is acute, and has the third joint,
which is very short and subclavate, articulated before the
extremity, with the terminal one of equal length, and rounded at
the apex, appended to it; <i>labium</i> about one-third the
length of the tongue, its inosculation trifid and equal, and the
central division acute; <i>maxillæ</i> subhastate and acuminate,
not quite so long as the tongue; <i>maxillary palpi</i> very
short, three-jointed, the basal joint the smallest, the second
the most robust, and the terminal one ovate. <sc>Thorax</sc>
subglobose; <i>prothorax</i> inconspicuous; <i>mesothorax</i>
convex; <i>wing-scales</i> large; <i>scutellum</i> produced
horizontally, and impending over the post-scutellum and
metathorax, and having at each lateral extremity an acute,
slightly-curved tooth projecting backwards; <i>metathorax</i>
abruptly truncated; <i>wings</i> with two submarginal cells and a
third commenced, the first slightly the longest, the second
receiving both the recurrent nervures, the first near its
commencement, and the second close to its termination;
<i>legs</i> slender, spinulose externally on the tibiæ;
<i>claws</i> rather long, slender, and simple. <sc>Abdomen</sc>
very conical, truncated at the base, its segments slightly
constricted, the apical one long, superficially carinated
longitudinally in the centre, and much deflexed.

The <sc>MALE</sc> scarcely differs, excepting that the whole
of the front of the head is more densely pubescent; the
mandibles are deeply, acutely, and nearly equally tridentate,
the terminal segment of the abdomen is variously
mucronated or toothed at its apex, these processes
pointing backwards, and the penultimate segment
is more or less produced laterally.
.pn +1
.bn 281.png
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>conica</i>, Linnæus, ♂ ♀. 4-5 lines.
   <i>quadridentata</i>, Linnæus, ♂.
   <i>quadridentata</i>, Kirby, ♂.
2. <i>simplex</i>, Nyland, ♂ ♀. 5 lines.
   <i>conica</i>, Kirby.
   <i>conica</i>, Curtis, viii. 349.
   <i>Sponsa</i>, Smith, ♂.
3. <i>umbrina</i>, Smith, ♂ ♀.
4. <i>rufescens</i>, St. Fargeau, ♂. 4-6 lines.
5. <i>vectis</i>, Curtis, ♂ ♀. 5-6 lines.\
(#Plate XII.:PLATE-XII# fig. 1 ♂ ♀)
6. <i>inermis</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
This genus is named from <i>κοιλία</i>, <i>belly</i>, <i>ὀξὺς</i>,
<i>acute</i>, in application to the conical abdomen of the
female. The insects of this genus are parasitical upon the genera
<i>Megachile</i> and <i>Saropoda</i>. Thus, <i>C. simplex</i>
infests <i>M. circumcincta</i>; <i>C. rufescens</i>, <i>M.
Willughbiella</i>; <i>C. vectis</i>, <i>M. maritima</i>; and
<i>C. umbrina</i> is parasitical on <i>Saropoda bimaculata</i>.
Linnæus, from the different appearance of the two sexes made two
species of them, and from the circumstance of his having
described first the male as <i>Apis quadridentata</i>, this, by
the law of priority, supersedes the name of <i>C. conica</i> as
the name of the species, which is its female, and which he next
described, and thus that sex, whose form Latreille adopted as
typical of the genus, is in the series of species totally
superseded and reduced to a synonym. The species of this genus
are extremely difficult to separate from each other, no tangible
character presenting itself conspicuously, although the Swedish
.pn +1
.bn 282.png
entomologist Nylander supposes he has found one in the
plates of the apical segment of the abdomen, especially
those of the venter, in which he detects both a difference
of form and a difference of relative length to that
of the superior plates, and in the males he assumes that
the teeth of the apical segment are constant characters.
Not having had sufficient opportunity since this supposed
discovery was made, for the examination of a
great multitude of specimens, for it is only upon such
an investigation that it can be firmly based, I cannot
speak corroboratively upon the point, but it is very possibly
a correct solution of the difficulty.

The peculiarity of these spines at the apical segments
of the abdomen of the males is remarkable, they being
straight projecting processes, or they have even a slight
upward bearing. In the males of <i>Anthidium</i> and <i>Osmia</i>
we observe spines also arming the apex of the last segment,
but in these we can trace an evident use, both
from the downward curvature of the abdomen itself, and
that same tendency also in the spines. But in the insects
of this genus they have not the same conspicuously
apparent object, the abdomen itself even having an upward
curvature, or rather a greater facility for turning
upwards than downwards. These insects appear to be
most abundant in the midland and southern counties,
and, according to Curtis, they are numerously found at
the back of the Isle of Wight. I have usually taken
them on the wing and never on a flower, and I do not
know the plants which they may prefer.
.pn +1
.bn 283.png
.hr 10%
.nf c
<s>Subsection 3. <sc>Dasygasters</sc> (convey pollen on the belly).
<i>All with two submarginal cells to the wings.</i></s>
Genus 19. <sc>Megachile</sc>, <i>Latreille</i>. (Leaf-cutters.)
<sc>Apis</sc> ** <i>c</i> 2 <i>α</i>, Kirby.
(#Plate XII.:PLATE-XII# fig. 2 and 3 ♂♀.)
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> as wide as the thorax, flat and
broad on the <i>vertex</i>, where, on the anterior edge, the
<i>ocelli</i> are disposed in a triangle; <i>antennæ</i> shortish, filiform,
geniculated; <i>scape</i> about as long as two first joints
of flagellum, which increases both in length of joints and
their substance from base to apex, the terminal one
being the longest, and longitudinally compressed; <i>face</i>
and clypeus very pubescent, concealing their divisions;
<i>clypeus</i> transversely lunulate, scarcely convex; <i>labrum</i>
longitudinally slightly convex and oblong, with the sides
parallel; <i>mandibles</i> broad, widening outwardly, irregularly
quadridental, the two inner teeth obtuse; <i>cibarial
apparatus</i> moderately long; <i>tongue</i> more than twice the
length of the labium, tapering from the base to the apex,
where it terminates in a minute knob; <i>paraglossæ</i> very
short, scarcely one-sixth the length of the tongue, coadunate
at the base and acuminate at the apex, where,
in repose, they lap round the base of the tongue; <i>labial
palpi</i> three-fourths the length of the tongue, the two
basal joints long, subequal, membranous, linear, slightly
tapering to the acute apex of the second, where the third
subclavate joint articulates just before its termination,
and conterminous with which is the fourth, shorter than
the third, but also subclavate; <i>labium</i> not quite half the
length of the tongue, with a long subobtuse process in
the centre of its inosculation; <i>maxillæ</i> subhastate, and
.pn +1
.bn 284.png
very acuminate, nearly as long as the tongue; <i>maxillary
palpi</i> very short, two-jointed, the basal joint the shortest,
and the terminal one obtuse at its apex, where it is
furnished with brief setæ. <sc>Thorax</sc> subglobose, pubescent,
the pubescence almost concealing its divisions; <i>prothorax</i>
inconspicuous; <i>mesothorax</i> convex, subglabrous
on the disk; <i>scutellum</i>, lunulate, convex; <i>metathorax</i>
truncated; wings with two submarginal cells, the commencement
of a third slightly indicated, the two complete
ones nearly equal, the second of which receives
both the recurrent nervures, one towards each extremity;
<i>legs</i> robust, very setose; the posterior <i>tibiæ</i> slightly
curved longitudinally, concavo-convex, broad at the extremity;
all the <i>plantæ</i> as long as their tibiæ and as
broad at the base but decreasing at the apex to the
width of the following tarsal joints, the anterior pair
fimbriated externally, and the posterior pair clothed, on
the inner surface, with a dense, short brush, the three
following joints short, subequal, the claw-joint as long
as the three, and the <i>claws</i> with a broad basal inner
tooth. <sc>Abdomen</sc> ovate, with parallel sides, convex
above, truncated and concave at its base to fit the metathorax,
distended horizontally in length, or with an upward
curve, the four first segments slightly constricted,
and their edges usually clothed with decumbent down;
the terminal segment obtusely pointed and slightly depressed
transversely towards its extremity; the <i>ventral
segments</i> commencing with the second, clothed with
parallel layers of moderately long, straight setæ, which
in each parallel are of equal length, but those on the
fifth segment are the shortest, upon all of which the insect
conveys the pollen it collects.

The <sc>FEMALES</sc> of the second division of the genus
scarcely differ.
.pn +1
.bn 285.png

The <sc>MALES</sc> of the first division differ in having the
<i>head</i> slightly larger and squarer above; the <i>antennæ</i> very
slightly longer; the <i>mandibles</i> more acutely tridentate, with a
distinct powerful basal tooth beneath, terminating the concavity of the
organ; the anterior <i>femora</i>, <i>tibiæ</i>, and joints of their
<i>tarsi</i>, excepting the terminal one, concavo-convex, the four first
joints of the latter distended laterally, and edged with a dense fringe
of setæ, the distension of these joints is widest at their articulation
with the tibiæ and they decline in length to the claw-joint which is
long; the <i>claws</i> bifid; the interior claw acute, but remote from
the apical one; the posterior <i>femora</i> are very robust, their
<i>tibiæ</i>,  much curved, robust, almost triangular, and externally
very convex; their <i>plantæ</i>, almost glabrous, not so long as the
three following joints, externally rather twisted, and beneath furnished
with a dense brush of long stiff hair.

In the second division of the genus the males are destitute
of the distension of the anterior tarsi, these being
instead densely fimbriated externally; the legs in them
are much less robust, and more closely resemble those of
their females.
.sp 2
.nf c
NATIVE SPECIES.

<s>§ <i>Anterior tarsi of males much dilated.</i></s>
.nf-
.in 4
.nf l
1. <i>Willughbiella</i>, Kirby, ♂♀. 5-7 lines.
2. <i>maritima</i>, Kirby, ♂♀. 6-7 lines.\
(#Plate XII.:PLATE-XII# fig. 2 ♂♀.)
3. <i>circumcincta</i>, Kirby, ♂♀. 4½-5½ lines.
.nf-
.nf c
§§ <i>Anterior tarsi of males not dilated.</i>
.nf-
.nf l
1. <i>ligniseca</i>, Kirby, ♂♀.  5-7 lines.
2. <i>centuncularis</i>, Linnæus, ♂♀.  4-6 lines.
   <i>centuncularis</i>, Kirby.
.pn +1
.bn 286.png
3. <i>argentata</i>, Fabricius, ♂♀.  3-4½ lines.\
(#Plate XII.:PLATE-XII#\
fig. 3 ♂♀.)
   <i>Leachella</i>, Kirby.
   <i>Leachella</i>, Curtis.
4. <i>odontura</i>, Smith, ♂. 4½ lines.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
Named from the great development of the labrum, <i>μέγα</i>
<i>large</i>, <i>χεῖλος</i> <i>lip</i>, which is
characteristic of all the <i>Dasygasters</i>, and also of some of
the proximate <i>Nudipedes</i>, those parasitical upon them,
<i>Stelis</i> and <i>Cœlioxys</i>, and which, too, resemble the
sitos in the expansion and dentated formation of their mandibles,
although they do not use them for the same purposes; this again
exhibits an analogy of structure, that appears in the parasite to
be merely corroborative of identity of existence.

These are more essentially summer insects than the majority
of the preceding genera, although some of them present
themselves with genial spring weather. The genus
may be separated into two distinct divisions by the peculiar
dilatation of the tarsi of the males of some of the
species, but such division is not indicative of a difference
of habits, as is distinctly the case in the genus <i>Anthophora</i>,
and in which these combined circumstances Mr.
Kirby suggested as acceptable for generic division, or, as
he called it, the institution of another <i>family</i>. But in
these we find in both divisions both wood-borers and
earth-tunnelers, and some species are indifferently either
as suits their accidental convenience. The general appearance
of the insects is more that of ordinary bees,
and the sexes are more approximate in their habit than
is usually the case.

With this genus commences essentially those designated
as artisan bees, although <i>Colletes</i> might very
.pn +1
.bn 287.png
suitably come under that denomination. The species
themselves of the genus are called leaf-cutters, from the
habit they have of cutting pieces from the leaves of
various shrubs and trees, for the purpose of lining their
nests. The description of the operations of one species
will apply precisely to that carried on by all, the occasional
difference between them being the selection of the
leaves of distinct plants; and it will exhibit the patient
industry and perseverance with which these little upholsterers
carry on their labours.

Thus <i>M. centuncularis</i>, the type of the genus, burrows
in decaying wood or in brick walls, and sometimes also in
the ground, and makes use of the cuttings of rose leaves,—not
the petals,—and the leaves of the annual and perennial
Mercury (<i>Mercurialis annua</i> and <i>M. perennis</i>). The
<i>M. ligniseca</i> bores into sound Oak and the Mountain Ash,
as well as into putrescent Elm, and uses Elm leaves to
line its nests, sometimes called <i>centunculi</i> from their
being as it were patched together. This is the largest
of all our species, and is found very abundantly everywhere
around London frequenting the flowers of the
Thistle. The <i>M. argentata</i>, Fab., or <i>Leachella</i> of Kirby, is
perhaps the prettiest of all the species, and forms its
tunnels in sandbanks. I do not know what leaves this
species selects, which used to be extremely rare, indeed
for a long time only known by the specimen in the British
Museum, until that ardent entomologist the Rev. F. W.
Hope, to whom the University of Oxford owes its superb
entomological collection, brought it in abundance from
Southend, where, during his brief annual stay at his
residence there, he used to find it in the grove which
runs under the cliff edging the terrace of the village;
it is extremely local, as that and Weybridge, in Surrey,
.pn +1
.bn 288.png
are the only two spots where I have known it to be found.
It is one of the most vivid fliers among the bees, and
darts about, especially during brilliant sunshine in June,
with the velocity of a sand-martin, and its note is shrill,
but harmonious; it is not often caught upon flowers,
being so extremely alert, but has been seen to visit the
common Viper’s Bugloss (<i>Echium vulgare</i>). The <i>M. odontura</i>,
the last of the second division, which is known only
in a single male specimen in the cabinets of the British
Museum, is one of Dr. Leach’s west country captures, of
which nothing precise is known, and it is only noticed
here on account of the singular peculiarity of the armature
of the apex of its abdomen, which brings it closer
to the genus <i>Osmia</i> in that particular, although the majority
of the males of the genus have the terminal segment
slightly furcated.

In these observations I have commenced with the
division which contains the type, and to which the present
name of the genus would attach from that circumstance,
were it ever thought desirable to separate those
species, which have dilated anterior tarsi in the males,
into a distinct genus, but which I could scarcely recommend.
In the arrangement of the species in the preceding
list, I have placed these latter first, from their
more symmetrical appearance in the cabinet, by leading
down to the terminal smaller species in due order, from
these larger and more conspicuous ones.

The <i>M. Willughbiella</i> and <i>maritima</i> prefer decaying
wood, and they have been found upon decaying Willows
in the Midland Counties in extreme abundance; they
might be called gregarious were the material within
which they burrow connected in a continuous plane.
The <i>M. Willughbiella</i> makes use of the leaves of the
.pn +1
.bn 289.png
Rose and of the Laburnum, but the <i>M. maritima</i> seems
to prefer the leaves of the Sallow. The <i>M. circumcincta</i>
invariably burrows in banks, confirming the semi-gregarious
habits of the genus, where it forms large colonies,
and it is only by accident that it constructs secluded and
solitary nests; it also makes use of rose leaves for lining
its apartments. The insects are subject to the molestation
of bee-parasites of the genus <i>Cœlioxys</i>, the <i>C. quadridentata</i>
having been bred from the cells of this latter
species,—that parasite also frequenting the <i>M. Willughbiella</i>,
and the <i>C. vectis</i> is well known to infest the <i>M.
maritima</i>. Thus, it appears to be only the species of this
division with the dilated tarsi that are exposed to such
incursions, there being no record of parasites frequenting
the division in which the males have simple anterior tarsi.
Besides this bee-parasite, they are also subject to the
attacks of some dipterous insect, whose larvæ destroy the
larvæ of the <i>Megachile</i>. Much difficulty exists in separating
the females of some of the species from each other;
in others the specific character is sufficiently noticeable.
It is a singular concomitant that those males with the
dilated anterior tarsi have the apical joint of the flagellum
of the antennæ considerably compressed and also
dilated laterally.

The proceedings of these bees are very curious. Although
the tubes they usually form are long, they are so
constructed as not to branch far away from the exterior of
the material into which they bore,—sound or putrescent
wood or earth, or old mortar joining the bricks of walls,—if
in the second material, they usually follow the putrescent
vein, and their tunnel in every case is rarely
further than an inch or an inch and a half from the external
surface. Both the sides of the tube, and the cells
.pn +1
.bn 290.png
they form within them, will necessarily vary in diameter
and length with the size of the species, but in the larger
species they are about an inch and a quarter long and half
an inch in diameter. Some entomologists have surmised
that different species use the leaves of different plants for
lining their cells; this, however, is not strictly the case, as
shown in the preceding remarks; but, although not so,
the series of nests in the same tube are always lined with
cuttings from the same plant; perhaps a varying caprice
operates upon each day’s labours and changes the plant,
influenced by the drift of the wind or some casual freak.

The cylindrical tube being prepared, which is done
very similarly to the way in which it is practised by
all the labouring genera, by the gradual removal of the
particles of the wood, or sand, or earth of which it consists,
the insect’s instinct prompts it to fly forth to obtain
the requisite lining, that the lateral earth may not
fall in, or the wood taint the store to be accumulated
for the young, for it is before this is done that the
upholstery is commenced. Having fixed upon the preferred
plant, Rose-bush or Laburnum or Sallow, or
whatever it may be, it alights upon the leaf, and fixing
itself upon the edge, it holds it with three legs on each
side, then using its mandibles as the cutter of silhouettes
would his scissors, and, just as rapidly as he cuts out a
profile, does this ingenious little creature ply the tools it
is furnished with by nature. The oval or semicircular
cutting being thus speedily dispatched, with the legs still
clinging to the surfaces, the insect biting its way backwards,
the piece cut off necessarily remains within the
clutch of the legs, and, when about falling, the rejoicing
labourer expands her wings and flies off with it with a
hum of delightful triumph, the cutting being carried
.pn +1
.bn 291.png
perpendicularly to her body. In a direct line she wings
her way to the receptacle, and arrived at the mouth of
the aperture within which she has to convey it, she rolls
it to its requisite tubular form and thrusts it forward to
the bottom of the cavity. The first piece for the lining
of each cell is always oval and larger in proportion than
the succeeding ones, which, to the number of three or
four, are semicircular, the first piece having an extra
use to serve in forming a concave bottom to the cavity.
Having completed the requisite manipulation, for adjusting
it to shape the external lining of the bottom and
sides of the first cell, she withdraws backwards, again
flies off, and, as if she had traced a trail in the air, or
had marked its limpidity with a frothy surge, like
that left in the wake of a ship, to note the road for
her return, back she wends to the same plant, and proximately
to the spot of her recent triumphant exploit renews
the operation, but the result of which, this time, is
to be semicircular. Home she flies again, and the arrangement
within of this piece is different to that of the
first, for this is simply tubular, and so placed that it
imbricates with its cut margin within the serrated edge
of the first and the third, and in case of a fourth the
fourth also is similarly placed, so that one laps within the
other, the edges of two of these cuttings never being
conterminous. The number of the coatings is apparently
regulated by the drier or moister condition of the substance
in which the tunnel is drilled. Another duty has
now to be performed, indeed, that for which all the preceding
labours were undertaken,—the provision for its
young, wherein it perpetuates its kind,—and thus on
and on flows the wonderful stream of life, whose origin
who shall estimate through the millennia it has hitherto
.pn +1
.bn 292.png
so placidly and uniformly traversed, and whose termination
who shall predict? Having completed the requisite
store of honey mixed with pollen, this is carried
to the brush with which the under side of the abdomen
is furnished, by means of the posterior legs. The honey
and pollen are gathered from different kinds of thistles,
whence it acquires a reddish hue and looks almost like
conserve of roses, and the nest is filled with it to within a
line of its top; the egg is then deposited, but the coating
of leaves, which enclose the cell completely, secures the
store from lateral absorption, although the mixture is
rather more fluid, consisting of a relatively greater quantity
of honey than is usual, excepting perhaps in the case
of <i>Ceratina</i>, and although no viscous secretion is used
to bind the leaves together, which retain their position
from merely lateral pressure. The cell has now to be
closed, and the artificer knowing that the transverse
section of the cylinder is circular, again flies forth, and
without compass, but with all the accuracy with which
Leonardo da Vinci struck a circle with his pencil, to
testify his mastery, cuts the leaf again in that form,
and as surely: and, three or four, or five or six times, repeats
this operation, returning each time with each piece,
so many having been variously observed. The separation
between the cells being thus consolidated, it is
further thickened by the lateral, spare, protruding edge
of the leaf first introduced lapping over it. The whole
process is again renewed in the same manner as at first,
the bottom edge of the cutting of the external leaf is
again curved to form a concave bottom to the next cell,
and the sides are similarly formed, and each cell fits
the preceding like the top of one thimble placed in
the mouth of another. The repetition of all this is
.pn +1
.bn 293.png
continued until the completion of the five or six cells
necessary to fill the tube, when another is formed with
the same routine, if her store of eggs is not exhausted;
and the orifice of the tube, upon the completion of the
last cell, which is closed in the usual way, is filled up
with earth. Should any casualty interfere with her labours
or temporarily derange their utility, without the
obstruction being one that would permanently affect it,
the remarkable patience and rapidity with which the
repairs are effected, or the obstructions removed, is
worthy of all admiration,—the <i>στοργὴ</i>, or love of offspring,
being the predominant passion which overthrows
and controls every difficulty.

When full fed, the larva spins a thick cocoon of silk,
which is attached to the sides of the cell; the outer
coating of this cocoon is of a coarser and browner silk
than the interior, which is formed of very delicate threads
of a slaty-whitish colour and of a close texture, and
which is as lustrous as satin. The exact period of their
evolution from this state is not recorded, but it is probable
that they pass the winter enveloped in their cocoon
as pupæ, and in their season come forth the following
year.
.hr 10%
.nf c
Genus 20. <sc>Anthidium</sc>, <i>Fabricius</i>.
(#Plate XIII.:PLATE-XIII# fig. 1 ♂♀.)
<i>Apis</i> ** <i>c</i> 2 <i>β</i>, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Body</sc> subglabrous. <sc>Head</sc>
transverse, as wide as the thorax; <i>ocelli</i> in a triangle on
the vertex, which is flat; <i>antennæ</i> shortish, slender,
filiform, subgeniculated; the <i>scape</i> stouter than the
flagellum, subclavate,
.pn +1
.bn 294.png
first joint of flagellum globose, the remainder subequal;
<i>face</i> flat; <i>clypeus</i> triangular, truncated at its
base, slightly rounded in front and convex; <i>labrum</i>
longitudinally oblong, the sides parallel and concavo-convex;
<i>mandibles</i> dilated at the apex, where they are
quinque-dentate; the <i>alternate teeth</i> smallest; <i>cibarial
apparatus</i> long; <i>tongue</i> very long, tapering to its
extremity; <i>paraglossæ</i> very short, one-sixth the length of
the tongue, coadunate at the base and subhastate; <i>labial
palpi</i> more than half the length of the tongue, the two first
joints very long, the second the longest, and both tapering to
the acute extremity of this, where, just before its apex, the
third very short subclavate joint articulates with the still
shorter terminal joint conterminous with it; <i>labium</i>
one-third the length of the tongue, its inosculation with an
acute projection in the centre; <i>maxillæ</i> as long as the
tongue, subhastate and acuminate; <i>maxillary palpi</i>
springing from a deep sinus at its base, very short, two-jointed,
the basal joint the shortest, and the second obtuse one
terminating with a few rigid setæ. <sc>Thorax</sc> subglobose;
<i>prothorax</i> inconspicuous; <i>mesathorax</i> slightly
convex, wing-scales large; <i>scutellum</i> lunulate, projecting
and impending over the metathorax, which is truncated;
<i>wings</i> with two submarginal cells, and a third indistinctly
commenced, the second slightly the longest, and receiving the two
recurrent nervures one at each extremity; <i>legs</i> moderate,
subsetose, the tibiæ fimbriated along the edges, the anterior
<i>spurs</i> slightly palmated; the <i>plantæ</i> of the four
anterior pairs longer than their tibiæ, but those of the
posterior not quite so long, and all densely clothed all round
with a brush of short close hair; the <i>claws</i> distinctly
bifid. <sc>Abdomen</sc> semicircular, very convex; the base
truncated and hollowed
.pn +1
.bn 295.png
to fit the metathorax; the <i>segments</i> slightly constricted,
the <i>terminal segment</i> transversely concave, and
its apex terminating in three slight angles; the <i>venter</i>,
which is flat, is densely clothed from the second segment
with parallel layers of equal, moderately long, shining hair,
the segment being distinctly indicated by these layers.

The <sc>MALE</sc> differs in being considerably larger; the
<i>mandibles</i> merely tridentate; the <i>legs</i> longer and more
robust; the <i>tibiæ</i> and <i>tarsi</i> more densely fimbriated
externally, and the tarsi relatively much longer; the
<i>abdomen</i> densely edged laterally with short curled hair,
the terminal segment with three processes, the lateral
ones strong and curved internally, the central one
shorter and straight, and the penultimate segment transversely
concave, with a strong tooth on each side curved
externally, and the venter glabrous beneath.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
<s>1. <i>manicatum</i>, Linnæus. 5-8 lines.\
(#Plate XIII.:PLATE-XIII# fig. 1 ♂♀.)
   <i>manicatum</i>, Kirby.</s>
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
The generic name in this instance seems to be manufactured
from the root <i>ἄνθος</i>, <i>a flower</i>. I cannot trace
any other derivation as it may not be attributed merely
to the habits of the species in frequenting flowers, for is
not this the prime function of all the bees, wherein they
fulfil a most important office in the economy of nature?
How easy might it have been to regulate that flowers
should fertilize themselves, as many do without any extraneous
intervention, but by this wise and benevolent
ordination a tribe of sensitive creatures is introduced to
.pn +1
.bn 296.png
be perpetuated by the perpetuation they supply to that
which supports them, and in this circle of reciprocal
good offices lend an additional charm to the genial seasons,
by the animation which they give to the face of
nature, in embellishing the plants they visit with their
vivacity and music.

These bees are gay insects, for both sexes are richly
spotted with yellow, and they present the single instance
which occurs amongst our bees of the male being considerably
the largest, and so boisterous is he in his
amours that he forcibly conveys his partner to the upper
regions of the air, where she is compelled to yield to his
solicitations. His whole structure is fully adapted to
carry out this violent abduction, as well in the length
and power of his limbs as in the prehensile teeth with
which the apex of his abdomen is armed.

We have but one species of the genus, although the
southern parts of the Continent abound in them. The
habits of ours differ very considerably from those of the
preceding genus. First, in the peculiarity just described,
and then in the formation of their nests. They do
not, like the majority of the wild bees, excavate or bore
a cavity for themselves, but take one already formed
by the xylophagous larva of some considerable insect,
such as <i>Cerambyx moschatus</i>, or <i>Cossus ligniperda</i>.
This they line, to the depth suitable to them, with
cottony down which they scrape from the leaves or
stalk of the Woolly Hedge-nettle (<i>Stachys Germanica</i>),
the Wild Lychnis (<i>Agrostemma</i>), and other woolly-leaved
plants. In collecting this wool the insect is
very active, scraping it off rapidly with its broad mandibles,
and as this is doing she gradually rolls it up
into a little ball, making with the vibration of her wings
.pn +1
.bn 297.png
a considerable hum all the time she is gathering it, and
when the ball is sufficiently large she flies off with it
to her nidus; this operation she continues until sufficient
is accumulated for her purpose, which consists in
lining the cavity with the material; she then forms cells
within it in succession, gluing the same material together
to resist the escape of the mixed store of pollen and
honey she intends to fill it with, having in the operation
smoothed the sides of the cell which is closed after the
deposit of the egg, and another similar cell is then proceeded
with, and this is repeated until the selected cavity
is filled, or that she has exhausted her store. Having
completed her labours, she wanders away. Sometimes
the cavity is large and admits of the conjunction of
many of these cells together; in that case they are all
collectively covered with the same envelope of downy
substance. The larva, having consumed its entire store
of food, spins a cocoon of brown silk wherein it remains
throughout the winter, and with the evolution of spring,
feeling its propulsive energy, it changes into the pupa.
In June and July, but earlier if the weather be continuously
warm, the imago comes forth in its maturity, to
live its little life of labour intermingled with pleasure,
and in its pleasing hum to give cheerful notification of
its perfect satisfaction.
.hr 10%
.nf c
Genus 21. <sc>Chelostoma</sc>, <i>Latreille</i>.
(#Plate XIII.:PLATE-XIII# fig. 2, ♂♀.)
<sc>Apis</sc> ** <i>c</i> 2 <i>γ</i> partly, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Body</sc> nearly glabrous and coarsely punctured.
<sc>Head</sc> subglobose, rather wider than the thorax;
.pn +1
.bn 298.png
<i>ocelli</i> in a triangle in the centre of the vertex, which is
broad and slightly convex; <i>antennæ</i> short, subclavate,
geniculated, the scape nearly one-half the length of the
flagellum and more robust; the first and second joint of
the flagellum subclavate, the basal one the longest and
most robust, the remainder short, subequal, and gradually
enlarging to the apical one, which is obtuse and
as long as the basal joint; <i>face</i> flat, slightly convex
between the insertion of the antennæ; <i>cheeks</i> large and
protuberant; <i>clypeus</i> concave, projecting, lobated in
front, where it is slightly emarginate in the centre;
<i>labrum</i> elongate at its articulation, broader than beyond,
and from this expansion immediately and abruptly
contracting, from the inner angles of the contraction
waving to about three-fourths its length, whence it is
produced into an equal truncated oblong; <i>mandibles</i>
bidentate, external tooth acute, inner one obtuse; <i>cibarial
apparatus</i> long; the <i>tongue</i> twice the length of the
labium, narrowest at its base and obtuse at the extremity,
and clothed with short setæ; <i>paraglossæ</i> very
short, coadunate at the base and acuminate; <i>labial palpi</i>
two-thirds the length of the tongue, with the three first
joints membranous and flat, conterminous and tapering
to their extremity, the first joint about one-half the
length of the second, the third twice the length of the
fourth, which is clavate and articulated within the apex
of the third; <i>maxillæ</i> subhastate and acuminate, as long
as the tongue; <i>maxillary palpi</i> very short, rather stout,
the joints subequal and the terminal one acute. <sc>Thorax</sc>
oval, convex; <i>prothorax</i> inconspicuous <i>wing-scales</i>
rather large; <i>scutellum</i> transversely quadrate, convex;
<i>post-scutellum</i> transverse, linear; <i>metathorax</i> gradually
declining, with a glabrous triangular space at its base;
.pn +1
.bn 299.png
<i>wings</i> with two submarginal cells nearly equal and a third
commenced; the second receives both the recurrent
nervures, the first beyond its commencement and the
second before its termination; <i>legs</i> shortish, subsetose, the
anterior spurs short, broad, and emarginate at the apex;
the <i>posterior plantæ</i> with a compact dense brush within;
<i>claw-joint</i> long; <i>claws</i> simple. <sc>Abdomen</sc> longer than
head and thorax, subclavate, convex above, retuse at the
base, and the apical segment obtuse at its extremity, the
venter flat, its segments clothed from the second with
dense parallel brushes of longish hair for the conveyance
of pollen.

The <sc>MALE</sc> differs in having the <i>head</i> less conspicuously
globose; the <i>cheeks</i> less protuberant; the whole body
more pilose, the anterior <i>spurs</i> robust, short, and abruptly
obliquely truncated; the <i>antennæ</i> slender, filiform, much
longer than in the female, but not much longer than the
head, and from the fourth to the ninth joints serratulate
within, adapting it to a sharp curve; the <i>abdomen</i> being
equal, cylindrical, retuse at its base, convex above, and
flat on the venter, where it has a longitudinal deeply
concave mucro in the centre of the second segment,
which concavity runs along all the subsequent segments,
and it is densely pilose on the fourth; the terminal
dorsal segment being deeply emarginate in the centre
and produced on each side into a broad obtuse process;
the <i>claws</i> are more robust than in the female and
bidentate; the posterior pair being subclavate, and their
single tooth abruptly reflected.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>florisomne</i>, Linnæus, ♂♀. 3-5 lines.\
(#Plate XIII.:PLATE-XIII# fig. 2 ♂♀.)
.pn +1
.bn 300.png
   <i>maxillosa</i>, Linnæus.
   <i>maxillosa</i>, Kirby.
2. <i>campanularum</i>, Kirby, ♂♀. 2-2½ lines.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
These insects are named from <i>χηλὴ</i>, <i>a forceps</i>, and
<i>στόμα</i>, <i>a mouth</i>,—in allusion to the forcipate form of
the mandibles, which are strong, and cross each other in
inaction.

They and the next genus are styled <i>carpenter bees</i>,
but they are not more consistently thus called than
might be <i>Anthophora furcata</i> and the genus <i>Ceratina</i>;
they, in fact, like the latter, just as often avail
themselves of an empty straw to form their cells in, or
the cylinder that has been drilled by some xylophagous
beetle of their own size, as they themselves drill into
palings and solid wood for the purpose, but when they
do this, it is facilitated to them by their powerful mandibles
and their square and strong head. They are certainly
very compactly formed, their structure being indicative
of great power, of course relatively to their size.
When they drill their cylinders themselves they are
extremely persevering in its execution, and in the process,
the material they extract, which is like fine sawdust,
they withdraw from the depth of the cavity by passing
it beneath them, and pushing it out at the orifice by
means of their posterior legs and the apex of the abdomen,
for they are too long to be able to turn within the
cavity they have formed, its capacity not being sufficient
to permit this, as it is very little larger in diameter than
themselves. I have repeatedly watched them in these
operations.

Having found or drilled a suitable cylindrical tube, they
.pn +1
.bn 301.png
do nothing further to it but collect a sufficient store of
provender for the nutriment of the young one, upon
which they deposit the egg which is to produce it. The
insect then flies away to collect a small quantity of clay
intermingled with sand, and this they knead together
by means of a viscous secretion which they disgorge,
and this forms a concrete that hardens firmly and
rapidly; to anticipate its rapid drying they speedily fly
back, carrying this small ball within their mandibles,
and with it they cover over the provision they have collected,
and which, adhering to the sides of the cavity,
forms a firm and hard division, effectually separating it
from the next store of provision that is to be accumulated
for the supply of the larva that will be hatched from the
egg that is to be deposited, and the same process is
repeated again and again until all the eggs are laid. In
their development, which takes place near midsummer,
the males precede the females by about ten days. They
associate sometimes in colonies, often using the tubes of
the straw thatch which covers cottages for their nidus.

These bees are subject to the parasitical intrusion of
<i>Fœnus jaculator</i> and <i>assectator</i>, which I have repeatedly
caught at Battersea, hovering opposite the cells of these
insects bored in the shingles forming the enclosure of
an old garden outhouse. These parasites are themselves
peculiar creatures, forming a type distinct from the
Ichneumons, and belonging to the group <i>Aulacus</i>, upon
which see my paper in the ‘Entomologist,’ June, 1841.
In these insects, the abdomen springs from immediately
beneath the scutellum. <i>Chrysis cyanea</i> and <i>ignita</i> are also
bred at the expense of these bees, neither of the species of
which are uncommon; the smaller one, the <i>C. campanularum</i>,
which is the smallest of our true bees, excepting
.pn +1
.bn 302.png
perhaps one or two of the <i>Nomadæ</i>, I used to find in
abundance upon the railings of the fields that skirt
Hampstead Heath, on the right-hand going from London,
parallel with the Vale of Health, and thence rising
to the Holly enclosure of the Earl of Mansfield’s mansion.
This spot has been productive to me of many
very choice aculeate <i>Hymenoptera</i>, and supplied me
with them in abundance at a time when even the chief
metropolitan collections were bare of them. It has also
furnished me with several very desirable <i>Diptera</i> of extremely
rare genera. The male of the larger species of
this genus Linnæus called <i>florisomne</i>, from its habit
of curling up its abdomen and antennæ, and passing the
night in flowers. Those which they chiefly frequent
are the species of Wallflower, and the <i>Campanula</i>, especially
the round-leaved Throatwort.
.hr 10%
.nf c
Genus 22. <sc>Heriades</sc>, <i>Spinola</i>.
(#Plate XIII.:PLATE-XIII# fig. 3 ♂♀.)
<sc>Apis</sc> ** c 2 <i>γ</i> partly, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Body</sc> glabrous and much punctured.
<sc>Head</sc> globose and curving to the thorax posteriorly;
<i>ocelli</i> in a triangle far forward on the vertex; <i>antennæ</i>
slightly subclavate, the scape not half so long as the
flagellum, the first joint of which is robust, subclavate,
and twice the length of the second, which, with the rest,
are subequal, very slightly lengthening to the terminal
one, which is as long as the basal one and laterally compressed;
<i>face</i> slightly convex, cheeks large and convex;
<i>clypeus</i> lunulate, convex, and with two minute central
teeth on its front margin; <i>labrum</i> longitudinally oblong,
.pn +1
.bn 303.png
rather broadest at the base and slightly waved laterally,
concavo-convex and subemarginate at the apex;
<i>mandibles</i> subequal, tridentate at the apex, and the central
tooth obtuse; <i>cibarial apparatus</i> moderately long,
<i>tongue</i> twice the length of the labium, with a small
knob at its apex; <i>paraglossæ</i> very short, almost obsolete,
coadunate at the base; <i>labial palpi</i> two-thirds the length
of the tongue, the two first joints membranous and long,
the first one-third the length of the second, which
tapers to its acute extremity, before the end of which
the two terminal, subclavate, very short, subequal joints
are inserted; <i>labium</i> half the length of the tongue,
slightly produced in the centre of its inosculation;
<i>maxillæ</i> subhastate, two-thirds the length of the tongue;
<i>maxillary palpi</i> three-jointed, short, robust, equal, and
collectively subfusiform, the terminal one rather acute.
<sc>Thorax</sc> globose; <i>prothorax</i> inconspicuous; <i>scutellum</i>
lunulate; <i>post-scutellum</i> linear, transverse; <i>metathorax</i>
declining; <i>wings</i> with two submarginal cells, and the
commencement of a third indicated, the second larger
than the first, subtriangular, and receiving both the
recurrent nervures, one at each of its extremities; <i>legs</i>
short, rather robust, subsetose and spinulose; <i>posterior
tibiæ</i> convex externally and with their plantæ rugose,
the latter covered beneath with a dense brush of short
hair; <i>claws</i> simple. <sc>Abdomen</sc> cylindrical, convex above,
retuse at the base, and the first and second segments
slightly constricted at their extremity, obtuse, and from
the end of the third segment sensibly declining to the
apex; plane on the venter, where, from the second segment,
the plate of each, excepting the glabrous terminal
one, is covered with a dense brush of short hair for the
conveyance of pollen.
.pn +1
.bn 304.png

The <sc>MALE</sc> differs in the <i>antennæ</i> being rather longer,
more distinctly filiform, the seventh segment of the
<i>abdomen</i> concealed under the extremity of the sixth, and
the <i>venter</i> from the third segment longitudinally deeply
concave, the plate of the third itself covered with hair; the
<i>claws</i> more robust and each equally bifid, not bidentate.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>truncorum</i>, Linnæus, ♂♀.  3-3½ lines.\
(#Plate XIII.:PLATE-XIII#\
fig. 3 ♂♀.)
   <i>truncorum</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
The names of insects are not always very aptly given, for the
only available derivation of this appears to be from <i>ἔπιον</i>,
<i>wool</i>; in allusion to the clothing of its venter;
but, if so, it should be spelt without the H, for the first
letter is without an aspiration. The habits of these closely
resemble those of the preceding genus, to which they have a great
personal likeness, and therefore their natural history would be
but its reiteration. Our solitary species is a rare insect, but I
expect western England would produce it. It is like those of the
preceding genus, of a uniform black colour, punctured, but it
approximates more closely than they do to the type of form
exhibited in the genus <i>Osmia</i>. They visit the same flowers
as the preceding genus.
.hr 10%
.nf c
Genus 23. <sc>Anthocopa</sc>, <i>St. Fargeau</i>.
(#Plate XIV.:PLATE-XIV# fig. 2 ♂♀.)
.nf-

<i>Gen. Char.</i>: <sc>Body</sc> glabrous, subpubescent, shining.
<sc>Head</sc> subglobose, as wide as the thorax; <i>ocelli</i> placed
in a slight curve on the summit of the vertex; <i>antennæ</i>
.pn +1
.bn 305.png
short, geniculated, the <i>flagellum</i> subclavate seen in front,
but seen from above, owing to the compression of the
terminal joint, subfusiform, the first joint of the flagellum
globose, rather robust, the second short, subclavate
and subequal with the rest, which increase gradually in
length and substance to the terminal one, which is the
longest, and laterally compressed; <i>face</i> flattish; <i>clypeus</i>
subquadrate, very convex and very pubescent; “<i>labrum</i>
oblong, quadrate; <i>mandibles</i> strong, tridentate; <i>labium</i>
(tongue) long, filiform; <i>labial palpi</i> having the third joint
articulated externally on the outer side of the second;
<i>maxillary palpi</i> four-jointed.” <sc>Thorax</sc> globose; <i>scutellum</i>
lunate; <i>post-scutellum</i> transverse, linear; <i>metathorax</i>
rounded; <i>wings</i> with two submarginal cells and
the commencement of a third just indicated, the second
very slightly larger than the first, and receiving both the
recurrent nervures, the first just beyond its commencement
and the second close to its termination; <i>legs</i> short,
rather robust, subsetose; the <i>posterior tibiæ</i> externally
convex and the <i>posterior plantæ</i> with a dense, short
brush beneath; the <i>claws</i> simple. <sc>Abdomen</sc> cylindrical,
retuse at the base, convex above, declining from
the base of the fourth segment to the extremity, the
first and second segments very slightly constricted,
the margin of the posterior one, at the apex, slightly
crenulated, the ventral segments plane and from the
second covered with a dense brush of parallel hair, excepting
the sixth, which is reflected laterally and longitudinally,
convex down the centre.

The <sc>MALE</sc> differs in having “the sixth segment of the
<i>abdomen</i> emarginate, and with a strong tooth on each
side; the terminal segment emarginate, thus producing
two strong, lateral, obtuse teeth, the ventral plates of
.pn +1
.bn 306.png
these same segments emarginate at the extremity, and
the emargination fringed with hair; the claws bifid.”
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>papaveris</i>, Latreille. (#Plate XIV.:PLATE-XIV# fig. 2 ♂♀.)
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
Named by St. Fargeau from <i>ανθος</i>, a <i>flower</i>, and
<i>κοπὴ</i>, a <i>cutting</i> or <i>incision</i>, from its
habit of cutting sections out of the petals of the common scarlet
poppy with which to line the cells it forms within the cylinder
it excavates, just as <i>Megachile</i> does with the leaves of
various plants. It is noticed as British upon the faith of the
specimens introduced by Leach into the cabinets of the British
Museum and presumptively caught in the west or south-west of
England, a region rich in rarities. Rennie in fact tells us that
he has found it at Largs, in Scotland. One of Leach’s specimens I
received in exchange from that establishment in 1842, and which
is now in the possession of Mr. Desvignes, to whom my collections
passed in the following year. This genus forms a sort of
combination between the genera <i>Megachile</i> and <i>Osmia</i>,
it having the upholstering habits of the former in the mode with
which it lines its nest, and the general habit of the latter. At
a first glance, before its habits were known or its structure
examined, even an experienced entomologist might have placed it
under <i>Osmia</i>, as an unrecognised species, for it very
strongly resembles the <i>Osmia leucomelana</i>. This proves how
very inconclusive habit is as an index to habits, the latter of
these insects drilling into the pith of brambles, and the
<i>Anthocopa</i> tunnelling cylinders into the hardest trodden
roads or pathways and lining them with its crimson hangings.
.pn +1
.bn 307.png

From the extreme rarity of the insect, I have been
unable to examine the cibarial apparatus, and thence to
ascertain upon what substantial grounds the generic
distinctions are based, which separate it from <i>Osmia</i>.
Whether it was these mere habits of the insect which
induced Le Pelletier de St. Fargeau to establish the
genus I do not know, but he is always extremely slovenly,
and therefore very unsatisfactory in his characteristics,
which are never framed in a strictly explicit manner.
In consequence of all these difficulties, I have merely
been able under the generic character to introduce such
as he has given, which I could not derive from the personal
external inspection of Mr. Desvignes’ female (my
own selection of whose bees for the purposes of this work
he has been so kind as to lend me, and whom I thus
publicly present with my best thanks). I have therefore
compounded a character as well as I could from
St. Fargeau’s descriptions, inserted in the tenth volume
of the ‘<i>Encyclopédie Méthodique</i>,’ and from his work on
the <i>Hymenoptera</i>, forming one of the ‘<i>Suites à Buffon</i>.’

The habits of these bees, as said above, are to excavate
vertical cylinders in hard down-trodden pathways and
roads, by the sides of fields where corn is grown, and
where consequently the common red poppy is abundant.
From the petals of the flowers of this plant they cut
out semicircular pieces, precisely as is done by <i>Megachile</i>
with the more rigid leaves of shrubs and trees,
and convey them home and line their nests with them,
just as is practised by that genus with those leaves,—with
this difference merely, that a sufficient portion of
the upper edge of the pieces of the petals used is left
projecting, for the purpose of forming a covercle to the
nidus, and which, when filled with provender and the
.pn +1
.bn 308.png
egg deposited, is refolded over it and covered in, and it
is closed up with earth. They then proceed to make
another excavation, which is treated in the same manner,
for they deposit only one larva in a tube. If disturbed
in their retreat, they will show themselves at its
mouth, like <i>Dasypoda</i>, to see what is the matter.

I would urge our collecting entomologists, especially
those who have the opportunity of hunting up the west
of England, to use due diligence and strive to confirm
the native existence of this bee and add specimens to the
cabinets of their fellow-entomologists.
.hr 10%
.nf c
Genus 24. <sc>Osmia</sc>, <i>Latreille</i>.
(#Plate XIV.:PLATE-XIV# figs. 1 and 3 ♂♀.)
<sc>APIS</sc> ** <i>c</i> 2 <i>δ</i>, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Head</sc> subglobose, concave, posteriorly
fitting the prothorax and about as wide as the thorax;
<i>ocelli</i> placed far forward on the vertex, which is wide
and convex, in a curved line; <i>antennæ</i> filiform, sometimes
subclavate, short, and geniculated, the <i>scape</i> robust,
as long as the four following joints, the basal
joint of the <i>flagellum</i> globose, its second joint clavate
and as long as the terminal one, the remainder short,
subequal, and gradually but slightly increasing in length;
the <i>face</i> flattish; the <i>clypeus</i> a truncated triangle, convex;
<i>labrum</i> longitudinally oblong, a little laterally distended
at the articulation, from whence the sides are
parallel; <i>mandibles</i> broad at the apex, obscurely tridentate,
the internal teeth obtuse and short; <i>cibarial apparatus</i>
long; the <i>tongue</i> three times the length of the
labium, clothed with short hair and tapering from the
.pn +1
.bn 309.png
base to the acute apex; <i>paraglossæ</i> very short, coadunate
at the base and acuminate at the apex; <i>labial palpi</i> more
than half the length of the tongue, the two first joints
membranous and long, the basal one the broadest, seated
on a petiole and not so long as the second, which tapers
to an acute point, before the apex of which the remaining
two short subclavate conterminous joints articulate;
<i>labium</i> about one-third the length of the tongue, acutely
produced in the centre of its inosculation; <i>maxillæ</i> as
long as the tongue, subhastate and acuminate; <i>maxillary
palpi</i> four-jointed, rather short, the joints subequal
and subclavate, but the second is both the most robust
and slightly the longest. <sc>Thorax</sc> oval or globose; <i>prothorax</i>
inconspicuous; <i>scutellum</i> lunulate and convex;
<i>post-scutellum</i> transverse and linear; the <i>metathorax</i> abruptly
truncated; <i>wings</i> with two submarginal cells, and a
third distinctly commenced, the second the longest, and
receiving both the recurrent nervures, the first towards
its centre and the second near its termination; <i>legs</i>
moderate, setose, the plantæ of all with a dense brush
beneath; <i>claw-joint</i> longer than the three preceding;
<i>claws</i> simple. <sc>Abdomen</sc> short, cylindrical, convex, the
terminal segment slightly pointed, the ventral segments
densely pilose in parallel lines from the second.

The <sc>MALE</sc> differs in having the <i>antennæ</i> longer and
always filiform, the ventral segments very concave, and
the terminal dorsal segment variously mucronated, tuberculated,
spinose or serrated, and the claws bifid.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
 1. <i>leucomelana</i>, Kirby, ♂♀. 3-4½ lines.\
(#Plate XIV.:PLATE-XIV# fig. 3 ♂♀.)
 2. <i>spinulosa</i>, Kirby, ♂♀. 3-4 lines.
.pn +1
.bn 310.png
 3. <i>pilicornis</i>, Bainbridge, MS., ♂♀. 4-4½ lines.
 4. <i>bicolor</i>, Schrank, ♂♀. 4-5 lines.\
(#Plate XIV.:PLATE-XIV# fig. 1 ♂♀.)
 5. <i>fulviventris</i>, Panzer, ♂♀. 4-5 lines.
    <i>Leaiana</i>, Kirby.
 6. <i>ænea</i>, Linnæus, ♂♀.  3-4½ lines.
    <i>cærulescens</i>, Linnæus, ♀.
    <i>cærulescens</i>, Kirby, ♀.
 7. <i>parietina</i>, Curtis, [V. 222.] ♂♀. 3-4 lines.
 8. <i>xanthomelana</i>, Kirby, ♂♀.  4-7 lines.
    <i>atricapilla</i>, Curtis, [V. 222.] ♀.
 9. <i>aurulenta</i>, Panzer, ♂♀. 4-6 lines.
    <i>tunensis</i>, Kirby.
10. <i>rufa</i>, Linnæus, ♂♀. 3-6 lines.
    <i>bicornis</i>, Linnæus.
    <i>bicornis</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
Named from <i>ὀσμὴ</i>, <i>sweet-scent</i>, from some fancied idea
of their possessing the property of emitting a sweet
odour; but this, although it is the case with many of
the bees,—for instance, with the genera <i>Prosopis</i>, <i>Halictus</i>,
<i>Nomada</i>, some of the <i>Anthophoræ</i>, <i>Saropoda</i>, and
the male <i>Bombi</i> and <i>Apathi</i>,—I have not noticed in any
of this subsection, the <i>Dasygasters</i>, and therefore not
in any of the present genus. It is possible that when
richly laden with pollen, this may emit some smell,
but I am not aware that any of the scent of flowers
lies in the anthers or their pollen, although this in
some cases has a spermatic odour pointing to its express
function; but be this as it may, such is their name.
These as a group are what are called the ‘Mason Bees,’
from the habit they have of agglutinating particles of
.pn +1
.bn 311.png
sand or earth mixed with minute pebbles, scarcely larger
than grains of sand, or raspings of wood combined
in the same manner, with a secretion which they emit,
and of which they form their cells. The instinct of the
creature prompts it to be speedy in the operation, as the
material, like plaster of Paris, dries very rapidly to a
hard substance. Whether they have the power of
softening the edges as the manufacture of the cell proceeds
is not known, nor whether, as they add the
material, it instantaneously consolidates itself, but the
colour of the structures themselves would indicate a
simultaneous mixture. This could not be the case, if
the mortar or mixture were formed away from the domicile
and brought home in little pellets, each being added
upon the insects’ arrival, although they obtain it all from
the same spot, whence arises its uniformity in colour,
and they are speedy in the formation of their nests.
These cells are rather rough externally, according to the
nature of the material of which they are composed, but
they are very smooth within. The nature of the cells
varies with the places of their deposit, which is dependent
upon the idiosyncrasy of the species. Thus, those which
construct their cells in wood, form them of moistened
particles of wood, and those which make them in cavities
of any kind, in the earth, beneath stones, or within
empty snail-shells, make a mortar of earth and sand
and small pebbles. Some are strictly uniform in the
selection of the material wherein they build, but others
are perfectly indifferent to its locality, and adopt either
earth or wood, and sometimes the mortar of walls, sandbanks
or chalk cliffs. According to the nature or the
size of the receptacle which they select, is the adjustment
of these cells. Where the cavity is restricted they
.pn +1
.bn 312.png
place them end to end, but where it is more roomy they
affix them side to side, completely adapting themselves
to the circumstances of the locality as I shall instance
below, in the description of the special habits of the
more conspicuous species. I have elsewhere referred to
the metallic colouring of many of the species of this
genus, and amongst them is found the greatest sexual
disparity of personal appearance, the <i>O. leucomelana</i>,
and one or two of the neighbouring species being, perhaps,
the only ones wherein uniformity of appearance
would unite the partners together. The majority are
very pubescent insects, and the females of the terminal
species in the foregoing list are remarkable for a couple
of inwardly curved horns, springing from the base of the
clypeus just below the insertion of the antennæ, an appendage
usually a male attribute.

There is very great dissimilarity in the habits of the
various species, whence no single characteristic will embrace
them, nor is there any distinctive feature whereby
the genus might bear subdivision, either from habits or
habit, as will be collected from the following cursory
survey of their special natural history.

Thus the first species, the <i>O. leucomelana</i>, named so
from the white decumbent down which edges the black
segments of the abdomen, extracts the pith from bramble sticks,
and its cells are formed and closed with a
composition made of triturated wood or leaves. The
cylinders it forms are usually about five inches deep,
and within this it constructs about the same number of
cells proportionate to the small size of the insect. These
are midsummer insects, coming forth in June and July;
they are very local, but seem to abound in the vicinity of
Bristol, whence Mr. Thwaites formerly sent me specimens.
.pn +1
.bn 313.png
A very few days serve for the hatching of the
larva, which spins a slight silken cocoon, and in this
dormitory it reposes until its season again comes round.
Under the influence of the following first genial spring
weather, the larva is transmuted into the pupa, and the
active little imago comes forth upon the settlement of
our variable spring, in the merry days of June, and thus
is perpetuated the circle of its existence, but which is
sometimes abridged by its special parasite, the pretty
little <i>Stelis octomaculata</i>. Many of the species in the
males are distinguished by a peculiar armature of the
apex of the abdomen; the second being named by Kirby
from the circumstance. A very remarkable singularity
distinguishes the males of the third species, in the fringe
of short hair that runs along the flagellum of its antennæ.
This, I believe, was first noticed by the late
Mr. Bainbridge, a very active practical entomologist,
who took the insect at Darenth or Birchwood, and distributed
specimens with this manuscript name attached,
which has since been appropriated by another entomologist
to whom the science was wholly unknown at that
time, but as it is scarcely consistent with scientific
courtesy to adopt such a course, and as the MS. names
of Linnæus and Kirby have been retained, where it
was authorized by their being attached to undescribed
species, I have restored to Mr. Bainbridge his just
rights, and have claimed the same for myself, in the
case of <i>Andrena longipes</i>, and which many cabinets must
still possess with my name attached, in my own writing,
unless their possessors have chosen to adopt the illegitimate
parentage; for the entomologists of my own standing
well know that I always freely distributed specimens
to all who desired them of the many very desirable
.pn +1
.bn 314.png
insects which I have captured in the course of my entomological
career. The fourth and the ninth species, the
<i>O. bicolor</i> and <i>O. aurulenta</i>, have very much the same
habits, both usually burrowing in sandbanks, sometimes
however in wood, in which case the perforation, contrary
to the mode of wood-drilling bees, is made upwards, a
sagacity or instinct which saves it much trouble, for the
particles as they are removed by the mandibles are passed
beneath the insect, and their own gravity carries them
downwards, and thus the insect saves itself the labour of
conveying them out as they accumulate in inconvenient
quantities. The cells in this case are placed end to end.
When they burrow in the earth, the latter species often
associate gregariously in large numbers, and if they select
a cavity, instead of tunnelling it themselves, and it be
too large to take one cell upon the others, they form them
side by side, and thus fill the space. This is the case when
they adopt snail-shells as the receptacle for their incunabula,
and this is done by both these species, and the
shells they select are the empty ones of <i>Helix nemoralis</i>,
<i>hortensis</i>, and <i>adspersa</i>. The capacity of the latter shell
being much greater than that of the others, and too wide
for a single succession, she fills the interval by placing
them side by side, and with the increase of the whorl
of the shell towards its orifice she places them across the
space, and thus completes her task. In the former
shells, the cavity at first admits of the succession of but
one upon the other, but with its enlargement she places
them side by side, and this repeated fills the hollow. Its
aperture is then closed with earth and pebbles or sticks
agglutinated together, as described at the commencement.
The <i>O. fulviventris</i> burrows in wood, and upon
this species the <i>Stelis phæoptera</i> is parasitical; and that
.pn +1
.bn 315.png
very pretty but extremely common species the <i>O. ænea</i>,
in which the male is of a rich bronzy tint, and the female
of a beautiful blue, verging sometimes to nearly black,
burrows also in wood, although sometimes it capriciously
selects old walls or chalk-cliffs, and is subject to the
incursions of the same parasite. Perhaps the most
extraordinary species is the <i>O. parietina</i>, figured and
named by Curtis, and which he first found at Ambleside;
it has since been found in the Grampians very considerably
above the level of the sea, and it is thus essentially
a northern species both from altitude and locality.
It would appear that this species selects some flat stone
of about a foot in surface, lying upon the ground over
a hollow spot. Such a specimen, sent to the British
Museum, had attached to its under side two hundred and
thirty cocoons, indicative of a considerable colony, or
perhaps the accumulation of successive years, as one-third
of these cocoons were empty of tenants. These, in
their new depository, continued developing themselves
in the perfect state between March and June, males appearing
first. When the transformations of the season
ceased, five-and-thirty were still left to present themselves
another year, and the following spring these were
developed; thus, including those which had already
escaped when the stone and its treasure was secured,
three successive seasons were occupied in their transmutations.
It may be a species that requires three
years for its metamorphosis, and the whole deposit of
cocoons may have been the result of three years’ accumulative
structure, the vital activity of their northern life
being perhaps more sluggish than in species frequenting
the south. The last species the <i>O. rufa</i>, that in which
the female is remarkable for its inverted horns, which
.pn +1
.bn 316.png
must be for some use in its economy, is perhaps the most
common of all. I have found it in abundance upon old
walls with a sunny aspect at Erith, and throughout the
pleasant Crays of Kent. It is indifferent as to the choice
of its domicile, selecting either walls, where I have chiefly
found them, sandbanks, or the decaying stumps of pollard-willows.
Its processes are similar to those of some
of the earlier described, but its larva is longer in full
feeding, which, when it has consumed all its provender
spins a tough cocoon of brown silk, wherein it undergoes
its changes; some, depending much upon locality,
pass into pupæ in the autumn, others hibernate as larvæ
which are subject to destruction from the attacks of the
<i>Chalcideous</i> insect, <i>Monodontomerus dentipes</i>, previously
noticed under <i>Anthophora</i>. Some of the <i>Chrysididæ</i>
also infest several of the species of this genus, and I have
no doubt that <i>Stelis aterrima</i> is parasitical upon one of
them, although it has not been recorded. The various
species frequent many flowers, especially those abundant
in the locality they inhabit, but the <i>O. pilicornis</i> chiefly
affects the common Bugle (<i>Ajuga reptans</i>), and they
much frequent composite flowers, especially the species
of the genus <i>Hieracium</i>.
.hr 10%
.nf c
Section 2. <i>Cenobites</i> (<i>dwellers in community</i>).
Subsection 1. <sc>Spurred</sc>.
† <i>Parasitical.</i>
Genus 25. <sc>Apathus</sc>, <i>Newman</i>.
(#Plate XIV.:PLATE-XV# figs. 1 and 2.)
<sc>Apis</sc> ** <i>e</i> 2 partly, Kirby.—<sc>Psithyrus</sc>,\
St. Fargeau.
.nf-

<i>Gen. Char.</i>: <sc>Body</sc> subhirsute. <sc>Head</sc> subglobose;
.pn +1
.bn 317.png
<i>vertex</i> broad, glabrous, with a deeply impressed cross
upon its summit, in the centre of which the ocelli are
placed in an almost straight line and contiguously; <i>antennæ</i>
short, filiform, geniculated, the <i>scape</i> slightly
curved, the basal joint of the <i>flagellum</i> subglobose, its
second joint as long as the terminal one and subclavate,
the rest short, subequal, but gradually increasing in
length to the terminal one, which is laterally compressed;
the <i>face</i> flat; <i>clypeus</i> transversely lunate but straight in
front; <i>labrum</i> lunulate, tuberculated laterally; <i>mandibles</i>
broad and obscurely bidentate; <i>cibarial apparatus</i>
moderate; <i>tongue</i> twice the length of the labium, tapering
from base to apex, where it terminates in a small
knob, and is clothed with short hair; <i>paraglossæ</i> obsolete;
<i>labial palpi</i> as long as the tongue, the two first joints
long and membranous and tapering to the apex of the
second, which is acute, and about one-fourth the length
of the first, it has the two very short, subclavate, terminal
joints, which are conterminous, and articulated
just before its acute apex; <i>maxillæ</i> subhastate and acuminate;
<i>maxillary palpi</i> very short, linear, and equal.
<sc>Thorax</sc> globose, pubescent, concealing its divisions;
<i>metathorax</i> truncated; <i>wings</i> with three submarginal
cells nearly equal, or the third the largest, the second
receiving the first recurrent nervure at about one-third
its length, and the second is received by the third submarginal
cell near its extremity; <i>legs</i> setose; the <i>posterior
tibiæ</i> convex, very slightly enlarging from base to
apex, rounded at the extremity externally, and unfurnished
with means to convey pollen; <i>posterior plantæ</i>
oblong, narrowly equal, and not auriculated; <i>claws</i> bifid.
<sc>Abdomen</sc> ovate, convex above, deflecting toward its extremity,
and subglabrous on the disk, the terminal
.pn +1
.bn 318.png
dorsal segment triangular, and its ventral plate straight
at its apex with the lateral angles reflected, making it
concave beneath and subcarinated longitudinally in the
centre, or also triangular and the sides of the prominent
angle deflected.

The <sc>MALE</sc> differs in having the antennæ slightly
longer, in being rather more pubescent, more highly
and rather differently coloured, and its terminal segment
merely rounded.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
3. <i>campestris</i>, Panzer, ♂ ♀. 6-9 lines.\
(#Plate XIV.:PLATE-XV# fig. 2.\
The fig. marked ♂ by mistake for ♀.)
   <i>campestris</i>, Kirby, ♀.
   <i>Rossiella</i>, Kirby, ♂.
   <i>Leeana</i>, Kirby.
   <i>Franciscana</i>, Kirby.
   <i>subterranea</i>, Kirby.
2. <i>Barbutellus</i>, Kirby, ♂ ♀. 6-9 lines.
3. <i>vestalis</i>, Fourcroy, ♂ ♀. 6-10 lines.\
(#Plate XIV.:PLATE-XV# fig. 2 ♀.)
   <i>vestalis</i>, Kirby, ♀.
4. <i>rupestris</i>, Fabricius, ♂ ♀. 6-10 lines.\
(#Plate XIV.:PLATE-XV# fig. 1 ♂ ♀.)
   <i>albinella</i>, Kirby, ♂.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
Named from <i>α</i>, privative, <i>πάθος</i>,
<i>affection</i>; that is to say, without affection, from their
habit of leaving
their young to be nurtured by others, in allusion to
their parasitical instincts, for the young of these bees
are brought up in the nests of the <i>Bombi</i>. They form
the only instance in bee-parasitism of the parasite
.pn +1
.bn 319.png
closely, or nearly so, resembling its sitos, if not always
in colour, certainly in habit. Having no labours
to undergo they consist of merely males and females,
but the latter, although very like the large female <i>Bombi</i>,
are much less pubescent than these, for they have a broad
disk, upon the upper surface of the abdomen, always
smooth and shining. Both sexes appear to have free
in- and egress to the nests of those <i>Bombi</i> which they
infest, without any let or hindrance on the part of the
latter, with whom they seem to dwell in perfect amity.
In the times of their appearance they closely resemble
the <i>Halicti</i> and the neighbouring <i>Bombi</i>. Thus the
females, after impregnation in the autumn, having hibernated
during the winter in selected receptacles, come
out with the first gleams of spring conjunctively with the
large maternal <i>Bombi</i>, in whose nests they have taken
their long repose in perfect torpidity; and as soon as
these begin to accumulate the masses of conglomerated
honey and pollen whereon to deposit their eggs, the
parasite takes advantage of it, lays her eggs too, and
thus secures food for her offspring. There being two
broods of them in the year, many are gradually developed
with the advance of summer, but the great hatching
takes place in the autumn, when the thistles are in
blossom. Then both males and females come forth in
abundance, the latter are made fertile, and their partners
enjoy the brief interval of the still blossoming flowers
until the usual period is put to their existence by natural
decay, the first frosts, or the rapacity of insectivorous
birds. Connected with this last circumstance I have a
personal experience to record, and which its repetition
would indicate as being one of Nature’s prompting acts.
A lofty sandy level, very near the high-road which leads
.pn +1
.bn 320.png
at the upper part of Hampstead Heath, to Highgate, from
which road it was separated by merely a band of whins
and coarse grass, used to be a very favourite collecting
place of mine, for there, and in its immediate vicinity,
I have often caught, within a very brief period, more
than half the genera, and a very large number of the
species of the fossorial <i>Hymenoptera</i>. One particular
little spot was inhabited by <i>Psen equestris</i>, rare everywhere
else, and our largest <i>Cerceris</i>, who carried on their
instinctive pursuits during all the summer months, but
at a particular time in the autumn, varying slightly
with the nature of the season, a flock of wagtails (<i>Motacilla</i>)
would alight and make brief work of those fossores
which were still aflight; and this was repeated season
after season, as if the wagtails thought it was time that
their own rapacity should stop the course of these predacious
insects. But to return, the female <i>Apathi</i> then
resort to the nests of the <i>Bombi</i> whence they have issued,
and lay themselves up in their winter dormitory. That
this must take place speedily after impregnation is rendered
almost conclusive by the fine state in which their
pubescence appears in the spring, which would be tarnished
did they loiter about visiting flowers previous to
their return home. But the labours of the female and
neuter <i>Bombi</i> themselves are now over, and they would
therefore find no store whereon to deposit their eggs.
The parasitical allocation of these insects is as follows.
<i>Apathus rupestris</i> infests <i>Bombus lapidarius</i>; <i>A. vestalis</i>
the <i>B. terrestris</i>, and this forms an instance in which
the parasite is not clothed in the colours of its sitos.
But <i>A. Barbutellus</i> has a wide range, for it frequents
the nests of <i>B. pratorum</i>, <i>B. Derhamellus</i>, and <i>B. Skrimshiranus</i>.
.pn +1
.bn 321.png

.nf c
†† <i>Not parasitical.</i> <i>Collectors of pollen.</i>
‡ <i>Temporarily social.</i>
Genus 26. <sc>Bombus</sc>, <i>Latreille</i>.
(#Plate XIV.:PLATE-XV# figs. 3 and 4, and Plate XVI. figs. 1, 2, 3.)
<sc>Apis</sc> **  <i>e</i> 2, Kirby.
.nf-

<i>Gen. Char.</i>: <sc>Body</sc> densely hirsute. <sc>Head</sc>
small, subglobose, not so wide as the thorax; the <i>vertex</i>
glabrous, with a longitudinal, short, deep channel, crossed in its
centre by a deeper transverse one, wherein the <i>ocelli</i> are
disposed in a very slightly-curved line; <i>antennæ</i> short,
geniculated, and filiform; the <i>scape</i> half as long as the
flagellum, the first joint of which is globose, the second
subclavate, the rest short and subequal, and the
terminal one compressed laterally; <i>face</i> flat, densely
pubescent; <i>clypeus</i> subtriangular, gibbous, its base truncated,
and apex convexly lobated, or straight and margined;
<i>labrum</i> lunulate; <i>mandibles</i> broad at the base,
and obscurely tridentate; <i>cibarial apparatus</i> moderate;
<i>tongue</i> twice the length of the labium, clothed with pubescence
to within a brief distance of its apex, and terminating
in a small knob; <i>paraglossæ</i> about one-fourth
the length of the tongue, coadunate at the base, and
acuminate; <i>labial palpi</i> three-fourths the length of the
tongue, broad at the base, and tapering to the extremity
of the acute apex of the second joint, which is about
one-fifth the length of the first, the two terminal joints
very short and articulated laterally just before the
end of the second; <i>labium</i> one-half the length of the
tongue, broadest at its base, and acutely produced in the
centre of its inosculation; <i>maxillæ</i> as long as the tongue,
subhastate and acuminate; <i>maxillary palpi</i> two-jointed,
short, sometimes equal, and slightly robust, or with the
.pn +1
.bn 322.png
basal joint very robust, and its terminal joint twice as
long and linear. <sc>Thorax</sc> globose, very hirsute, whence
its divisions are inconspicuous; <i>scutellum</i> lunate; <i>metathorax</i>
truncated; <i>wings</i> with three submarginal cells subequal,
or the third the longest, and a fourth slightly commenced,
the second receiving the first recurrent nervure
near its centre, and the third receiving the second recurrent
nervure close to its extremity; <i>legs</i> robust,
pilose, the four anterior plantæ with a dense, short, setose
brush beneath; the <i>posterior tibiæ</i> triangular, very
smooth, and irregularly concave on their external surface,
fringed with long pile along its two external edges,
and its extremity tipped with a short pecten of stiff setæ;
the <i>plantæ</i> elongate and broad, nearly equal, externally
shagreened and spinulose, with a longish auriculated
process at the external angle of the superior edge, a
dense brush of short, stiff hair beneath, and a short
pecten of stiff setæ edging its subemarginate extremity;
the <i>claw-joint</i> the longest of the four short subsequent
joints, and the <i>claws</i> bifid. <sc>Abdomen</sc> ovate or globose,
deflected towards its extremity, its base retuse, the last
segment triangular, and terminating obtusely.

The <sc>MALE</sc> differs in always being more intensely coloured;
in having the <i>antennæ</i> distinctly longer, less distinctly
geniculated, the <i>scape</i> shorter, the third joint of
the <i>flagellum</i> almost as short as its basal joint, and the
fourth as long as the terminal one, which latter two
are the longest of all, and the joints from the fourth to
the eleventh severally more or less slightly curved.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
 1. <i>lapidarius</i>, Linnæus, ♂ ♀ ⚲. 6-10 lines.
    <i>lapidarius</i>, Kirby.
.pn +1
.bn 323.png
 2. <i>Harrisellus</i>, Kirby, ♂ ♀ ⚲. 6-10 lines.\
(#Plate XVI.:PLATE-XVI# fig. 1 ♀.)
 3. <i>subterraneus</i>, Linnæus. ♂ ♀ ⚲. 5-10 lines.
    <i>Soroensis</i>, Kirby?
 4. <i>Latreillellus</i>, Kirby, ♂ ♀ ⚲. 5-8 lines.
    <i>Tunstallana</i>, Kirby.
 5. <i>hortorum</i>, Linnæus, ♂ ♀ ⚲. 5-10 lines.
    <i>hortorum</i>, Kirby.
 6. <i>Soroensis</i>, Fabricius, ♂ ♀ ⚲. 5-8 lines.\
(#Plate XV.:PLATE-XV# fig. 4 ♂.)
    <i>Cullumana</i>, Kirby, ♂.
 7. <i>lucorum</i>, Linnæus, ♂ ♀ ⚲. 5-9 lines.
    <i>lucorum</i>, Kirby.
    <i>virginalis</i>, Kirby.
 8. <i>terrestris</i>, Linnæus, ♂ ♀ ⚲. 7-11 lines.
    <i>terrestris</i>, Kirby.
 9. <i>Skrimshiranus</i>, Kirby, ♂ ♀ ⚲. 5-8 lines.
    <i>Jonella</i>, Kirby.
10. <i>nivalis</i>, Dahlbom, ♂ ♀. 6-8 lines.
11. <i>pratorum</i>, Linnæus, ♂ ♀ ⚲. 4-8 lines.
    <i>pratorum</i>, Kirby.
    <i>subinterrupta</i>, Kirby.
    <i>Donovanella</i>, Kirby.
    <i>Burrellana</i>, Kirby.
12. <i>Derhamellus</i>, Kirby, ♂ ♀ ⚲. 4-8 lines.
    <i>Raiella</i>, Kirby, ♀.
13. <i>Lapponicus</i>, Fabricius, ♂ ♀ ⚲. 5-9 lines.
    <i>regelationis</i>, Newman.
14. <i>fragrans</i>, Pallas, ♂ ♀ ⚲. 5-10 lines.\
(#Plate XIV.:PLATE-XV# fig. 3 ♀.)
    <i>fragrans</i>, Kirby.
15. <i>sylvarum</i>, Linnæus, ♂ ♀ ⚲.  6-8 lines.\
(#Plate XVI.:PLATE-XVI# fig. 3 ♀.)
.pn +1
.bn 324.png
    <i>sylvarum</i>, Kirby.
16. <i>Smithianus</i>, White, ♂♀⚲. 4-10 line
17. <i>senilis</i>, Fabricius, ♂♀⚲. 6-9 lines.
    <i>muscorum</i>, Kirby.
18. <i>muscorum</i>, Linnæus, ♂♀⚲. 4-9 lines.
    <i>Francillonana</i>, Kirby.
    <i>floralis</i>, Kirby.
    <i>Sowerbiana</i>, Kirby.
    <i>Beckwithella</i>, Kirby.
    <i>Curtisella</i>, Kirby.
    <i>Forsterella</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
These, perhaps the most conspicuous of our native
bees, certainly the largest, and probably the most generally
known after the domestic bee, have their scientific
generic name from <i>βόμβος</i>, an imitative word, made to
indicate the sound of the hum of the insects themselves.
They have many popular names such as bumble bees,
dumbledors, humble-bees, and in Scotland they are called
foggie bees. They consist of three sexes, males, females,
and neuters, which differ considerably in size, the females
being very much the largest, and the neuters the smallest.
Of course, individually, like all other insects, there is
much variation among them in the intensity or diversity
of the colouring of their pubescence, from which it
is chiefly that they derive their specific distinctions; in
the relative sizes of individuals also there are great differences.
It is the males, as is usual among the bees,
which are the gayest in their attire, and take the widest
range of variation, and sometimes so much exceed the
typical specific character in their markings as to require
experience to identify them, and to place them correctly
.pn +1
.bn 325.png
with their true species, which can only be ascertained
with certainty by the examination of the male organs of
generation, which differ in the various species, but are
undeviating in their specific uniformity. Of this character,
which I was the first to discover as being of specific
value for critical determination in the separation of
the species of very difficult insects, I was enabled to make
important use in the genus <i>Dorylus</i>, in a monograph on
the <i>Dorylidæ</i>, an exotic family proximate to the ants,
and which was published in Taylor’s ‘Annals of Natural
History’ for May, June, and July, 1840. The females
and neuters of <i>Bombus</i> are less subject to such extensive
dissimilarity, and may be usually associated, by their pubescence,
in their legitimate groups. Form also frequently
lends its aid as subsidiary to their specific identification.

These and <i>Apis mellifica</i> are our only social bees,
which live in numerous communities under a kind of
municipal government which is considerably less perfectly
organized in the present genus than in the domestic
bee, and thence they are called “villagers,” in contradistinction
to the citizenship of the hive bee, earned
by its comparatively metropolitan institutions, and the
centralization of its government, which wholly emanates
from the pervading influence of the queen upon
the labours, and, indeed, upon the existence of her subjects.
But the <i>Bombi</i> are under much less social restraint,
and admit of several co-regents in the same community,
without its being productive of any disturbance
of social harmony. In the account of the genus <i>Apathus</i>,
the last described, we have seen that the <i>Bombi</i> are subject
to bee-parasites, which in some closely resemble the
species they infest, and we have also shown there how
these are distributed. The hive bee is not exposed to
.pn +1
.bn 326.png
such intrusion, although, like these, they have many enemies.
In the very earliest spring months these <i>Bombi</i>
are abroad; for as soon as the catkins of the sallow
are ripe for impregnation, they are on the wing. But
it is now that the large females only are at work, for
they have to create their companions before they can
be surrounded by them. Their fruition is the result of
the previous autumn’s amours, at a period too late to
form sufficient stores for the numerous brood they will
produce, and accordingly, after revelling in a brief honeymoon,
they resort, like staid matrons, to a temporary
domicile, some cavity just large enough for themselves.
In this retirement they pass the cheerless wintry months,
requiring perhaps the incubation of time thoroughly to
mature their fruit. Whether this be the case or not, as
soon as the earth begins to feel the warmth of the sun
upon its return from its far southern journey, and to
respond to the renewed vitality it gives to vegetation,
these bees feel its active influence and come forth. With
the progress of the spring and summer most flowers are
exposed to their rifling, but they revel upon the elegant
flowers of the Horse-chestnut, and their hum is the
music of the lime when it is in blossom. According to
the species, they select a cavity for their nest, or construct
it upon the surface of the ground, this being the
case with the <sc>CARDER-BEES</sc>, which gather moss to construct
their residence. In those which inhabit beneath
the surface, the selection of an already formed cavity
greatly abridges their labour, and their instinct prompts
them to choose one sufficiently large for the prospective
community, but the nest itself is gradually extended in
size suitable to their progressive increase in numbers.
All that the parent female does at first is to form a
.pn +1
.bn 327.png
receptacle sufficiently large for her first gatherings of
pollen and honey, whereon to deposit her first eggs, and
to form a waxen cruse or two to contain the honey requisite
for the nest operations of keeping these masses
moist enough for the nurture of the larvæ. The material
of these pots although called wax is not properly
so, but is an agglutination of collected vegetable
matter, for it is not plastic to the fingers like wax, and
it burns, leaving a carbonaceous residuum very attractive
to moisture. The larvæ hatched from the eggs now
deposited produce the first neuters, which spin a cocoon
wherein they rapidly undergo their transformations.
They are, in the first instance, aided to emerge from
their silken cot by the parent gnawing off its top, but
subsequently this duty is performed, as the family increases,
by the neuters then developed. The young
bee, on emerging from its cocoon, is not thoroughly
hardened in its integument, and its pubescence also
acquires by degrees only its proper colouring; all this
is not long in being effected, but, until they are thoroughly
able to fly forth, they continue to be fed by
their elder sisterhood, for the neuters are properly abortive
females. Males, and further productive females
are produced later in the spring, and are smaller than
the normal sizes of those sexes; the autumnal brood, consisting
also of males and females, again resume the full
size of the complete insect, and it is these females which,
after impregnation, hibernate and reappear in the following
early spring to be each the parent of a new
progeny. The population of these nests varies considerably
in the several species: in some, as in that of
<i>Bombus terrestris</i>, there are more than two hundred,
and in that of <i>B. senilis</i> there are about a hundred
.pn +1
.bn 328.png
and forty; but it is in those that construct their nests
above the ground that the fewest are found. As with
the general population, so with the relative proportions
of the sexes, the several species vary. Of course all
these numbers are approximative only, as under certain
conditions they will necessarily differ, nor are the general
or relative numbers identical, even in the same species,
in the same season, and in the same locality. The proportions
are usually somewhat like this, about double
the number of neuters to females, and nearly the same
number of males as of females. In some of the communities
there are even as few as twenty neuters, and
these, of course, comprise those species which are most
rarely found by collectors. The most pugnacious of all,
and the fiercest in their attacks and most painful in
their stings, are those which live underground or in
cavities formed of accumulations of stones, and it is these
which are the least constructive in their habitations, as
if their truculent nature rejected the concomitants of
incipient civilization; for it is those which build moss-nests,
requiring a certain amount of skill, that are the
most gentle in their habits. With the increase of
numbers in the habitation, the rapidity of the labours
progresses, and the accumulations quickly increase; but
there is always opportunity for the entire community to
find employment, either in enlarging their nests, when
they build them, or in securing them from the intrusion
of water, or repelling enemies, or feeding the young, and
accumulating stores. In collecting pollen they are often
covered as if they had rolled themselves in it, and this
they brush from their hairy bodies chiefly with their
posterior legs; sometimes they return in this disguised
condition, and free themselves from it only at home; in
.pn +1
.bn 329.png
other cases they bring it home collected in little masses
upon the corbiculum, or basket, of the posterior shanks.
They may be often caught thus laden, and I once captured
a large female of <i>B. terrestris</i>, with the shanks and
plantæ of both intermediate and posterior legs covered
with masses of thick clay, required doubtless at home
for some domestic repairs. The instinct of these bees
teaches them that where the tube of the flower is too
narrow for the introduction of their body, and too long
for even their long proboscis to reach the nectarium at
the bottom, they may get at the honey by piercing a
hole near that organ, which they know where to find,
and thus they readily get at the treasure that they
seek, lapping it through the aperture and carrying it
off. If, in their collecting excursions, they are intercepted
by heavy rains, or loiter far away too long until
the twilight closes, they will pass the night away from
home, and return laden with their gatherings as soon as
the warmth of the sun reanimates them to activity;
thus they will often sleep in flowers, and a nest therefore
taken at night is not always a sure indication in those
found within it, of its complete population. In their
amours, the autumnal females evince considerable coquetry
to attract their partners: they place themselves
upon some branch in the most fervid sunshine, and here
they practise their cajoleries in the vibrations of their
wings, and allure them by their attractive postures.
The males are simultaneously abroad, and soon perceive
them. The seduction is complete, and they pounce
down upon them with impetuosity, but their brief indulgence
terminates in death, for with his abating vigour
the female repulses him, and he falls to the ground
never to take wing again. Amongst their insect enemies
.pn +1
.bn 330.png
the <i>Dipterous</i> genera, <i>Volucella</i> and <i>Conops</i>,
are very destructive to their larvæ,—the first of these genera in
its colouring greatly resembling the species upon which it preys.
Foxes, weasels, field-mice, all prey upon them, and, like
schoolboys, often destroy the bee for the sake of its honey-bag,
an instance of which I have before recorded as illustrative of
their endurance of the loss of a considerable portion of the body
without its being fatal.

The most interesting part of their history is perhaps
that upon which I have not yet enlarged, namely, the
structure of their nests. This is particularly the case
with the carder-bees, which felt and plait the filaments
of moss to form its whole enclosure. Such species select
a spot close to an abundant supply of the material;
this they bite off and form pellets of. To these nests a
moderately long arched passage is formed of the same
material, of sufficient size to permit the free passage of
the bees to and fro. This necessarily is shorter at first
and leads to a smaller receptacle when the parent bee
works alone. But as her offspring of workers increases,
the passage is lengthened and the nest enlarged. To
construct it, when in full activity, the bees form a chain,
one behind the other, extending from the growing material
to the entrance of their passage to the nest, all
their heads being turned towards the moss and their backs
to the nest. The first bites off the raw material, rolls it
and twists it, and passes it to the second, by whom and
the succeeding ones it undergoes further manipulation,
and where the chain terminates at the commencement
of the passage another bee receives it and conveys it
along this into the interior, and then applies it itself
or passes it to others thus employed where it is required.
.pn +1
.bn 331.png
A vaulted covering and sides is thus formed
or extended within the cavity by the plaiting or wreathing
together of these sprigs of moss, and the inside of
which is further strengthened by being plastered with a
coating of the pseudo-wax, which, however, smells much
like true wax, and with which the lower loose filaments
of the moss are intermingled, that one cannot be separated
from the other without tearing the whole to pieces.
Thus ingeniously do these insects enclose their home.
These nests are not always on the surface, but often
cavities of the necessary size are thus lined, and then
they are doubly secure. Within these nests, with the
increase of the population the number of the cocoons of
course increases, as they are never used twice over, excepting
that when they are conveniently situated for the
purpose they are converted into honey pots. Thus
sometimes several layers are formed of these irregularly-placed
cocoons, of which the longest diameter is, however,
always perpendicular to the horizon. In this way
<i>B. muscorum</i>, <i>senilis</i>, <i>fragrans</i>, and others build. Some
use a naked cavity, and merely secure it in its crevices
from the filtering intrusion of rain or other water, the
closing patches being formed of the usual waxy material.
This is the practice of <i>B. terrestris</i>, which associates the
largest communities of all; and <i>B. lapidarius</i> seeks
cavities among stones or in the earth, and forms a nest
of a regular oval, but merely clothes the sides, which is
done by bits of moss and grass carried carefully home.
The domestic arrangements within are much the same
in all, the prolific females and the neuters being the
labourers, which perform all the duties of building, the
collecting and caring for the young, the function of the
males being limited to the perpetuation of the species.
.pn +1
.bn 332.png

.nf c
<s>Subsection 2. <sc>Without Spurs to the posterior Tibiæ.</sc>
‡‡ <i>Permanently social.</i></s>
Genus 27. <sc>Apis</sc>, <i>Linnæus</i>.
(#Plate XVI.:PLATE-XVI# fig. 4 ♂ ♀ ⚲.)
<sc>Apis</sc> ** <i>e</i> 1, Kirby.
.nf-

<i>Gen. Char.</i>:—<sc>The neuter.</sc>—<sc>Body</sc> nearly
cylindrical and subpubescent. <sc>Head</sc> transverse, about as
wide as the thorax; <i>vertex</i> and <i>face</i> deeply
longitudinally channelled in the centre, the latter to the apex
of a small triangular elevated space between the insertion of the
antennæ, and extending to the base of the clypeus, the sides of
the face flat; the <i>ocelli</i> rather large, seated far back
upon the vertex in a triangle, the anterior one in the depth of
the longitudinal channel, the two lateral ones placed further
back towards the occiput in a transverse indentation crossing the
longitudinal one; <i>compound eyes</i> very pubescent; the
<i>hexagonal facets</i> very minute; <i>antennæ</i> short,
filiform, geniculated; the <i>scape</i> nearly half the length of
the flagellum and subfusiform, the basal joint of the flagellum
globose, the second subclavate and subequal with the remainder,
very slightly lengthening to the apical joint, which is
compressed and as short as the second; <i>clypeus</i> quadrate,
convex; <i>labrum</i> transverse, linear, slightly waved in
front; <i>mandibles</i> broad at the apex, edentate, obliquely
truncated and concavo-convex; <i>cibarial apparatus</i> shortish;
<i>tongue</i> nearly twice the length of the labium, linear,
pubescent, and terminating in a small knob; <i>paraglossæ</i>
obsolete, coadunate with the base of the tongue; <i>labial
palpi</i> not quite so long as the tongue, the first joint four
times as long as the remainder, and tapering from the base to the
apex of the second joint, which is about one-fourth the length of
the preceding, and has the two very short terminal
.pn +1
.bn 333.png
joints articulated just before its acute apex; <i>maxillæ</i>
broad, hastate; <i>labium</i> half the length of the tongue, its
inosculation straightly transverse, not so long as the
tongue and acuminate; the <i>maxillary palpi</i> extremely
short, the basal one the shortest. <sc>Thorax</sc> subglobose;
<i>prothorax</i> inconspicuous; <i>scutellum</i> lunulate and impending
over the post-scutellum, which is transverse and
linear; <i>metathorax</i> truncated; <i>wings</i> with a long marginal
cell extending nearly to the end of the wing, and
obtuse at its extremity, three submarginal cells which
terminate at less than half the length of the marginal,
the second the largest and receiving the first recurrent
nervure towards its commencement, the third oblique
and narrow and receiving the second recurrent nervure
just beyond its centre; <i>legs</i> slender, subpilose; the
anterior and intermediate <i>tibiæ</i> with a spur, their <i>plantæ</i>
with a dense short close brush all round, the <i>posterior
tibiæ</i> triangular, glabrous within, externally smooth,
shining, and irregularly concave, the edges fringed longitudinally
with long hair curving inwards, and forming
the sides of the corbiculum, or basket, which conveys the
<i>matériel</i> of the nest, the apex transverse and pectinated
with short rigid setæ, but wholly without spurs; the
<i>plantæ</i> oblong, not quite so long as the tibiæ, the sides
nearly parallel, the upper edge fringed with long loose
hair, subglabrous externally, but furnished internally
with ten transverse, parallel rows of short stiff golden
hair, with an auricle at the outer angle, forming collectively
a dense brush, and its oblique apex pectinated
with short stiff setæ, the remainder of the tarsal joints
short, the fourth the shortest, and the claw-joint the
longest; the <i>claws</i> short, robust, and bifid. <sc>ABDOMEN</sc>
retuse at the base, subcylindrical, convex above, and terminating
.pn +1
.bn 334.png
conically, the first segment very short, the second
the longest, the ventral segments ridged longitudinally
in the centre.

The <sc>FEMALE</sc>, or <sc>QUEEN</sc> differs in the head not being
quite so wide as the thorax, in having the <i>cibarial apparatus</i>
very much shorter; the <i>mandibles</i> distinctly bidentate,
the inner edge of the inner tooth stretching
obliquely to the acute inner extremity of the broad apex
of the organ; the <i>labial palpi</i> as long as the tongue,
with all the joints conterminous, the basal one slightly
acuminate, the second linear, the two terminal ones
more slender and shorter, the pubescence of the eyes
very much longer than in the neuter; the <i>legs</i> more
robust and less pilose; the <i>posterior tibiæ</i> convex externally,
without the lateral fringes of hair, and their
plantæ merely oblong, without the external basal auricle.
The <sc>ABDOMEN</sc> is also considerably relatively longer;
and has not the central ventral ridge.

The <sc>MALE</sc> or <sc>DRONE</sc> differs from both in being considerably
more robust and more completely cylindrical,
and very much more densely pubescent; the <i>compound
eyes</i> contiguous at the summit, occupying the whole of
the vertex, and nearly all the lateral portions of the face,
extending below to the articulation of the mandibles,
their pubescence much shorter but denser than in the
other sex; the <i>ocelli</i> large, and seated at the top of the
central portion of the face in a close triangle, a little
above the insertion of the antennæ, and in front of the
conjunction of the compound eyes, the lateral ones of
the triangle being closely contiguous to the upper inner
edge of those eyes; the <i>antennæ</i> are more robust and
rather longer; the <i>cibarial apparatus</i> very short; the
<i>labial palpi</i> about three-fourths the length of the tongue,
.pn +1
.bn 335.png
and the joints conterminous, the <i>tongue</i> robust; the
<i>thorax</i> is nearly quadrate; the <i>legs</i> are nearly naked,
the four anterior very slender; the <i>posterior tibiæ</i> slightly
curved, convex externally; the <i>posterior plantæ</i> more
robust, and more convex externally than their tibiæ,
they are regularly oblong, and without the basal auricle,
the rest of the joints of the tarsi are very short. The
<sc>ABDOMEN</sc> robust, and obtuse at its extremity, but its
seventh segment is concealed beneath; the <i>ventral segments</i>
concave longitudinally.
.sp 2
.nf c
NATIVE SPECIES.
.nf-
.in 4
.nf l
1. <i>mellifica</i>, Linnæus. (#Plate XVI.:PLATE-XVI# fig. 4 ♂♀⚲.)
   <i>mellifica</i>, Kirby.
.nf-
.in 0
.sp 2
.nf c
GENERAL OBSERVATIONS.
.nf-
The name of this genus, <i>Apis</i>, adopted by Linnæus
as the classical generic name of the bee, although with
him it comprised the whole modern family of these insects,
but which, as now restricted, in accordance with
its limitation exclusively to the congeners of his adopted
type, is the ancient Latin vernacular name of the honey-bee,
and to which it has been ever since uniformly
attached. This name, as shown by its derivative meaning,
was originally imposed with direct reference to the
insect’s constructive habits, as was the case with the
names given to it in the more primitive languages before
referred to, and which is also the origin of its Teutonic
and Scandinavian appellations—<i>Biene</i>, <i>Bie</i>, and <i>Bi</i>,
whence our own common name for it is obtained through
the Saxon <i>Beo</i>, and we have beside Bye or bee, signifying
<i>a dwelling</i>. From this circumstance it would
seem that a very early and universal discernment existed
.pn +1
.bn 336.png
of its ingenuity and skill, its significant name being
everywhere analogous.

The habits and economy of these industrious little
creatures have been a source of greater wonder and
admiration the more closely and accurately they have
been observed. They have attracted the thoughtful speculation
of minds of the largest compass throughout
all ages, which, reasoning upon the <i>modus operandi</i> of
these insects, have endeavoured to define, and determine
the differences between instinct and reason, with their
precise limitations. But baffled in their attempt to
settle whether these be affinities or analogies, it should
rather have persuaded them to adopt the motto of
Montaigne, and exclaim, <i>Que sais-je?</i> Into these metaphysical
discussions it is not necessary to enter, and I
confine myself to the natural history of the insect.

Although the description of the three sexes which
comprise the population of the hive are technically given
above with scientific precision, it will be as well, perhaps,
to recapitulate them briefly, with their distinctive attributes,
in a more popular form.

They consist of a queen, or productive female, whose
function is thought to be exclusively to lay eggs, but who
may perhaps have some hitherto undiscovered control
over the executive of the hive, to be implied by the confusion
invariably following her death or her removal
from the community, and which becomes totally destructive
to its organic constituency unless stayed by another
monarch being improvised, or by one extraneously supplied;
one monarch alone rules without a coadjutor,
and without any equal being tolerated, for the presence
of a second queen, or the immature larva of one, even of
her own progeny, maddens her to murderous aggression,
.pn +1
.bn 337.png
or to the impulse of emigration accompanied with a
host of adherents. She never leaves the hive when
once her duties have fully commenced, for by distinction
of structure she is rendered incompetent to execute
any of the labours that devolve upon the workers;
her tongue is formed only to lap nutriment; she has no
cysts for the secretion of wax, she is without the honey-bag
for conveying that liquid home, and her posterior
shanks are convex externally, and thus deficient in the
concave basket for carrying home the stores of pollen
or propolis, whilst their plantæ are without the little
earlet at the top externally, or the close dense brush
arranged in rows within, which aid these workers in their
many manipulations. Her wings are too short to convey
her ponderous body through the air, and her sting
becomes stronger by being curved. Thus she is exonerated
from labour by the incapacity of her structure to
execute it, although her duties are quite as incessant and
as arduous, being indispensable to the perpetuation of
the species.

Her consort, the <sc>DRONE</sc>, is the male of the hive, and
although the queen is monandrous or single-spoused,
and although the hive during the season rarely throws
off more than three swarms, usually restricted to the
accompaniment of a single queen, and thus but three
males are absolutely required, nature is so provident of
the great design of perpetuation, that to provide against
the possibility of its frustration, the hive usually produces
about a thousand drones. A peculiarity in the
structure of the drone which facilitates his discovery of
the virgin queen when she issues from the hive on the
bridal excursion, which she makes preliminary to her
heading a swarm of emigrants, or assuming monarchy
.pn +1
.bn 338.png
at home, consists in the vertical enlargement of his
compound eyes, which meet over the brow, and in the
posterior expansion of the inferior wings, which take a
broad backward sweep, giving the insect larger powers
of flight, but perhaps required as much by its own bulkiness
and weight as for the purpose of ascending above
his bride in the upper regions of the air; but that its
weight cannot be the sole reason is testified by the
analogous structure in the male of the genus <i>Astata</i>,
one of the fossorial <i>Hymenoptera</i>, where a similar expansion
of the inferior wing is concomitant with a similar
development of the compound eyes, yet in which the
abdomen is very small, and this power is therefore evidently
given to these merely to increase the velocity or
the duration of their flight. The rest of the structure of
these drones disables them, like all other male bees,
for any labour; and as they must be sustained as long
as they may be of service, the possibility of which terminates
with the last issue of a swarm from the hive, a
period appreciated by the instinct of the workers, they
are then driven forth, but it is in dispute whether the
workers destroy them, or whether their destruction is
effected by exposure and hunger, or by the natural limitation
of their lives, for although their tongues are formed
upon the same type as that of the worker, it is considerably
less developed, and appears to be adapted only
to obtain nutriment from the honey already collected in
the cells, as they seem even deficient in the instinct to
gather it for themselves from flowers, never being observed
to visit them.

The last inhabitant of the hive is the <sc>WORKER</sc>, or
abortive female, whose labour has several phases. A
difference of size amongst them has been supposed to
.pn +1
.bn 339.png
have been noticed by observers as varying with their
occupation and duties, but as they are all constructed
in the same manner, with precisely the same organs,
which are of the same form and in the same situation,
this must be a mere imaginative surmise. Their similarity
of structure permits them, collectively, to apply
themselves to the same occupations which the needs of
the community may at any moment demand. Taking
them separately with their distinctive occupations at any
given time, without implying by it a permanent separation
of classes, we find them to consist of wax secreters,
builders or cell-sculpturers, honey collectors, pollen collectors,
propolis collectors, nurses of the young, ventilators,
undertakers to carry off the dead, who are perhaps
also the scavengers which cleanse away any occasional
dirt, sentinels to guard the hive outside and inside, and
attendants upon the queen, or as the “‘Times’ Bee
Master” very aptly designates them “ladies in waiting,”
and at all times many slumberers are reposing from
their toils. That all these duties are transferable, and
consequently are transferred indifferently from one to
the other, is implied by their general capacity for fulfilling
them resulting from this identity of structure,
which will be understood as not at all infringed by the
separate capacities I unfold as devolving from their
temporarily limited functions, all being simultaneously
in action, but distributed amongst the several individuals.

The first important occupation of the worker is the
secretion of wax for the structure of the cells, and, to
effect this, honey must be collected, for it is solely from
the digestion of honey that the wax is produced. This
in due course passes from the first stomach or honey-pouch
.pn +1
.bn 340.png
wherein it is collected, thence to the second
stomach, and then on to the cysts or little bags which
run along on each side from the second to the fifth
ventral segments, and correspond and communicate with
eight trapezoidal depressions placed externally upon the
plates of the ventral segments—four on each side,
through the concavity of which the secreted wax exudes
in a liquid, transparent, hot state, forming a thin scale
within each, which the air hardens into a white substance,
as the pulp of paper is hardened upon the form
into which it is introduced, or like salt crystallizing into
flakes from sea-water in shallow salines. This, however,
is not yet wax, although its essential constituent,
but to become so these scales are removed by the scopulæ
of the posterior plantæ and their auricle, to the
intermediate feet and by these transferred to the anterior
pair, which pass them to the mandibles, where they
are masticated and mixed with a saliva issuing from the
mouth, and thus intermingled they consolidate into a
white opaque mass, which issues from the mouth like a
thin strip of riband, and constitutes true wax, plastic to
their manipulation. To form this secretion, the bees
having collected the honey themselves in the first instance,
or having consumed sufficient before leaving the
hive with the swarm, but which they subsequently obtain
from the supplies stored in the present hive, hang
themselves in festoons in all directions about its cavity,
each festoon being formed by two parallel chains of bees
clinging together; the top bee on each side hangs by its
anterior claws to the top of the hive, and the next in
succession grasps with its fore claws the hind claws of
that and so on, until the depth of the festoon they find
to be sufficient, when the bottom bees of each chain swing
.pn +1
.bn 341.png
themselves together, and cling to each other in the same
manner by their hind claws only. These festoons are
speedily suspended, and with a fresh swarm are in immediate
active operation. The secretion requires about
twenty-four hours to complete, and as this is accomplished
the festoons break up, and these secreters convey
it to where the sculpturer bees or builders are moulding
the cells, to whom it is successively supplied by the
secreters themselves as wanted, for none is stored, although
the wax of old or dilapidated parts of the hive, or
of the vacated cells of the new-born queens are reconverted
to use. These builders are very rapid in their
construction of the hexagonal cells, which, as they are
progressively completed, are stored with honey, this
being during the time assiduously gathered by the honey
collectors, and these cells are interspersed occasionally
with those wherein pollen or propolis is stored, each of
which, as the bees collecting them successively return,
is cast into the selected cell by the bee collecting it, who
returns at once to the same employment, whilst the
store thus deposited is immediately compactly pressed in
and warehoused by other bees who fulfil that duty, or
who cover it in when the cells are filled, with a waxen
covercle formed of concentric circles; or, in the case of
the honey-cells, to keep the thickened operculum deposited
upon it in due position and repair, after the retiring
of the bee which brought home the fresh store of
honey, and which had displaced it to regurgitate her
addition into the cell. This operculum or cover is of a
thicker consistency than the honey itself, and prevents
its oozing from the cells, which would often take place
from their uniformly horizontal position, were it not for
the sagacity which prompts them to introduce this preventive,
.pn +1
.bn 342.png
and which is not removed until the cell is filled;
it is then covered hermetically with its waxen top.

A sufficient number of cells being ready, and sufficient
stores of honey, pollen, and propolis for the progressive
labours of the hive, and a great number of empty cells
all finished for the use of the queen, she begins to lay
her eggs. As these are hatched the duty of the nursing-bees
commences, which is to feed the young, who crave
for food like young birds, and are as diligently supplied
by these nurses with a material called bee-bread, which
consists of masticated pollen, the pollen being exclusively
stored and used for the purpose. This is mixed with
some secretion from the mouth, which converts it into a
sort of frothy jelly. These bees are never negligent of
their duties, and with their feeding the larvæ rapidly grow.

To keep up a necessary supply of air in the hive, and
to prevent suffocation from heat, a certain number of
the community are employed in fanning the passages
between the cakes of comb and the whole interior of
the hive, by the vibration of their wings, which thoroughly
ventilates it, and the accumulation of deleterious air is
prevented; some, for this purpose, being posted at the
aperture to the hive, where, this vibration causing a temporary
vacuum, the external air rushes in, and the chain
of succession of bees within becoming thus vibrating air-valves
completes the ventilating arrangement. While
all these operations are progressing, a certain number
are acting as a militia of citizens, who have substitutes
only in the succession and change of duties. These act
as sentinels, who guard the entrance and patrol the interior
and courageously intercept all inimical intrusion,
for the bees have many enemies, but who are merely so
to benefit themselves, and are not parasites of the nature
.pn +1
.bn 343.png
of the bee-parasites of the solitary kinds; and where they
cannot individually avert it, they obtain collateral aid
from others of their staff. The next class is the attendants
upon the queen: these vary in number from twelve
to twenty; they invariably accompany her wherever she
proceeds throughout the hive, for the purpose of laying
her eggs; and whether their custom gave rise to the
etiquette which attends human royalty, that a subject
may never turn the back upon the sovereign, these attendant
bees surround her with the head always turned
towards her, and seem to caress her with their antennæ
and pay her every kind of deferential homage, those in
front moving backwards as she advances, and those on
each side, laterally, so that they ever face her; and as
they tire others succeed them in their duties. Another
set fulfil the office of keeping the hive thoroughly clean,
for the transit of such large numbers will inevitably
collect occasional dirt, as will the drift of the wind at the
entrance of the hive and the action of the ventilators
themselves. Their duty it is also to remove any extraneous
organic body that has forcibly entered and which
may have succumbed to the vindictiveness of the bees.
Where they are not strong enough, even collectively, to
effect the removal, as in the case of a mouse or anything
else as large or larger, they then call to their aid the
wax workers and the repairers; these enclose the obnoxious
body, which they have the judgment to know
will become dangerous from putrefaction, to aid in its
prevention, by a cerement of wax or propolis, which prevents
any offensive exhalation, and thus secures the
wholesomeness of the hive.

Here is completed, with the enumeration of those
which successively repose from their toil, the several
labours of the community which inhabits the hive.
.pn +1
.bn 344.png

The structure of the workers, which enables them
to carry on all these operations with the requisite facility,
is very different from that of the two sexes we
have just described. As before said, they are abortive
females, but, as I shall have occasion to explain lower
down, capable of having this special incapacity removed,
if the necessary process requisite to be adopted for the
purpose be applied within three days of their being
hatched into the larva state. The acquisition of the
faculty of fertility entails, however, the loss of all
power of pursuing any of the other occupations of the
hive practised exclusively by the workers in general.
The nurture that gives it them converts them into
queens, and moulds them to the structure of this sex described
above. As a remarkable and rare exception,
some one or other of these workers will occasionally have
power of laying a few eggs, but which are always those
of drones. The other peculiarities of their structure are
its adaptation to the secretion of wax above described;
and their power of throwing up the honey they have
collected in the first stomach or honey-bag, before it
passes on by digestion, somewhat in the way the ruminant
quadrupeds bring up the cud, of course by muscular
action, without the convulsion of vomiting. Their next
distinction is that their mandibles are edentate and more
like spoons, and are often so used, or as the plastering-trowel
of masons is for smoothing surfaces. Their legs
remarkably differ from those of the other sexes, all of their
limbs being somewhat adapted to the collection and conveyance
of pollen and its manipulation, as well as that of
propolis; but it is the posterior shanks which are specially
constructed for the conveyance of these materials,
by being framed externally like a little basket; being
.pn +1
.bn 345.png
hollowed longitudinally and their lateral edges fringed
with recurved hair, which retains whatever may be placed
within the smooth and hollow surface, and the apical extreme
edge has a pecten or comb of short stiff bristles.
The first joint of the posterior feet have also their distinctive
form, adapted to special branches of their economy.
These are oblong, wider than the shank, and
about two-thirds its length, and consequently powerful
limbs; at the outer angle of the edge, nearest the shank,
is a little projection called the auricle or earlet, the inner
surface is clothed with ten parallel transverse rows of
close dense hair, and its apical edge has along its whole
width a pecten similar to that of the apex of the shank.
This shank being without spurs, which only the domestic
bee is deficient in, gives the pecten a freedom of action
it would not otherwise have, and enables it to be used
together with the earlet opposite to it on the foot, as an
instrument for laying hold of the thin flakes of wax
upon the venter, and to bring them forward to the intermediate
legs to be passed on to the mouth, and there to
be converted into wax. The pecten of the foot and also
its brush aid in their removal in case of need, and help
as well both in the manipulation and the storing the
materials collected. Thus, this whole structure, exclusively
possessed by the worker, is pre-eminently designed
for the manifold operations of the hive; and the bee
itself and its works are but one closely linked chain of
wonderful contrivances.

The entire economy of the hive seems to emanate exclusively
from the two most prominent attributes of instinct,
that of self-preservation, and that other more important
axis of the vast wheel of creation, the secured
perpetuation of the kind by the conservative <i>στοργὴ</i>, or
.pn +1
.bn 346.png
absorbing love of the offspring. The latter is more eminently
developed in the social bees than in any other
group of the family of these insects. In the solitary
bees it presents itself as a blind impulse, unconscious of
its object; for did we admit the consciousness of the
purpose of their labours, we should evidently endow
them with reason. How could they know, without reflection,
that the food they store in the receptacle they
form for the egg they will deposit, and which receptacle
is exactly adapted to the size that the larva which will
be hatched from it will take, is to nurture a creature
they will never see, and whose wonderful transformations
they will not therefore witness? In the hive bee the maternal
instinct exhibits itself as an energy diffused through
a multitude of individuals, but these witness the results
of their solicitude, and exclusively promote its successful
issue; and in these also the instinct of self-preservation
is a diffused impulse, which likewise includes the preservation
of the society.

As male and female conjunctively make up the species,
thus do the queen-bee and the neuters collectively make
up one sex,—the mother,—for the functions performed
by the female alone in the case of the solitary kinds of
bees are, in the genus <i>Apis</i>, separately executed. The
cares and labours of maternity devolve upon these neuters,
while the queen-bee’s maternal function is limited to
merely laying the eggs with which she is replete, with
the instinctive power of selecting for them their proper
depository,—each of which is adapted in size to that of
the sex which will be produced. Her maternal instinct
stops abruptly here, without the development of an afterthought
or care for their future thriving. The instinct
of the neuters, like the anticipative promptings of the
.pn +1
.bn 347.png
human mother, to prepare the clothing and other necessaries
for her expected infant, has forecast the queen’s
needs in its intermittent urgency, by progressively constructing
cells fitted severally in size for the growth and
nurture of neuters, the first developed; of drones, the
next produced; and lastly, of queens, which soon afterwards
appear; she instinctively knowing the proper time
and the suitable use of them, having the faculty of distinguishing
them with a view to the deposit of the particular
kind of eggs of which she is for the moment
parturient.

The drones, or male bees, appear to receive life for
one substantial purpose only, which is soon accomplished,
but during the short space of time its successive performance
requires, it is incidentally accompanied with assistance
to the general community whilst they remain permitted
occupants of the hive, by aiding in heating and
ventilating it,—a labour repaid by the food, which they
obtain from the stores kept open for daily consumption.
Although uncontributive to the acquisition of the riches
of the hive, yet are they indispensable to the perpetuation
of the species, and their murder as supposed
by some apiarians, or their expulsion as thought by
others, in either case equally terminating in their destruction,
seems an unworthy return for the important
service performed, although this is restricted to the
number of individuals required by the equal number of
queens that may be produced. To this number their
production might be limited, but for the chance of either
or all of these queens failing by some casualty to obtain
a prince consort. To baffle the possibility of this
mischance, a very superfluous number of these drones is
hatched, as above stated, which are on the alert, when
.pn +1
.bn 348.png
each queen successively issues forth upon her bridal
morn, to catch her favouring glances, and be the accepted
groom. That they are not further conducive to
the well-being of the hive is the fault of their structure
and of their instinct, which are correlative, they being
as little fitted either in their tongue or their legs for the
uses of the hive as the queen herself. The physiology
of their intercourse is a mystery of mysteries, and would
seem to partake of the principle, modified, of that developed
in the aphides, where the vital power passes on
through successive generations by the efficiency of the
energy of one ancestral intercourse. In the hive bee
this is not the case, but in these the one espousal fertilizes
eggs to the number of often a hundred thousand,
yet undeveloped and even indiscernible by the aid of
the microscope in the ovaries of the queen, and which
become bees progressively in the course of a couple of
years, the supposed duration of her existence, during
the whole of which time she is laying. The accepted
male is destroyed by the effects of the amour, and when
all the queens which are to be the heads of independent
communities are successively fertilized, and have led
forth their colonies, the remaining drones issue compulsively
from the hive and are lost in the wideness of nature,
and die by the natural limitation of their existence,
or become the prey of their numerous enemies.

The neuters or workers are, as it were, emanations of
the queen, or the organs whereby her several functions
as a mother are performed, considering the species as
restricted to two sexes, and thus they comprise with her,
collectively, one organic whole. That this is a consistent
view of their condition is further proved by the circumstance
that from their larvæ, upon the failure of a queen,
.pn +1
.bn 349.png
a new queen is produced upon one being supplied with
a certain nutriment that developes the capacity that
would remain inert and abortive, were it not thus promoted
from its primary state. It may be questioned
whether the eggs deposited by the queen in the royal
cells are other than neuter eggs, their subsequent nature
being changed by the different quality of the sustenance
they are fed with when hatched, as is the case in the
above noticed defection of a queen. This then would
limit the queen’s eggs to the eggs of neuters and of
drones, thus further corroborating the idea of the existence
of but two sexes.

I have stated above the supposition that the queen’s
office may be restricted to the laying of eggs, but it must
be inferred that it has a wider compass, and possibly comprises
some administrative function in the regulation of
the hive, from the circumstance that with her loss the
entire community loses its self-possession and self-control.
Labour then ceases and the hive becomes the scene
of turmoil and confusion, and unless the loss be repaired
in the way named above, which their instinct teaches
them to adopt, if any eggs have been already deposited, or
if supplied by the surreptitious introduction of another
queen which they immediately raise to their superintendency,
paying her the same deference they had done to
their lost monarch, or would do to a legitimately native
birth, it disperses and destroys the community. Such a
loss in its natural course must necessarily, to be effectively
repaired, take place in the interval after the laying
of the drones’ eggs, and before those of the queens are
deposited, for otherwise she would remain unimpregnated.
Having thus shown reasons for supposing that
the hive actually contains but two sexes, and having also
.pn +1
.bn 350.png
shown that the first phase exhibited of this distributed
maternal instinct by which the neuters form conjunctively
with the queen a many-headed and many-hearted
mother, is their preparation of the cells for all the purposes
required,—the next and most important, and the one
perhaps which elevates them vastly higher in the scale of
social intelligence and affection, is the absolute development
in them only of maternal solicitude for the well-being
of the offspring. This certainly proves the existence of
the diffused maternity urged, for they feed the hatched
young as the bird does its callow, from hour to hour,
and which, when full grown, they enclose in its formative
cell, to undergo its changes and become one amongst
themselves. It is not absolutely determined whether
the functions performed within the hive are restricted to
distinct sets of the workers, but it may be presumed that
the duties are transferable, for the most plausible supposition
is, that all the offices are interchangeably performed
by the entire population, possibly merely limited
to daily alternation of individuals taled off each morning
for the day’s duties. That an administrative regulation
must exist under some executive authority, emanating
doubtless from the centralization of all in the queen,
and communicated to the rest by her relays of attendants,
may be conclusively inferred, otherwise all might
similarly employ themselves from day to day, and thus
overwhelm with one work the multiplicity of labours
required for the well-being of the hive. For whilst
some are secreting the wax from the honey they have
consumed, others are moulding it into shape, others are
harvesting the bee-bread to feed the voracious larvæ,
others are gleaning the propolis for the security of the
.pn +1
.bn 351.png
domicile, others are collecting honey to store as needful
supplies, others are either ventilating or heating the interior,
others act as sentinels and guard the approaches
or patrol the passages within, and will die in that defence
like genuine patriots, and others are in attendance upon
the queen in her progresses through her dominions, and
who may individually act as <i>aides-de-camp</i> to convey her
commands to the rest. All these are not fanciful embellishments
of the narrative, but substantial and well-authenticated
facts, supported by the repetition on many
sides of careful observations, but perplexing to human
intelligence, for not the least wonder of this conventicle
of wonders—the hive—is that it confounds the astute
reason of man to comprehend it in all its significancies.

The first necessity of a new colony is the selection of
a locality for habitation, which is usually effected by preliminary
trustworthy intelligencers determining upon a
site suitable from its concurrent conveniences. A sufficient
supply of sustenance must be conveyed by the
emigrants to accompany the preparatory construction of
the settlement, until land can be cleared, grain grown,
etc., and a year at least will pass, even under the most
favourable circumstances of the exertion of the greatest
industry, concurrently with the most propitious succession
of the seasons, before it can become self-sustaining.
But when once the wheel is fairly on the move, round it
spins without interruption or relaxation. The colony
thrives, increasing rapidly in its population; and where
all have put the shoulder to the wheel it climbs the steep
and rugged hill of prosperity, whilst those who are carried
onward by its evolutions, from each of the many
successive terraces of this noble height, survey a broad,
cheerful, and fertile landscape, extending itself with their
.pn +1
.bn 352.png
elevation, spread out to a distant horizon, which many
of the more venturous spirits amongst them, urged by
the teeming increase of their compatriots, have already
traversed, and who themselves are now rejoicing in the
establishment of offshoots, which speedily rival, in successful
fruitfulness, the wide-branched productiveness of
the parent stock.

This is strictly the history of the hive, and the parallelism
is complete, even to the conveyance with them of
the preliminary needful stores. Before a swarm issues
from the hive, some fly forth to select a dwelling-place,
and return, it is presumed, to make their report.

The population of the hive becoming so dense that
there is no longer room for the free and unrestrained
circulation of the ordinary processes of the community,
and so hot from the inconvenient accumulation of such
numbers,—for they extend sometimes to as many as
fifty thousand,—instinct prompts a portion of the community
to migrate. This disposition is further promoted
by the progressive, or completed development of some of
the young queens. The inveterate and internecine animosity
of these—anticipated rivalry, suggesting, it is
surmised, the murderous desire, but being prevented from
its indulgence by the defensive guardianship of several
of the workers—urges the old queen to abandon at this
conjuncture her royal metropolis. The inclination to do
so, it would appear, is already foreseen by a very large
body of her subjects, for if her departure be delayed by
her successor’s protracted incapacity for undertaking
the sovereign rule, the intending emigrants, having already
abandoned all the labours of their old domicile
preparatory to their issuing forth, will cluster in
groups about the bee board until she is ready to emerge.
.pn +1
.bn 353.png
This condition will sometimes last a day or two, and
thence of course all is confusion both within and without
the hive, for her subjects have suspended their labours
and she has suspended her egg-laying, and roams
wildly about within, striving, whenever she approaches
a royal cell, or a fully developed young queen, to attack
the latter, and destroy her by stinging her to death, or,
to tear the former to pieces to get at the imago within,
which indicates its apprehension by a shrill piping
sound. But she is forcibly dragged back from this apicidal
purpose by the working bees which surround each,
and who now intermit their usual deference to prevent
this destruction, and bite her and drag her back. The
future queen of the abdicated throne having, during
this turmoil, returned from her wedding tour, and being
still protected from slaughterous aggression, the old
queen indignantly issues forth. This exodus takes
place usually on a brilliant and warm day, between
twelve and three,—accordingly during the hottest hours.
This is the first swarm of the year, and if the season
be very genial it will take place in May. In this
migration she is accompanied by all her most faithful
lieges, which comprise, to the honour of beehood, by
very much the largest majority of the inhabitants, to
the number usually, in a well-stocked hive, of several
thousands,—say from ten to twenty, depending on the
population of the hive.

Having thus issued forth in a body, they shortly alight
upon and about the branch of some adjacent tree, clustering,
in as close proximity as they can, to their royal
leader. In a natural state, when duly organized to proceed,
they would thence start for the domicile that had
previously been selected by the emissaries above noted;
.pn +1
.bn 354.png
but, as their natural habits are not at all perverted by
their subjugation to man, we will pursue their history
under his dominion. This will be the more convenient,
for in the comfortable hive to which they have been
transferred by his agency, we shall have every opportunity
of exactly watching their manœuvres by the facilities
yielded in its being glazed for the purpose. We
shall thus be enabled to see and follow the wonderful
economy of the hive and its many mysteries, which it
would not have been possible to accomplish in an abode
of their own choice,—some cavity presented by Nature
herself, the hollow of a tree, or an excavated rock.
They are, therefore, now housed, and after the survey of
the capacity of their abode, which is a short affair,
with all the prompt energy peculiar to them they at
once commence their labours. The queen is already
matured, and ready to lay eggs. In a natural abode
the gathering of propolis would perhaps be a first necessity
to make their home water-and-wind-tight, for
they abhor the inconveniences of the intrusion of wet
or cold. It is with this material that they make repairs,
fill crevices, and strengthen the suspension of their
combs, which are hung vertically; and they apply it also
to other purposes, which we shall see hereafter. This
material is of a resinous nature, it has a balsamic odour,
and is of a reddish-brown or darker colour, and is supposed
to be collected from fir or pine trees, or from the
envelopes of the buds of many plants, or their resinous
exudations, especially that of the blossoms of the hollyhock.
It is exceedingly clammy, and they have been
observed ten minutes moulding it into the lenticular
pellets in which they carry it home in the corbicula, or
little basket, of the posterior tibiæ. They gather it like
.pn +1
.bn 355.png
pollen with the fore feet, and pass it to the intermediate
ones, whence it is taken by the posterior plantæ,
kneaded into shape, and deposited upon the hind
shanks. It dries so rapidly that often, upon arriving
home, the bees which store it have much difficulty in
tearing it from the legs of these collectors. The hottest
days only are propitious to its gathering, for all moisture
is injurious to it, and the hottest period of the day, also,
is alone occupied in its collection. It is said that they
have been known to fly as many as from three to five
miles for it, from the circumstance that suitable plants
were not to be found within a lesser radius; but this
may be a mistake, for their ordinary excursions are not
supposed to range wider than a single mile or something
more, and bees may be able to find it where we may
suppose it not to occur. In the abode with which we
have provided them it is not so urgent a necessity, this
being already wind-and-water-tight, although in the
progress of their labours they find it indispensable, and
use it to fasten the crevices that intervene between the
bottom of the hive and the bee board, and, as before
noticed, to strengthen the support of the cakes of comb
which hang from the roof. The name it still retains is
that which was applied to it by the ancients, and signifies
<i>before the city</i>, as indicative of its use in strengthening
the outworks.

Conjoined herewith is the imperative need for the
construction of cells for every purpose of the hive,
namely, for the storing of the propolis, and that of the
pollen, as also the collected honey, as well as for the
reception of the young brood, for the mature queen is
waiting impatiently to deposit her eggs. Simultaneously,
therefore, is the wax being secreted and elaborated by
.pn +1
.bn 356.png
the processes previously noticed. The community is
already late, and all are at once in active operation, but
four-and-twenty hours must elapse before the cells can
he commenced, for it takes that time to secrete the first
batch of wax. Festoons, as before described, of these
wax secreters are hanging in every direction within the
cavity of the hive, and as soon as the process is completed
by the first festoon, this dissolves itself by the several
bees unlinking their feet, and a leading bee proceeds
to the top of the centre of the hive, where she makes
herself room from the lateral pressure of other bees, by
turning herself sharply about and agitating her wings,
and there she collects the scales from the surface of her
ventral segments, manipulates them as before noticed,
and thus converts them into wax. The rest follow her,
and she collects it from them into a little oblong mass of
about half an inch; whilst other bees from other festoons
are continually arriving to deposit their produce; and as
soon as the mass is sufficiently large, which is speedily the
case, a sculpturer bee succeeds, and the first cell is laterally
commenced. On the opposite side to where this
is being framed, two other bees are at work, moulding
the bottoms of two cells in apposition to the basis of the
first one. The wax keeps constantly increasing by fresh
deposits, and the rudiments of more cells are as rapidly
formed. These all emanate laterally, in a horizontal
direction or with a very slight incline towards their base.
They gradually form the vertical cake of comb, for the
bottom of one entire range of cells suffices for both
sides and inevitably they are so adjusted that the bottoms
of those on either side are each covered by one-third
of the bottoms of each cell on the opposite side,
and so conversely, receiving and communicating strength
.pn +1
.bn 357.png
by three thus supporting one. Here comes the great
wonder of the hive; here in this fragile structure abides
a mystery that has perplexed man’s keenest sagacity.
Is it accident or is it intelligence that instructs the bee,
or is it the impulse of the instinct implanted by that
Supreme Intelligence which gives man his reason and
moulds all things to their most fitting use?

Ray’s view is precisely this; he says:—“The bee, a
creature of the lowest forms of animals, so that no man
can suspect it to have any considerable measure of
understanding, or to have knowledge of, much less to aim
at, any end, yet makes her combs and cells with that
geometrical accuracy, that she must needs be acted by
an instinct implanted in her by the wise Author of Nature.”
To support this idea of the geometrical skill of
the bee, he cites “the famous mathematician Pappus,”
the Alexandrian, of the time of Theodosius the Great,
who “demonstrates it in the preface to his third book
of <i>Mathematical Collections</i>.” “First of all (saith he,
speaking of the cells), it is convenient that they be of
such figures as may cohere one to another, and have
common sides, else there would be empty spaces left
between them to no use but to the weakening and spoiling
of the work, if anything should get in there, and
therefore though a round figure be most capacious for
the honey, and most convenient for the bee to creep into,
yet did she not make choice of that, because then there
must have been triangular spaces left void. Now, there
are only three rectilineous and ordinate figures, which
can serve to this purpose, and inordinate, or unlike ones,
must have been, not only less elegant and beautiful, but
unequal. [Ordinate figures are such as have all their
sides and all their angles equal.] The three ordinate
.pn +1
.bn 358.png
figures are triangles, squares, and hexagons; for the
space about any point may be filled up either by six
equilateral triangles, or four squares, or three hexagons;
whereas three pentagons are too little, and three heptagons
too much. Of these three, the bee makes use
of the hexagon, both because it is more capacious than
either of the others provided they be of equal compass,
and so equal matter spent in the construction of each.
And, secondly, because it is most commodious for the
bee to creep into. And, lastly, because in the other
figures more angles and sides must have met together at
the same point, and so the work could not have been so
firm and strong. Moreover, the combs being double,
the cells on each side the partition are so ordered that
the angles on one side insist upon the centres of the
bottoms of the cells on the other side, and not angle
upon or against angle; which also must needs contribute
to the strength and firmness of the work.”

Each cell therefore is in shape a hexagon, that is to
say, a figure with six equal sides, to each of which six
other hexagons attach, for each wall forms also one wall
of another hexagon. The basis of each hexagonal cavity
is of an obtuse three-sided pyramidal shape inverted, and
consisting of three rhomboidal plates, each forming one-third
of the basis of the three opposite cells; thus the
edges of these three basal plates of one side support
three lateral walls of three hexagons on the other side.
The inverted triangular pyramid thus made by these
three equal rhomboidal plates, form, at one extremity and
at each pair of their posterior edges a re-entering angle,
and at the other extremity a salient angle. From these
edges spring the lateral walls of the hexagonal cell, this
shape being superinduced by the form of the edges of
.pn +1
.bn 359.png
the basal cavity. That the bees should have been thus
guided to elect a form which combines conjunctively the
advantages of strength and capacity evidently proves that
it is their instinct which guides them, which, being an
afflation from the highest source, ensures the most complete
perfection in its result. That it cannot be the
effect of simultaneous lateral pressure is proved incontestably
by the whole superstructure resulting from the
design of the base; and this is further corroborated by
the base of one cell on one side forming invariably equal
portions of the base of three cells on the opposite side,—all
clearly the result of preconceived design impressed
upon their sensorium. From this combination of forms
results the security procured to the fragile tenement,
which consists of the very smallest quantity of material
that will cohere substantially, for the bees are exceedingly
parsimonious of their wax, as if the production of
it were attended with pain or inconvenience, and it is
only upon the construction of the royal cells that a profusion
of this choice material is squandered. As soon
as these cohorts of bees are in active operation, it is
astonishing with what pertinacity and rapidity they
labour, for within the space of four-and-twenty hours
they will construct a cake a foot deep and six inches
wide, containing within its double area some four
thousand cells. Other cakes parallel to each side of the
original are being at the same time carried forward with
an interval between each sufficient for two bees to pass
each other <i>dos à dos</i>, and further to promote the convenience
of traffic within the hive, and ready communication
to its several parts, passages are left through these
cakes from one to the other, so that the means of transit
are opened, which of course saves much time. The queen
.pn +1
.bn 360.png
is already making her progresses from one side of each
comb to the other, and depositing her eggs as rapidly as
she can, and is constantly attended by her <i>aides-de-camp</i>,
as I have suggested, which act, as they evidently sometimes
are, as the emissaries of her commands. They
consist of ten or twelve or sometimes more, and have
been previously described. They are replaced by others
as they quit to obey orders, or as they retire fatigued,
so that she is always surrounded. The number of eggs
she will lay in a day is about two hundred. In doing
this she first thrusts her head into a cell to ascertain its
fitness, which having done, she withdraws it, and then
curving her body she thrusts the apex of her abdomen,
which tapers to the extremity for the purpose, into the
cell, wherein by means of the sheaths of her curved sting,
which act as an ovipositor, she places the egg at the
bottom of the cell. It is possibly from some taction of
this instrument that she discerns the sizes of the eggs,
and thence their respective sex. This process she continues
repeating, passing from one side of the comb to
the other by means of the passages perforated through
it, making the numbers as nearly as possible tally on each
side and as opposite to each other as may be, and she
will then go forward to further cakes of comb. In this
way she lays about ten or twelve thousand in six weeks,
depending much upon the propitiousness of the season,
but the rapidity of this laying intermits according to the
months; the above estimate is based upon what April
and May produce, as it slackens during the summer
heats and again revives in the autumn, but totally terminates
with the first cold weather. She thus will lay
from thirty to forty thousand or more in a year.

Apiarians do not state whether the same queen heads
.pn +1
.bn 361.png
another swarm on the following year, which perhaps she
does in those cases of excessive fertility where her abundance
is estimated at one hundred thousand, when by
her sole individual capacity she populates three hives.
In the more usual and ordinary case of her teeming with
about seventy thousand, or fewer, she evidently heads
but one swarm. With the described rapidity of the production
of the cells, although the majority are store cells
and not brood cells, conjunctively with her prolific laying,
the population of the hive rapidly increases, which,
added to the large original colony, will enable it in a
propitious year to throw off a swarm of its own; but
ordinarily she does not again lay drone eggs and royal
eggs until the following season. The period at which to
do this is taught her by the condition of the hive, as
urgent for relief to its oppressive population by an exodus.
The drone eggs are then laid, and are speedily succeeded
by the laying of the royal eggs, so that the males of the
season and the new queens may be hatched almost simultaneously,
the drones slightly preceding the development
of the queens. As soon as the egg of a worker
is hatched, which, by means of the high temperature, is
effected in four days after the laying, it, from its birth,
is sedulously attended by the bees called nurse-bees.
The little vermicle is very voracious and is heedfully
supplied by these careful attendants, when it has consumed
the quantity of bee bread already deposited in
the cell by some of these nurses as soon as the egg was
laid. This bee bread consists of pollen, taken from the
cells by the nurses, where it is garnered for the purpose,
being therein mixed with a slight quantity of
honey. This, in masticating, the nurses intermingle
with some secretion of their own, which gives it a sort
.pn +1
.bn 362.png
of gelatinous frothy appearance, and upon this the young
thrives so rapidly, greedily opening its jaws to receive
it, that in four more days it is full grown, and fills the
whole cell. The nursing-bees then cover this in with a
light brown top, convex externally, and within it the
larva spins for itself a cocoon to undergo its subsequent
transformations. This cocoon is spun of a fine silk, which
issues from the organ of the larva called the spinner, in
two delicate threads, which, as they pass out, cohere together.
It works at this labour for thirty-six hours, and
then changes into the pupa or grub; thus it lies quiescent
for three days, when it gradually undergoes its transformation
into the imago, and it issues as a perfect insect
about the twenty-first day after being deposited as an
egg. The cocoon it has formed exactly fills the cell it
has left, which still continues to serve as a brood cell
until the succession of cocoons with which it is thus
lined renders it too small for the purpose, it is then
cleaned out by the scavengers of the hive and changed
into a honey depository, but the honey stored in such
a cell is never so pure as that which comes from the
exclusively waxen cell. Thus is effected the transformation
of the working bee, which, upon the very day of
its emancipation from its nursery, commences its duties
as an active member of the community, in the successive
and several labours undertaken for the benefit of the
commonwealth, and these it assiduously follows for the
period of its natural life, which extends to about six or
eight months.

The hive is now in the liveliest activity. The swarm
which entered with the queen, and the large addition
to the population which has already been produced
from her incessant laying, are all at their several avocations.
.pn +1
.bn 363.png
The whole hive, its entrance and the immediate
vicinity, and far around is jocund with the bustle
and the buzz of the busy little creatures going and
coming; those returning are all laden, although some do
not appear so, but these are conveying riches home
within them, as they are returning from their excursions
with their honey-bag well filled. There is welcoming
recognition at the entrance to the hive, where,
on its broad platform, they all alight, and there many
are to be seen touching each other with their antennæ,
or refreshing themselves by the vibrations of
their wings, and in doing this they often raise themselves
on the hind legs, or they are resting for a few
seconds before they enter. Others are to be seen arriving
unrecognizable from a coloured envelope of pollen
which mantles them. The incessant hum that accompanies
these proceedings is like the mildest tones of
the surge of the distant sea, or the inarticulate
buzz of the voice of large crowds. In this seeming
confusion all obey the strictest order, for each attends
to his own business only; there is no collision or loss
of time or labour, each one fulfilling precisely its own
mission. At this period the hive is a perfect model of
order, neatness, and beauty. The combs we have seen
so rapidly growing are to be filled, and fresh cells are
being constantly constructed. The honey there stored
from the gradual gatherings of these active harvesters
is partly to be reserved for the winter’s needs, and is
carefully husbanded, for each of these cells is, when
filled, closed by a covercle of wax moulded as it is supplied
to the operator in concentric circles, commencing
at the edge, and each circle being completed before another
is begun, and not in a spiral twist towards the
.pn +1
.bn 364.png
centre. To prevent the trampling of the discharging
bees from injuring the delicate structure of the walls of
the cell, each edge is furnished with a strengthening
rim of wax. The bulk of these stores is never broken,
except in bad wet seasons, in times of great dearth, or
upon any suspension of torpidity during their hibernation.
For the ordinary and daily consumption of those
of the community whose labours confine them to the
hive, open stores are left. As of course it occupies
the excursions of several bees for some time to fill one
of these vases, and to prevent the liquid flowing out,
as it might do from its exceeding tenuity through the
influence of the summer heat, and the then increased
temperature of the hive, as well as from its inclined
horizontal position,—this is guarded against by the
precautional sagacity of the little creatures placing
upon it from the deposit of the very first supply a sort
of operculum, as before described, of a thicker consistency,
which lies upon the top of its progressive increase,
and thus prevents its oozing. It lies upon the honey
across the transverse diameter of the cell, and consequently
in a vertical position. Its purpose, like that of
the flat pieces of wood which are placed upon the water
of full pails when carried by the yoke, is to prevent its
spilling or overflowing. This small cover has to be partially
removed upon the arrival of a bee with fresh store,
which she herself does by tearing aside a portion of it
to enable her to regurgitate into the cavity the portion
she has brought home; upon freeing herself from this
she does not wait to restore the dilapidation she has
caused, but proceeds on a fresh harvesting. Another
bee, whose duty it is, then readapts this cover to its
purpose, and repairs it. Their excursions to collect are
.pn +1
.bn 365.png
variously estimated at from one to three miles, and they
make about ten a day. The bees, in their temporary
distribution of labour, are something like the Indians
which have caste, among whom each service has its special
servitor, who never undertakes or interferes with
the duties of another. The collection of pollen is almost
as needful to the well-being of a hive as honey, this
being used exclusively as the basis of the sustenance of
the new brood in their larva state, in all their conditions
of worker, drone, and queen, the perfect bee itself never
partaking of it. It is variously commingled upon its
application to use with secretions of their own, which
convert it into bee bread or royal jelly, as the case may
be, to fit it for its special employment, which is done by
the nurse-bees, who diligently attend to the nurture of
all the young. The cells for storing this material are
not so numerous as the honey-cells, and they are jotted
about without any distinct order, amongst them. When
a bee arrives with her store of pollen on the edge of one
of these cells, she turns round with her back to it and
thrusts it in as fast as she can free it from her legs, both
by their aid and the twisting about of her abdomen, and
then, like the honey-gatherer, commences another journey.
As soon as she is gone, another bee manipulates
it with a small stock of honey, and packs it closely in.
Whilst all this is doing, the set which watch the condition
of the hive, like surveyors, to apply repairs where
necessary, or to add strength and further support to the
suspended cakes of comb, impatiently await the return
of the collectors of propolis; this they tear from their
shanks as fast as they arrive and as quickly as they can,
for it rapidly hardens, especially in fine hot weather,
and they convey it away for their requirements, whilst
.pn +1
.bn 366.png
those which collected it fly off for fresh supplies, should
more be needed. Concurrently with the execution
of all these things, wax is still being secreted by festoons
of bees suspended wherever there is space, the
sculpturer bees are still moulding cells, the queen is still
laying eggs, deferentially attended, as usual, by her
maids of honour; the young brood is still being fed;
other bees are ventilating the hive at its entrance and
within its streets and lanes by the rapid vibration of
their wings; the sentinels are diligently keeping guard
to repel the inimical intrusion of wasps or snails or
woodlice, or the moth which is so destructive to the interior
in her larva state, from the covered moveable
silken retreat which she constructs impervious to the
sting, and thence with impunity gets at the silk of the
cocoons and consumes the wax, making, when once fairly
domiciled, such fearful havoc in the hive that the bees are
fain to desert it,—and the many other numerous enemies
which lust for the luscious honey, or whose voracity is
attracted by the poor little diligent bees themselves, but
who in such contingencies exhibit invincible courage,
which, if not always successful in its efforts, is always
meritorious. Where self-preservation is not the prompter,
or the rivalry of love the instigator, but the duration
of which is limited to a season, the feuds of the animal
world all seem to proceed from the urgency of their
gastronomic suggestions, the acrimony of which urges
craft and strength to their most powerful exhibition.
To allay hunger, destruction is perpetrated and order
despoiled, and thus our bees become the victims of the
imperativeness of this universal law. But sometimes
they are triumphant over a very large enemy; for instance,
an intrusive mouse, or a slug that has slimed its
.pn +1
.bn 367.png
way through the arched portal. They have been known
to kill these enemies within the hive as they could not
make them withdraw, but perplexity results from their
success; they are, however, gifted with the sagacity to
know that the putridity of these masses will poison with
its effluvia the atmosphere of their city which no ventilation
can purify, and they convert that part of their
metropolis into a mausoleum, covering the carcases
with a coating of propolis, alone or mixed with wax, as
before noticed. Those which execute this summary
martial law are the sentinels—the armed police of the
hive—which guard its entrance and avenues, and patrol
its streets and lanes and passages. Concurrently with
all these doings, scavengers are heedfully conveying away
any particles of dirt or other undesirable superfluity
which may have accidentally found its way in. That all
these labours produce fatigue and exact rest is proved
by the circumstance that many bees are always observed
in a state of repose,—perhaps only forty winks during
the day just to restore exhausted energy,—for they are
soon seen again to resume their toil, this inactivity
never being idleness. Whether they proceed with the
same kind of employment upon the renewal of their
work is not known, nor how long lasts a particular kind
of labour, but the change of occupation may be one of
frequent occurrence, and it may be presumed that each
bee severally and successively undertakes each task, that
the faculty for exercising it may not be extinguished.
It is very possibly a daily change, which circulates
through the entire civic population of workers.

Although the labours of the bees are divided, we do
not find that even the most successful observers, who
have had every opportunity, by the nature of the hives
.pn +1
.bn 368.png
they possessed, and the sagacity they applied to the detection
of the most minute particulars, have been enabled
to discover that these workers were permanently separated
into distinct classes,—indeed, although surmising
from this distribution of labour that such might be the
case, and thus made alert to the discovery of its positive
confirmation by direct observation, they have never
been able to do so; and they strongly deny it, maintaining
that these duties are individually transferable, and
that they are not restricted to certain classes, already
sufficiently implied by the organization of the workers.
Huber, it is true, states that the wax-sculpturers—those
which finish the cells to their nicety of perfection—are
smaller than any of the rest of the community, to facilitate
their operations within the cells, which may perhaps
be a foregone conclusion.

The idea of administrative vigilance in the distribution
of the labour of the community is strongly corroborated
by the fact that all the labours proceed <i>pari passu</i> and
in equable order, no excessive preponderance of any particular
work having been observed, which would certainly
sometimes be the case were there no limiting control
over their individual action, and thus the harmonious
concurrence of all to one effect seriously disturbed. The
supposition is also strengthened by the unfailing attendance
of the queen’s numerous and deferential retinue,
some one or other of whom, every now and then, quits
that service—perhaps as an envoy on business of government—and
is replaced by another. All these many circumstances
lead to the presumption that the queen is
the heart of the whole body, the organ which forces forward
the circulation through its diverse channels, giving
to all the temperate pulsation of vigorous health.
.pn +1
.bn 369.png

The hive is, of course, quite dark within, and to carry on
the numerous operations which we have noticed are done
there, either sight of a peculiar nature must lend its aid,
or some faculty residing in a sensation analogous to
touch, but which it may be cannot be known, nor where
it may lie, but if it exist its organ is most probably the
antennæ. We can, it is true, compute their eyes, which
comprise more than sixteen thousand, namely, about
eight thousand in each of the compound organs placed
laterally upon the head, each separate eye being an
hexagonal facet furnished with its separate lens and
capillary branch of the optic nerve, and also edged with
short hair; in this hair, therefore, may lie the particular
sensation which guides them, for we cannot be sure that
this large congeries of hexagonal facets facilitate sight in
the dark, as in number and position they do not exceed
or differ from the analogous structure and number of the
same organs in many other insects which we know to be
only seers by day, and which repose at night; but the
hairy addition to the eyes of these bees is a structure
not observed in them.

This constitution of the hive and its various operations
continues during the remainder of the season until
the approach of winter cautions them from venturing
abroad, when, if the temperature of the hive is much
lowered, they hibernate and remain in a torpid condition
until the sunshine of the following spring, and
with it the flowering of plants, rouses them again to resume
their suspended labours. The population of the
hive having continued to increase, although not so
vigorously as at first, up to the very intrusion of winter,
and the renewed year giving renewed energy to the
queen, the population thence rapidly further increasing,
.pn +1
.bn 370.png
it becomes inconveniently thronged, especially as spring
advances and hot weather sets in. These promptings
then urge her to lay drone eggs, for which preparations
have already been made by the workers, who have
already framed for their reception—they being much
larger insects—larger cells moulded precisely in the same
manner, and which are also used occasionally as receptacles
for honey, and always skirt the bottom of the
several combs. This task she has completed in about
five days, and it is carried on precisely in the same way
as is practised in the case of the neuters; and they are
nurtured by nursing-workers just like them. Of these
eggs she lays, as before said, about a thousand, and the
workers by some instinctive faculty have framed about
such a number of the needful cells. The transformations
of the drone occupy about twenty-four or twenty-five
days, of which three are passed in the maturing of
the egg which then hatches into the larva. This occupies
nearly seven days in attaining its full growth, and the
remaining portion of the time is spent in its spinning
its cocoon, in the same way as the larva of the worker
does, and it changes into the imago. To effect all these
changes in the transformations of all the sexes, a heat of
about seventy degrees is indispensable, but that of the
hive in summer is considerably higher. They as well as
the workers are assisted to emerge from the cocoon by
some of the older workers, who use their mandibles to
bite through the enclosure, and who also help to cleanse
them from their exuviæ.

Concurrently with the formation of the brood cells of
the drones, some of the workers are constructing cells to
receive the royal eggs. These cells are totally unlike
the other cells of the hive, and are of a sort of pear-shape
.pn +1
.bn 371.png
five times as large as the drone cells, and are
attached laterally to the edges of the comb in a vertical
position, with the narrowest part, which is the orifice,
hanging downwards. In the forming of these cells the
workers are very lavish of their wax, making the coats of
them thick and opaque, and they are irregularly rough
outside, but within very smoothly polished. Just as
the construction of these cells intervenes irregularly with
the formation of the cells of the drones, so does the
queen intermit at intervals the laying of the drone eggs
to deposit occasionally an egg in one of the royal cells,
which are not usually completed at the time she commences
laying them, but are finished afterwards, even
during the time the larva is growing. This provision
seems to be made for the earliest development of the
young queens after the drones come forth, with the possible
prevision that the sooner all of these young queens
are fertilized that are needful for the requirements of
the swarms that the hive may throw off, the sooner will
the hive be rid of the incumbrance and the consumption
of stores caused by the drones. The transformations of
the queens take place more rapidly than the others, for
in sixteen days they are completed, of which three are
occupied in hatching the egg, and for five they are feeding
as larvæ, and in that time attain their full growth; the
cell is then closed in with a waxen cover by the workers,
and the full-fed larva within is occupied in spinning its
cocoon, which it takes twenty-four hours to accomplish.
This cocoon is unlike that of the drones and workers,
both of which completely enclose the pupa, but the royal
larva only forms so much of a cocoon as will cover the
head and thorax, and by which imperfection she unconsciously
facilitates her destruction by her rivals in
.pn +1
.bn 372.png
case they are permitted to attempt it before she emerges,—this
being supposed to be the object of it, as the close
texture of the silk of the cocoon would intercept the
action of the rival queen’s sting. In this state she remains
in complete repose up to a part of the twelfth day,
and it takes about four days more to change into the
imago, which is ready to emerge on the sixteenth. In
her larva state she has been very carefully and profusely
supplied by her nurses with the royal jelly, made in the
manner before described. This royal jelly is very stimulating,
it is pungent, rather acescent, and is very different
from the food supplied to the drone- and worker-larvæ.
A great many of the drones being now perfect
insects, some young queen, that is ready to go forth, is
at length permitted to do so by her guardian protectors,
for the old queen is already aware of her existence, and
has more than once attempted her destruction, but from
which she has been prevented. At a suitable opportunity
this young queen issues, attended by a bevy of
drones; she immediately ascends in a spiral direction
high into the air, far out of sight, and is followed by her
suitors. Their larger capacity of flight speedily permits
them to overtake her, and they ascend above her; one
being favoured, the rest descend again, and either at
once return to the hive or frolic about in its vicinity. It is
not long before this young queen returns, matured into
an incipient mother. Now comes renewed hostility from
her own parent, who is still prevented from the murderous
assault, but who succeeds in ejecting her young rival.
During this contest the hive has become a scene of confusion,
and the preliminaries and accompaniments of fresh
swarming take place, and in going forth she is accompanied
by a large body of the present population, and thus
.pn +1
.bn 373.png
the first swarm of the fresh season is thrown off. Other
queens become gradually developed, and other swarms
similarly accompany them, but each swarm successively
diminishes in the number of its participating emigrants,
the last consisting perhaps of not more than two thousand.
The order of the hive is speedily restored after
each swarming convulsion has subsided, until the population
being sufficiently reduced, the motive to leave is destroyed,
and the queen is then permitted to execute her
murderous onslaught on the hapless young queens, which
are either still embryonic, or, if developed, have not been
allowed to leave their cells; but, where they have done
so, and are still within the hive, her attendants and the
old queen’s attendants open their ranks, and the furious
rivals attack each other. The contest is sharp but short,
the young queen is stung to death, the body is conveyed
away, and the old queen reigns paramount. Her next
effort is to destroy the royal brood in their cells; the
cells she tears to pieces, the young ones within, where
developed, may be heard uttering a plaintive cry, whilst
she sounds a triumphant note as loud as the highest note
of a flute. Her throne is now free from pretenders, and
after the expulsion of the drones, which then takes place,
the entire harmony of the hive is restored for another
season. The queen meanwhile is growing old, a new
spring has set in, her stock of eggs is being exhausted,
and mortality, which afflicts even royalty itself, lays
her low. Now comes into operation that extraordinary
faculty possessed by these insects. Her death has taken
place after she had laid new spring eggs, which are to
produce a further addition of neuters and a supply of
drones. The loss of their queen is soon communicated
to the inhabitants of the hive, confusion ensues, and
.pn +1
.bn 374.png
labour is suspended. They group about in clusters of a
dozen or more, and after about a day’s intermission of
the ordinary routine of labour they appear to have come
to a resolution. Bustle is again renewed, and several,
as the delegates of the general body, pass into the midst
of the neuter brood cells, tear down the separating walls
of three, kill two of the very young larvæ, convert these
three cells into one by fitting alterations, and transfer
the care of this vermicle to the nursing-bees. Under
their care, they heedfully feeding her with the royal
jelly, her transformations speedily are completed, and
whilst this is being done, drones are coming forth. As
soon as she is ready she is aided to quit her cell. She
now leaves the hive, and the drones which are already
perfected accompany her; she makes her wedding tour
in the air, and quickly returns as the queen-regnant of
the rejoicing monarchy, whose vacant throne is again
royally occupied, and the entire harmony of the hive renewed.

The quantity of pollen that is collected in the course
of a season, by the diligence of the bees, has been estimated
at from sixty to seventy pounds; and the weight
of the honey, so affluent a hive will produce by abstraction
from the bees, is calculated at as much as sometimes
fifty pounds. This, however, must be vastly exceeded
by the quantity collected, as it is being constantly
consumed for sustenance, and for the secretion of the
raw material of wax, as well as for the production of
the liquid which converts this into its mouldable consistency.
It is possible to estimate pretty nearly the
quantity of honey required for each secretion of the raw
material, by finding what the honey-bag will contain
when gorged, as it is this quantity which seems to make
.pn +1
.bn 375.png
the eight scales of it upon the ventral plates, for they
cannot convey more up when they hang themselves in
the festoons to secern it. But it is impossible to know
what addition this liquid from their mouths makes to it
when they manipulate it into its plastic state, other bees
often undertaking this task, which may apply themselves
to it with a larger stock than the wax secreters possess,
they being perhaps already exhausted by their labours.
It is a singular fact that wax is more rapidly and largely
made by feeding the bees with dissolved sugar than from
the honey they collect themselves, the sugar thus evidently
containing more of its productive elements.

Some of the labours within the hive are apparently
continued at night, or the bees may be then revelling,
after the day’s toils, in social enjoyment, or otherwise
more worthily employed; for, to use the words of the
benevolent apiarian, the Rev. Wm. Chas. Cotton, “If
you listen by a hive about nine o’clock, you will hear
an oratorio sweeter than any at Exeter Hall. Treble,
tenor, and bass are blended in the richest harmony.
Sometimes the sound is like the distant hum of a great
city, and sometimes it is like a peal of hallelujahs.”

This is the history of the hive and its inhabitants.
Modifications may occasionally occur, but nothing of
sufficient consequence seriously to affect or neutralize this
ordinary routine. It would occupy space already too
largely encroached upon to go into these minute particulars,
which, although parts of their general history,
where treated of in special detail, are not necessarily the
province of a work which speaks of them as but one
member of the family of which it collectively discourses.
As the space occupied by what was really essential to be
known about them, has exceeded the due dimensions of
.pn +1
.bn 376.png
their share to it, although of paramount interest, infinitely
greater than that which attaches to the economy
of the whole of the rest of the group combined, it
will not, I trust, be considered that I terminate abruptly,
in drawing here to a close.

.hr 20%

The close of the work concurs with the termination
of the history of its crowning marvel; and I take leave
of my readers, with a reiteration of the hope that it
may stimulate them to undertake a study, wherein, each
step of their progress, expands the delightful contemplation
of the manifestations of the predominance of a
vast design, emanating from the paternal benevolence
of an august, supreme, and wisely superintending Providence.

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.il fn=i_p362_dec.jpg w=100px
.if-
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[Illustration: Decoration]
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.bn 377.png
.pb
.sp 4
.h2
GENERAL AND GLOSSARIAL INDEX.
.in 0
.ni
.sp 2
.ix
Abdomen, #25#.
  and its differences of form, #47#.
  causes of differences of clothing and form lie in its use, #48#.
  colour and marking and clothing of, characteristic, #47#.
  elliptical, or lanceolate and truncated, #48#.

Acari infest bees, #110#.

Activity of a hive at work, #348#.

Acuminate, terminating gradually in a sharp point.

Affinity, doctrine of, #136#.

Agassiz’ ‘Nomenclator Zoologicus,’ #130#.

Analogies between the stages of bees and flowers, #15#.

Analogy, doctrine of, #138#.

Andrena, general observations upon, #264#
  geography of, #67#.
  infested by Stylops and Nomada, #208#.
  list of native species, #201#.
  natural history of, #205#.
  scientific description of, #200#.

Andrenidæ, abnormal bees, #160#.
  diagram of mode of folding the tongue in repose, #39#.

Animals, domestication of, #5#.

Antennæ, #26#, #28#.
  apparatus for cleaning, #42#.
  form and structure in Eucera, #29#.
  possible complex function of, #57#.

Antennæ, sexual differences in length, #233#.
  their probable use, #55#, #57#.
  used as means of communication, #58#.

Anthidium, general observations on, #281#.
  geography of, #75#.
  native species, #279#.
  natural history of, #282#.
  scientific description of, #279#.

Anthocopa, general observations on, #292#.
  geography of, #76#.
  native species of, #292#.
  natural history of, #293#.
  scientific description of, #290#.

Anthophora, general observations on, #238#.
  geography of, #70#.
  infested by Melecta, #240#.
  list of native species, #238#.
  natural history of, #238#.
  scientific description of, #236#.
  trophi of, #29#.

Apathus, general observations on, #304#.
  geography of, #77#.
  list of native species, #304#.
  scientific description of, #302#.
  the Bombi they infest, #306#.

Apidæ, diagram of the mode of folding the tongue in repose, #39#.
  = normal bees, #160#, #227#.

<target id=IDApis>Apis, general observations on, #321#.
  geography of, #79#.
.pn +1
.bn 378.png
  native species, #321#.
  natural history of, #322#.
  origin of names, #321#.
  scientific description of, #318#.
  see “#Bee:IDBee#” and “#Bees:IDBees#.”

Appearance of bees intermittent, #54#.

Appendiculated, when there is a small appendage, as in the lip of\
Halictus, and at the end of the marginal cell of the wings, etc.

Arrangement and description of British bees, #184#.

Artesian well, peculiar results from its soil, #223#.

Articulate, where jointed, or the point of attachment.

Artisan bees = Dasygasters, #272#.

Aryans, one of the primitive divisions of the human race, #4#.

Atmosphere, its conditions affect bees, #50#.

Aulacus, #287#.

Auriculated, with a small ear-like appendage.

<target id=IDBee>Bee, constructive habits of the, early noticed, #93#.
  general history of the, #17#.
  parasites, #115#.
  parasitism limited, #264#.
  probably earlier known to man than the silkworm, #6#.
  Queen, description of, #322#.
  see “#Apis:IDApis#.”
  several species of, #87#.
  symbol of royalty with the Egyptians, #5#.
  The, one of the Suras of the Koran, #90#.
  why attractive, #1#.

Bee-bread, #347#.

<target id=IDBees>Bees, amount of their susceptibility of pain, #57#.
  construction of cells, #327#.
  duties performed in the hive, #325#.
  duties transferable, #336#.
  early cultivated, #3#, #90#, #91#.
  economy, early known, #92#.
  emit an odour, #52#.
  enemies, #51#.
  extent of flight, #340#.
  flight, modes of, varies, #49#.
  found in the Orkneys, #7#.
  genera of, determined by an artificial mode, #170#.
  habits of, in America, #7#.
  hairiness of, reason of, #14#.
  intimately connected with flowers, #3#.
  largely contribute to the impregnation of plants, #11#.
  make about ten journeys a day, #351#.
  many disclosed in autumn for the following year’s spring flight, #53#.
  not early risers, #51#.
  number of eyes, #355#.
  other than social, also known, #8#.
  rarely walk, #50#.
  sagacity in finding the honey of flowers, #13#.
  scientific arrangement and description of the genera of, #184#.
  secretion of wax, #325#.
  stages of life of,—
    egg, #18#.
    larva, #19#.
    pupa, #22#.
    imago, #23#.
  swarming, #337#.
  their relative perfection, #56#.
  voice, a scale of music, #49#.

Beehive represented on a tomb at Thebes, #6#.

Beehives moved on rafts, #84#.

Bifid, divided into two parts.

Binomial system invented by Linnæus, #129#.

Body of the bee, its structure, #25#.

Bombus, difficulty in determining the species of the males, #311#.
  general observations on, #310#.
  geography of, #78#.
  infested by <i>Apathus</i>, #311#.
  list of native species, #308#.
  natural history of, #312#.
  peculiarities in times of appearance, #312#.
  scientific description of, #307#.
.pn +1
.bn 379.png

Boss of mesothorax, #45#.

Bougie, derivation of, #84#.

British bees, new arrangement of, #153#, #158#.

Carder-bees, #316#.

Carelessness of describers of new species, #125#.

Carinated, having a longitudinal elevated line.

Carpenter bees, #286#.

Cells of hive, geometrical form of, #343#.
  results from instinct, #343#.
  how constructed, #342#.
  of wings characteristic, #44#.

Cenobites = social bees, #167#, #302#.

Ceratina, disputed parasitism of, #247#.
  general observations on, #246#.
  geography of, #71#.
  list of native species, #246#.
  natural history of, #247#.
  scientific description of, #245#.

Cereal plants early cultivated, #4#.

Chelostoma, general observations on, #286#.
  geography of, #76#.
  infested by Fœnus, #287#.
  native species of, #285#.
  natural history of, #286#.
  scientific description of, #283#.

Chrysis infests Chelostoma, #287#.
  infests Halictus, #219#.
  infests Osmia, #302#.

Cibarial apparatus = trophi = collective organs of the mouth, #163#.

Cilissa, general observations on, #213#.
  geography of, #67#.
  list of native species, #213#.
  scientific description of, #211#.

Clavate, club-shaped.
  antennæ, #28#.

Claws, #42#.
  reflected, #285#.

Climate inoperative on low forms of life, #24#.

Clothing of bees, #60#.

Clypeus, #26#, #28#.

Coadunate, closely united without perceptible articulation.

Cœlioxys, difficulty of their specific separation, #267#.
  general observations on, #267#.
  geography of, #74#.
  list of native species, #267#.
  parasitical on Megachile and Saropoda, #267#.
  scientific description of, #265#.

Collar, #41#.

Colletes, general observations on, #187#.
  geography of, #64#.
  list of native species, #187#.
  natural history of, #187#.
  parasites upon, #190#.
  scientific description of, #185#.

Colour of bees, #60#.
  more intense in males than females, #52#.
  most conspicuous in parasites, #66#, #105#.

Combs, structure of, #345#.

Corbiculum, #319#.

Correlative relations of structure and function, #10#.

Cotton, Rev. Chas. Wm., a distinguished apiarian, #361#.

Coxa, or hip, #41#.
  useful as a specific character, #42#.

Compound eyes, #26#, #27#.

Compressed, when the transverse section is shorter than the vertical.

Constricted, with tightened edges.

Conterminous, where the joints follow each other in a straight line of succession.

Crenulated, cut into segments of very small circles.

Cubital cells of wings, #45#.

cuckoo-bees = Nudipedes, #249#.

‘Cui bono?’ answer to, #141#.

Curtis, inferior merit of his system, #152#.

Dasygasters, artisan bees, #167#, #269#.

Dasypoda, general observations on, #225#.
.pn +1
.bn 380.png
  geography of, #69#.
  native species, #225#.
  natural history of, #226#.
  scientific description of, #224#.

Deflected, when bent downwards.

Dentate, toothed.

Depressed, when the vertical section is shorter than the transverse.

Describers, duties of, #125#.

Describing, modes of, before Linnæus, #129#.

Differences of appearance between the parasite and the sitos, #260#.

Digiti, anterior tarsi, #42#.

Dissimilarity frequent between the sexes, #52#.

Domestication of animals, #5#.

Dorylus, #311#.

Drone = male bee, description of, #323#.

Edentate, without teeth.

Egg of bees, #18#.

Egyptian hieroglyphics and sculptures represent the bee, #6#.

Elenchus, habits of, described by Dale, #113#.
  infests Halictus, #113#, #219#.

Elliptical, oval but with the longitudinal diameter more than twice the\
length of the transverse.

Enemies of bees, #51#.

Epeolus, general observations on, #260#.
  geography of, #73#.
  native species, #260#.
  parasitical on Colletes, #190#, #260#.
  scientific description of, #258#.

Epipharynx, #29#, #30#.

Eucera, general observations on, #232#.
  geography of, #70#.
  infested by Nomada sexcincta, #235#.
  native species, #232#.
  natural history of, #234#.
  scientific description of, #231#.

Face of bees, #26#, #27#.

Families, characteristics of, differ, #136#.

Family, #134#.

Feeling of bees, #56#.

Femur, or thigh, #41#.

Fertilization of flowers produced by bees, #11#, #51#.

Feuds of animals, the occasion of, #352#.

Filiform, thread-like, of uniform thickness.
  antennæ, #28#.

Fimbriated, = fringed.

Flagellum of antennæ, #18#.

Flight of bees, variation of their modes, #49#.

Floral clock of Linnæus, #50#.

Flowers, the, chiefly agreeable to bees, #15#.
  earliest, sought by the bees, #14#.
  fertilized by bees, #11#, #51#.

Fœnus infests Chelostoma, #287#.

Forcipate, when crossing each other.

Foreign bees, conspicuous genera of, #101#.

Form of parasitical bees often adapted to that of their sitos, #48#.
  determined by function, #48#.

Fossorial Hymenoptera, #45#.

Fruit preserved in honey, #83#.

Fusiform, = spindle-shaped.

Genæ, #26#, #28#.

Genera of bees determined artificially, #176#.
  that emit scents, #296#.
  with and without parasites, #264#.

Geniculated, bent like a knee or angle.

Genus, #132#.
  type of, #133#.

Geography of the British genera of bees, #61#.

Gibbous, = irregularly swollen.

Glabrous, without hair or pubescence.

Gregarious, its application to bees, #57#.
.pn +1
.bn 381.png

Habit, #127#.

Habitat, #127#.

Habits, #127#.
  and structure correlative, #24#.

Halictophagus, #115#.

Halictus, general observations on, #216#.
  geography of, #68#.
  its enemies, #220#.
  list of native species, #215#.
  natural history of, #217#.
  parasites that infest it, #219#.
  peculiar autumnal appearance, #218#.
  scientific description of, #214#.
  structure of labrum, #30#.

Hastate, halberd shaped.

Head of bees, #26#.

Hedychrum infests Halictus, #219#.

Heriades, general observations on, #288#.
  geography of, #76#.
  native species of, #288#.
  scientific description of, #288#.

Hindoo Koosh, supposed cradle of the human race, #3#.

Hirsute, covered with long stiffish hairs, thickly set.

Hives, darkness of, #355#.
  moved on rafts, #85#.

Homer mentions bees, #6#.

Honey, different kinds of, #87#.
  green, #87#.
  its use in the East, #83#.
  mode of lapping, described by Réaumur, #35#.
  mode of storing, #350#.
  prescribed by Mahomet, #91#.
  quantity in a well-filled hive, #360#.
  sometimes poisonous, #86#.
  used in medicine by the Egyptians, #90#.

Honey-bee, see “#Apis:IDApis#,” “#Bee:IDBee#,” “#Bees:IDBees#.”
    mode of secreting wax, #330#.

Hypopharynx, #29#.

Imago of bees, #23#.

Inosculation, point of close contact or attachment.

Insect-feeding reptiles before glacial period, #5#.

Inserted, where joined.

Instinct, its applications, #56#.
  occasional divergence of, #55#.
  of bees, #55#.

Job mentions bees, #6#.

Kirby’s merits, #144#.
  system of bees, #147#.

Labial palpi, #30#, #32#.
  number of joints invariable, #32#.
  structure in Andrenidæ, #32#.
  structure in Apidæ, #32#.

Labium = lower lip, #30#, #31#.

Labrum = upper lip, #28#, #30#.

Lacerate, with a roughened irregular edge.

Lanceolate, oblong but gradually tapering.

Latreille’s classification not adopted, #168#.

Leg, diagram of, #42#.

Legs, general description of, #41#.

Length of an insect is taken from the front of the head to the apex of\
the abdomen; the breadth, or the expansion of the wings, it is not usual\
to give, excepting under such circumstances as would be particularly\
mentioned, viz. in cases of an excessive enlargement or diminishment of\
the typical size.

Life, duration of, of bees, #54#.

Line, the twelfth part of an inch; the ordinary measure used in entomology for the\
fractions of an inch, unless the insect is much more than an inch long.

Linnæus, author of the binomial system, #129#.
  great merits of, #129#.

Lobated, divided into equal rounded parts.
.pn +1
.bn 382.png

Low forms of life unaffected by climate, #24#.

Lunate, semicircular.

Lunulate, crescent-shaped.

Macropis, general observations on, #222#.
  geography of, #68#.
  native species, #221#.
  scientific description of, #220#.
  strong analogy to the Scopulipedes, #222#.

Maculæ indicantes, #13#.

Mahomet prescribes honey, #91#.

Males, how to be united to their partners, #179#.

Mandibles, #30#, #40#.
  used for boring, #44#.

Marginal cells of wings, #45#.

Marginate, edged with a ridge.

Mason bees, #296#.

Maxillæ, #30#, #31#.

Maxillary palpi, #30#, #32#.
  number of joints invariable in Andrenidæ, #32#.
  number of joints variable in the Apidæ, #32#.

Megachile, general observations on, #272#.
  geography of, #74#.
  infested by Cœlioxys, #275#.
  list of native species, #271#.
  natural history of, #273#.
  scientific description of, #269#.

Melecta, general observations on, #255#.
  geography of, #72#.
  list of native species, #255#.
  parasitical on Anthophora, #240#.
  scientific description of, #255#.
  very pugnacious, #258#.

Melittobia, a parasite upon Anthophora, #241#.

Meloë proscarabæus, parasitical on bees, #110#.
  said to infest Andrena, #209#.

Mesothorax, #26#, #44#.

Metallic colouring of bees, #248#.

Metathorax, #26#.

Metropolis, #128#.

Miltogramma, parasitical upon Colletes, #190#.

Mode of killing coloured insects, #253#.

Moniliform, bead-like.
  antennæ, #129#.

Monodontomerus, parasitical on Anthophora and Osmia, #302#.

Moths help to fertilize flowers, #13#.

Motives for new arrangement, #163#.

Mouth, organs of = trophi = cibarial apparatus, #163#.

Mucronated, having one or more short stout processes.

Mutilla, parasitical on bees, #117#.

Names usually given from a sexual peculiarity, #232#.

Natural history, attractions of, #141#.
  modes of treating, #140#.

Natural system, #139#.

Nature, its large operations, #8#.

Nectaria of plants indicated to bees by a difference of colour, #12#.

Nervures of wings, #44#.

Nomada, general observations on, #252#.
  geography of, #72#.
  intermittent appearance of N. Fabriciana, #230#.
  list of native species, #250#.
  scientific description of, #249#.
  sexcincta infests Eucera, #235#.
  the bees infested by them, #253#.

Nomenclature simplified by Linnæus, #130#.

Nudipedes, = cuckoo-bees or parasites, #116#, #167#, #249#.

Nylander’s mode of determining the species of Cœlioxys, #268#.

Obsolete, more or less inapparent.

Ocelli = simple eyes = stemmata, #26#, #27#.

Oman, no bees in the province of, #84#.

Osmia, general observations on, #296#.
  geography of, #76#.
  list of native species, #295#.
.pn +1
.bn 383.png
  natural history of, #296#.
  parasites of, #302#.
  scientific description of, #294#.

Ovate, oval, but with the ends circumscribed by unequal segments of circles.

Ovipositor = egg-depositor, #17#.

Pain, doubtful susceptibility of, #57#.

Palmæ, #41#.

Palmated, spread like a hand.

Palpi, their probable use, #55#.

Panurgus, general observations on, #229#.
  geography of, #69#.
  infested by Nomada Fabriciana, #230#.
  list of native species, #228#.
  natural history of, #229#.
  scientific description of, #227#.

Paraglossæ, #33#.
  obsolete in the artisan bees, #33#.
  where attached, #33#.

Parasites, different kinds of, #110#.
  of bees, #109#.

Parasitical bees always the most highly coloured, #66#, #105#.
  unlike the sitos, #116#.
  Cenobites, #302#.

Passions of bees, #56#.

Pecten or comb, a fringe of very short stiff hair attached to an\
organ, for various purposes.

Pectinated, having an edge like a comb.

Pediculus Melittæ, #209#.

Petiole, a foot stalk.

Pharynx, #29#, #30#.

Pile, long loose hair.

Pilose, with long, distinct, flexible hair.

Plantæ, #42#, #46#.
  structure of, in hive bee, #46#.

Plants agreeable to bees, #15#.
  impregnated by bees, #11#.

Pleasures attending the pursuit of natural history, #14#.

Plumose, with long hair, but not thick.

Pollen, collection of, #351#.

Pollen, mode of collecting and transferring from limb to limb, #43#.
  probable reasons for the ways of carrying, #47#.
  quantity usually collected, #360#.

Polliniferous, = pollen-collecting.

Posterior legs, their structure for the conveyance of pollen, #46#.
  where attached, #46#.

Post-scutellum, #26#, #45#.

Priority, law of, the basis of synonymy, #131#.

Proboscis, #39#.

Process, a protuberance.

Processes in bees, peculiarities of, #258#.

Propolis, nature of, #340#.

Prosopis emits an agreeable odour, #195#.
  general observations upon, #193#.
  geography of, #65#.
  list of native species, #192#.
  presumed parasitism of, #193#.
  scientific description of, #191#.
  supposed liable to Stylops, #195#.

Prothorax, #26#, #41#.

Pubescent, covered with short fine hair.

Pubescent, hirsute, setose, pilose, plumose, various relative conditions of hairiness.

Pulvillus, #42#.

Punctate, impressed with many points.

Punctulate, with fine impressed points.

Punctured, with coarsely impressed points.

Pupa of bees, #22#.

Queen-bee, administrative function of, #336#.
  and worker constitute a unity, #331#.
  description of, #322#.
  etiquette of attendants, #329#.
.pn +1
.bn 384.png

Queen-bee, great fertility of, #334#.
  loss of, disorganizes the hive, #335#.
  number of eggs laid by, #346#.

Ray’s merits, #142#.

Réaumur’s description of the mode of lapping honey, #35#.
  description of the structure of the tongue, #35#.

Recurrent nervures of wings, #45#.

Retuse, with an obtuse cavity.

Ridged, with a slight projecting margin.

Rugose, rough or irregularly wrinkled.

St. Fargeau’s merits, #151#.

Sanskrit notice of bees and honey, #92#.

Saropoda, general observations, #243#.
  geography of, #71#.
  native species of, #243#.
  rapidity of flight, #245#.
  scientific description of, #242#.
  vivacity of its eyes, #244#.

Scape of antennæ, #28#.

Scent emitted by bees, #52#.

Scientific arrangement and description of the genera, #184#.
  principles of, #118#.
  cultivation of British bees, #142#.

Scopulipedes = brush-legged bees, #163#, #227#.

Sculpture, #60#.

Scutellum, #26#, #45#.

Senses of bees, #56#.

Sensorium of bees, #55#.

Serrate, edged like a saw.

Serratulate, edged like a fine saw.

Setæ, slightish bristles.

Setiform, like bristles.

Setose, bristled.

Shakespeare on the polity of the bee, #1#.

Shemitic branch of the human race, #4#.

Sight of bees, #56#.

Simple eyes = ocelli = stemmata, #26#, #27#.

Sinus, a cavity.

Sitos, the supporter of a parasitical bee.

Sizes, differences of, what caused by, #41#.

Smell of bees, #56#.

Social bees = Cenobites, #302#.

Species, #122#.
  name of, #128#.
  the basis of natural science, #121#.
  vary in number of individuals, #123#.

Specific character, #124#.
  descriptions, #125#.
  differences, #123#.

Sphecodes, difficulty of specific distinction in, #198#.
  doubts as to its parasitism, #199#.
  general observations on, #197#.
  geography of, #66#.
  list of native species, #197#.
  scientific description of, #196#.

Spines at apex of abdomen of bees, #268#.

Spinose, with minute spiny processes.

Spinulose, with fine spiny processes.

Spiral hair of the scopa, #226#, #229#.

Spurs, #42#.

Squamulæ = epaulettes = wing-scales, #26#, #44#.

State of Great Britain before the glacial period, #5#.

Stelis, general observations on, #263#.
  geography of, #73#.
  infests Osmia, #302#.
  list of native species, #263#.
  scientific description of, #262#.

Stemmata = simple eyes = ocelli, #26#, #27#.

Stephens, inferior merit of his system, #152#.

Strepsiptera parasitical on bees, #111#.

Strigilis, #42#.
.pn +1
.bn 385.png

Structure and habits correlative, #24#.
  of the body of the bee, #25#.
  similarity of, caused by direct and proximate affinities, #48#.

Stylops infests Andrena, #208#.
  infests Halictus, #219#.
  Kirby’s description of, #112#.
  manners of, described by Thwaites, #114#.
  some particulars of its history, #208#.

Sub, a prefix indicating the diminution of a condition, as subhastate,\
subovate, subtruncate, etc. etc.

Submarginal cells of wings, #45#.

Swarming, #358#.

Synonymy, #130#.

System, value of, #119#.

Tarsus of fore legs in some males greatly dilated, #43#.
  or foot, #41#.

Taste of bees, #56#.

Thorax, #26#, #41#.

Tibia, or shank, #41#.

Tomb at Thebes with representation of a beehive, #6#.

Tongue improperly called labium, #34#.
  of Andrenidæ folded in repose, #39#.
  of Apidæ folded in repose, #39#.
  once thought tubular, #34#.
  where situated, description of it, #33#.

Topical geography of British bees, #96#.

Tooth, a long sharp process.

Toothed, spinose, spinulose, tuberculated, mucronated, dentate, the\
various conditions of extraneous prominences or processes.

Transformations of worker bee, #347#.
  of the drone, #356#.
  of the Queen, #357#.

Transverso-cubital nervures of wings, #45#.

Travellers, suggestions to, #64#, #95#.

Trifid, divided into three parts.

Trivial name, #128#.

Trochanter, #41#.

Trophi = organs of the mouth, #26#, #29#.
  diagram of, #30#.

Truncated, abruptly terminated.

Tuberculated, with small processes.

Turonian branch of the human race, #4#.

Uses of bees in the impregnation of plants, #11#.

Vedas mention bees, #6#.

Velum, #42#.

Ventilation of the hives, #328#.

Ventral segments, peculiarities of structure of, #234#.

Vernacular names of insects, #9#.

Vertex, #26#.

Vertigo of bees, #87#.

Voice of bees, #49#.

Wagtails destroy fossorial Hymenoptera, #306#.

Wax, secretion of, #325#.

Wax used by the Romans, #85#.

Westwood’s classification not adopted, #168#.

Wild bees, #8#.
  come forth early in the spring, #10#.

Will of bees, #56#.

Willughby’s merits, #143#.

Wing, treatise on the, #45#.

Wing-hooklets for uniting the upper and lower wings, #45#.

Wing-scales = squamulæ, #26#.

Wings, #44#.
  diagram of, #45#.

Worker bee, description of, #324#.
  duties performed by, #325#.
  peculiarities of structure, #330#.
  secretion of wax, #325#.

Xenophon’s description of poisonous honey, #86#.
.ix-
.pi
.pn +1
.bn 386.png
.pn +1
.bn 387.png
.pn +1
.bn 388.png

.pb
.sp 2
.nf c
<target id="PLATE-I">PLATE I.
.nf-
.in 4
.nf l
1 ♂. Colletes Daviesiana, <i>male</i>.
1 ♀.    "          "      <i>female</i>.
2 ♂. Prosopis dilatata, <i>male</i>.
2 ♀. Prosopis signata, <i>female</i>.
3 ♂. Sphecodes gibbus, <i>male</i>.
3 ♀.   "         "     <i>female</i>.
.nf-
.in 0
.pn +1
.bn 389.png

.if h
.il fn=i_plate01.jpg w=481px
.ca
Plate I. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate I. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 390.png
.pn +1
.bn 391.png
.pn +1
.bn 392.png
.pb
.sp 2
.nf c
<target id="PLATE-II">PLATE II.
.nf-
.in 4
.nf l
1 ♂. Andrena fulva, <i>male</i>.
1 ♀.    "      "    <i>female</i>.
2 ♂. Andrena cineraria, <i>male</i>.
2 ♀.    "        "      <i>female</i>.
3 ♂. Andrena nitida, <i>male</i>.
3 ♀.   "       "     <i>female</i>.
.nf-
.in 0
.pn +1
.bn 393.png

.if h
.il fn=i_plate02.jpg w=490px
.ca
Plate II. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate II. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 394.png
.pn +1
.bn 395.png
.pn +1
.bn 396.png
.pb
.sp 2
.nf c
<target id="PLATE-III">PLATE III.
.nf-
.in 4
.nf l
1 ♂. Andrena Rosæ, <i>male</i>.
1 ♀.   "       "   <i>female</i>.
2 ♂. Andrena longipes, <i>male</i>.
2 ♀.   "       "       <i>female</i>.
3 ♂.Andrena cingulata, <i>male</i>.
3 ♀.   "       "       <i>female</i>.
.nf-
.in 0
.pn +1
.bn 397.png

.if h
.il fn=i_plate03.jpg w=500px
.ca
Plate III. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate III. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 398.png
.pn +1
.bn 399.png
.pn +1
.bn 400.png
.pb
.sp 2
.nf c
<target id="PLATE-IV">PLATE IV.
.nf-
.in 4
.nf l
1 ♂. Halictus xanthopus, <i>male</i>.
1 ♀.   "       "         <i>female</i>.
2 ♂. Halictus flavipes, <i>male</i>.
2 ♀.   "       "        <i>female</i>.
3 ♂. Halictus minutissimus, <i>male</i>.
3 ♀.   "       "            <i>female</i>.
.nf-
.in 0
.pn +1
.bn 401.png

.if h
.il fn=i_plate04.jpg w=502px
.ca
Plate IV. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate IV. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 402.png
.pn +1
.bn 403.png
.pn +1
.bn 404.png
.pb
.sp 2
.nf c
<target id="PLATE-V">PLATE V.
.nf-
.in 4
.nf l
1 ♂. Cilissa tricincta, <i>male</i>.
1 ♀.    "         "     <i>female</i>.
2 ♂. Macropis labiata, <i>male</i>.
2 ♀.    "         "    <i>female</i>.
3 ♂. Dasypoda hirtipes, <i>male</i>.
3 ♀.    "         "     <i>female</i>.
.nf-
.in 0
.pn +1
.bn 405.png

.if h
.il fn=i_plate05.jpg w=470px
.ca
Plate V. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate V. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 406.png
.pn +1
.bn 407.png
.pn +1
.bn 408.png
.pb
.sp 2
.nf c
<target id="PLATE-VI">PLATE VI.
.nf-
.in 4
.nf l
1 ♂. Panurgus Banksianus, <i>male</i>.
1 ♀.    "        "        <i>female</i>.
2 ♂. Eucera longicornis, <i>male</i>.
2 ♀.    "        "       <i>female</i>.
3 ♂. Anthophora retusa, <i>male</i>.
3 ♀.    "        "      <i>female</i>.
.nf-
.in 0
.pn +1
.bn 409.png

.if h
.il fn=i_plate06.jpg w=472px
.ca
Plate VI. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate VI. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 410.png
.pn +1
.bn 411.png
.pn +1
.bn 412.png
.pb
.sp 2
.nf c
<target id="PLATE-VII">PLATE VII.
.nf-
.in 4
.nf l
1 ♂. Anthophora furcata, <i>male</i>.
1 ♀.    "         "      <i>female</i>.
2 ♂. Saropoda bimaculata, <i>male</i>.
2 ♀.    "         "       <i>female</i>.
3 ♂. Ceratina cærulea, <i>male</i>.
3 ♀.    "         "    <i>female</i>.
.nf-
.in 0
.pn +1
.bn 413.png

.if h
.il fn=i_plate07.jpg w=486px
.ca
Plate VII. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate VII. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 414.png
.pn +1
.bn 415.png
.pn +1
.bn 416.png
.pb
.sp 2
.nf c
<target id="PLATE-VIII">PLATE VIII.
.nf-
.in 4
.nf l
1 ♂. Nomada Goodeniana, <i>male</i>.
1 ♀.   "       "        <i>female</i>.
2 ♂. Nomada Lathburiana, <i>male</i>.
2 ♀.   "       "         <i>female</i>.
3 ♂. Nomada sexfasciata, <i>male</i>.
3 ♀.   "       "         <i>female</i>.
.nf-

.in 0.pn +1
.bn 417.png

.if h
.il fn=i_plate08.jpg w=486px
.ca
Plate VIII. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate VIII. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 418.png
.pn +1
.bn 419.png
.pn +1
.bn 420.png
.pb
.sp 2
.nf c
<target id="PLATE-IX">PLATE IX.
.nf-
.in 4
.nf l
1 ♂. Nomada signata, <i>male</i>.
1 ♀.   "       "     <i>female</i>.
2 ♂. Nomada Fabriciana, <i>male</i>.
2 ♀.   "       "        <i>female</i>.
3 ♂. Nomada flavoguttata, <i>male</i>.
3 ♀.   "       "          <i>female</i>.
.nf-
.in 0
.pn +1
.bn 421.png

.if h
.il fn=i_plate09.jpg w=483px
.ca
Plate IX. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate IX. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 422.png
.pn +1
.bn 423.png
.pn +1
.bn 424.png
.pb
.sp 2
.nf c
<target id="PLATE-X">PLATE X.
.nf-
.in 4
.nf l
1 ♂. Nomada Jacobææ, <i>male</i>.
1 ♀.    "      "     <i>female</i>.
2 ♂. Nomada Solidaginis, <i>male</i>.
2 ♂*  (should be ♀). "  <i>female</i>.
3 ♂. Nomada lateralis, <i>male</i>.
3 ♀.    "      "       <i>female</i>.
.nf-
.in 0
.pn +1
.bn 425.png

.if h
.il fn=i_plate10.jpg w=479px
.ca
Plate X. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate X. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 426.png
.pn +1
.bn 427.png
.pn +1
.bn 428.png
.pb
.sp 2
.nf c
<target id="PLATE-XI">PLATE XI.
.nf-
.in 4
.nf l
1 ♂. Melecta punctata, <i>male</i>.
1 ♀.   "        "      <i>female</i>.
2 ♂. Epeolus variegatus, <i>male</i>.
2 ♀.   "        "        <i>female</i>.
3 ♂. Stelis phæoptera, <i>male</i>.
3 ♀.   "        "      <i>female</i>.
.nf-
.in 0
.pn +1
.bn 429.png


.if h
.il fn=i_plate11.jpg w=496px
.ca
Plate XI. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate XI. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 430.png
.pn +1
.bn 431.png
.pn +1
.bn 432.png
.pb
.sp 2
.nf c
<target id="PLATE-XII">PLATE XII.
.nf-
.in 4
.nf l
1 ♂. Cœlioxys Vectis, <i>male</i>.
1 ♀.    "         "   <i>female</i>.
2 ♂. Megachile maritima, <i>male</i>.
2 ♀.    "         "      <i>female</i>.
3 ♂. Megachile argentata, <i>male</i>.
3 ♀.    "         "       <i>female</i>.
.nf-
.in 0
.pn +1
.bn 433.png

.if h
.il fn=i_plate12.jpg w=482px
.ca
Plate XII. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
.if t
.in 8
.ti -4
[Illustration: Plate XII. E. W. Robinson, Delineavit et Sculpsit 1866.]
.in 0
.if-

.pn +1
.bn 434.png
.pn +1
.bn 435.png
.pn +1
.bn 436.png
.pb
.sp 2
.sp 2
.nf c
<target id="PLATE-XIII">PLATE XIII.
.nf-
.in 4
.nf l
1 ♂. Anthidium manicatum, <i>male</i>.
1 ♀.    "         "        <i>female</i>.
2 ♂. Chelostoma florisomne, <i>male</i>.
2 ♀.    "         "          <i>female</i>.
3 ♂. Heriades truncorum, <i>male</i>.
3 ♀.    "         "       <i>female</i>.
.nf-
.in 0
.pn +1
.bn 437.png

.if h
.il fn=i_plate13.jpg w=493px
.ca
Plate XIII. E. W. Robinson, Del^t. et Sc^p. 1866.
.ca-
.if-
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[Illustration: Plate XIII. E. W. Robinson, Delineavit et Sculpsit 1866.]
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<target id="PLATE-XIV">PLATE XIV.
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1 ♂. Osmia bicolor, <i>male</i>.
1 ♀.   "      "     <i>female</i>.
2 ♂. Anthocopa Papaveris, <i>male</i>.
2 ♀.   "      "           <i>female</i>.
3 ♂. Osmia leucomelana, <i>male</i>.
3 ♀.   "      "         <i>female</i>.
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Plate XIV. E. W. Robinson, Del^t. et Sc^p. 1866.
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[Illustration: Plate XIV. E. W. Robinson, Delineavit et Sculpsit 1866.]
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<target id="PLATE-XV">PLATE XV.
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1 ♂. Apathus rupestris, <i>male</i>.
1 ♀.    "        "       <i>female</i>.
2 ♂ (should be ♀). Apathus campestris, <i>female</i>.
2 ♀. Apathus vestalis, <i>female</i>.
3 ♀. Bombus fragrans, <i>female</i>.
4 ♂.   "    Soroensis (var. Burrellanus), <i>male</i>.
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Plate XV. E. W. Robinson, Del^t. et Sc^p. 1866.
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[Illustration: Plate XV. E. W. Robinson, Delineavit et Sculpsit 1866.]
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<target id="PLATE-XVI">PLATE XVI.
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1 ♀. Bombus Harrisellus, <i>female</i>.
2 ♀.   "    Lapponicus, <i>female</i>.
3 ♀.   "    sylvarum, <i>female</i>.
4 ♂. Apis mellifica, <i>male</i>.
4 ♀.   "     "       <i>female</i>.
4 ⚲.    "     "       <i>neuter</i>.
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Plate XVI. E. W. Robinson, Del^t. et Sc^p. 1866.
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[Illustration: Plate XVI. E. W. Robinson, Delineavit et Sculpsit 1866.]
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LOVELL REEVE & CO.’S

PUBLICATIONS IN

Botany, Conchology, Entomology,

CHEMISTRY, TRAVELS, ANTIQUITIES,

ETC.
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“None can express Thy works but he that knows them;
And none can know Thy works, which are so many
And so complete, but only he that owes them.”
                   <i>George Herbert.</i>
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[Illustration: Decoration]
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LONDON:
LOVELL REEVE AND CO., 5, HENRIETTA STREET, COVENT GARDEN.

1866.
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CONTENTS.
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                 |                  <s>PAGE</s>
BOTANY |                                3
FERNS AND MOSSES |                      9
SEAWEEDS |                             10
FUNGI |                                11
SHELLS AND MOLLUSKS |                  12
INSECTS |                              14
TRAVELS |                              15
ANTIQUARIAN  |                         16
MISCELLANEOUS  |                       18
WORKS IN PREPARATION |                 19
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<s><i>All Books sent post-free to any part of the United Kingdom
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LIST OF WORKS
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BOTANY.
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HANDBOOK OF THE BRITISH FLORA; a Description of the Flowering Plants and
Ferns indigenous to, or naturalized in, the British Isles. For the Use
of Beginners and Amateurs. By <sc>George Bentham</sc>, F.R.S., President
of the Linnean Society. Crown 8vo, 680 pp.,
12<i>s</i>.
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Distinguished for its terse and clear style of description; for the
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its more striking characters; and for the valuable information here
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foreign countries.
.hr 20%
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HANDBOOK OF THE BRITISH FLORA, <sc>Illustrated Edition</sc>; a
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species) of the Flowering Plants and Ferns indigenous to, or naturalized
in, the British Isles. By <sc>George Bentham</sc>, F.R.S., President of
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from Original Drawings by W. Fitch. £3. 10<i>s</i>.
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THE FIELD BOTANIST’S COMPANION; a Familiar Account, in the Four
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8vo, 424 pp.. With 24 Coloured Plates, by <sc>W. Fitch</sc>,
21<i>s</i>.
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An elegantly-illustrated volume, intended for Beginners, describing the
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not only of the Species and name of each plant, but of its structure and
characters of classification.
.pn +1
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.hr 20%
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CURTIS’S BOTANICAL MAGAZINE, comprising the Plants of the Royal Gardens
of Kew, and of other Botanical Establishments. By Dr. <sc>J. D.
Hooker</sc>, F.R.S., Director of the Royal Gardens. Royal 8vo. Published
Monthly, with 6 Plates, 3<i>s</i>. 6<i>d</i>. coloured. Vol. XXII. of
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Descriptions and Drawings, beautifully coloured by hand, of
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.hr 20%
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THE FLORAL MAGAZINE, containing Figures and Descriptions of New Popular
Garden Flowers. By the Rev. <sc>H. Honywood Dombrain</sc>, A.B. Imperial
8vo. Published Monthly, with 4 Plates, 2<i>s</i>. 6<i>d</i>. coloured.
Vol. I. to IV., each with 64 plates, £2. 2<i>s</i>.
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Descriptions and Drawings, beautifully coloured by hand, of new
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THE TOURIST’S FLORA; a Descriptive Catalogue of the Flowering Plants and
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the Italian Islands. By <sc>Joseph Woods</sc>, F.L.S. Demy 8vo, 504 pp.,
18<i>s</i>.
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Designed to enable the lover of botany to determine the names of any
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has been to make the descriptions clear and distinct, and to comprise
them within a volume of not inconvenient bulk.
.hr 20%
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CONTRIBUTIONS TO THE FLORA OF MENTONE. By <sc>J. Traherne
Moggridge</sc>. Royal 8vo. Parts I. and II., each, 25 Coloured Plates,
15<i>s</i>.
.in 0
In this work a full page is devoted to the illustration of each Species,
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.hr 20%
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A FLORA OF ULSTER, AND BOTANIST’S GUIDE
TO THE NORTH OF IRELAND. By <sc>G. Dickie</sc>, M.D., F.L.S.,
Professor of Botany in the University of Aberdeen. A pocket volume,
pp. 176, 3<i>s</i>.
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A small volume, not exclusively of local interest, containing, as it
does, much valuable information relative to the geographical and
altitudinal range of the Species.
.pn +1
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.in 0
.hr 20%
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A SECOND CENTURY OF ORCHIDACEOUS PLANTS, selected from the subjects
published in Curtis’ ‘Botanical Magazine’ since the issue of the ‘First
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Parts I. to III., each with 10 Coloured Plates, 10<i>s</i>. 6<i>d</i>.,
now ready.
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During the fifteen years that have elapsed since the publication of the
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hundred of this favourite tribe of plants not hitherto described and
figured, or very imperfectly so. It is intended from these to select “a
Second Century,” and the descriptions, written at the time of
publication by Sir W. J. Hooker, will be edited, and in many cases
re-written, agreeably with the present more advanced state of our
knowledge and experience in the cultivation of Orchidaceous plants, by
Mr. Bateman, the acknowledged successor of Dr. Lindley as the leading
authority in this department of botany and horticulture.
.hr 20%
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MONOGRAPH OF ODONTOGLOSSUM, a Genus of the Vandeous Section of
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folio, Parts I. to III., each with 5 Coloured Plates, and occasional
Wood-Engravings, 21<i>s</i>.
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Designed for the illustration, on an unusually magnificent scale, of the
new and beautiful plants of this favoured genus of <i>Orchidacea</i>,
which are being now imported from the mountain-chains of Mexico, Central
America, New Granada, and Peru.
.hr 20%
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SELECT ORCHIDACEOUS PLANTS. By <sc>Robert Warner</sc>, F.R.H.S. With
Notes on Culture by <sc>B. S. Williams</sc>. In Ten Parts, folio, each,
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PESCATOREA. Figures of Orchidaceous Plants, chiefly from the Collection
of <sc>M. Pescatore</sc>. Edited by <sc>M. Linden</sc>, with the
assistance of <sc>MM. G. Luddeman</sc>, <sc>J. E. Planchon</sc>, and
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THE RHODODENDRONS OF SIKKIM-HIMALAYA; being an Account, Botanical and
Geographical, of the Rhododendrons recently discovered in the Mountains
of Eastern Himalaya, from Drawings and Descriptions made on the spot, by
Dr. J. D. Hooker, F.R.S. By Sir <sc>W. J. Hooker</sc>, F.R.S. Folio, 30
Coloured Plates, £3. 16<i>s</i>.
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Illustrations on a superb scale of the new Sikkim Rhododendrons, now
being cultivated in England, accompanied by copious observations on
their distribution and habits.
.pn +1
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.in 0
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GENERA PLANTARUM, ad Exemplaria imprimis in Herbariis Kewensibus servata
definita. By <sc>George Bentham</sc>, F.R.S., President of the Linnean
Society, and Dr. <sc>J. D. Hooker</sc>, F.R.S., Assistant-Director of
the Royal Gardens, Kew. Vol. I. Part I. pp. 454. Royal 8vo, 21<i>s</i>.
Part II., 14<i>s</i>.
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This important work comprehends an entire revision and reconstruction of
the Genera of Plants. Unlike the famous Genera Plantarum of Endlicher,
which is now out of print, it is founded on a personal study of every
genus by one or both authors. The First Part contains 56 Natural Orders
and 1287 Genera. The Second, now printing, will contain as many more.
The whole will be completed in Four or Five Parts.
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FLORA OF THE ANTARCTIC ISLANDS; being Part I. of the Botany of the
Antarctic Voyage of H.M. Discovery Ships ‘Erebus’ and ‘Terror,’ in the
years 1839-1843. By Dr. <sc>J. D. Hooker</sc>, F.R.S. Royal 4to. 2
vols., 574 pp., 200 Plates, £10. 15<i>s</i>. coloured. Published under
the authority of the Lords Commissioners of the Admiralty.
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The ‘Flora Antarctica’ illustrates the Botany of the southern districts
of South America and the various Antarctic Islands, as the Falklands,
Kerguelen’s Land, Lord Auckland and Campbell’s Island, and 1370 species
are enumerated and described. The plates, which are executed by Mr.
Fitch, and beautifully coloured, illustrate 370 species, including a
vast number of exquisite forms of Mosses and Seaweeds.
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FLORA OF NEW ZEALAND; being Part II. of the Botany of the Antarctic
Voyage of H.M. Discovery Ships ‘Erebus’ and ‘Terror,’ in the years
1839-1843. By Dr. <sc>J. D. Hooker</sc>, F.R.S. Royal 4to, 2 vols., 733
pp., 130 Plates. £16. 16<i>s</i>. coloured. Published under the
authority of the Lords Commissioners of the Admiralty.
.in 0
The ‘Flora of New Zealand’ contains detailed descriptions of all the
plants, flowering and flowerless, of that group of Islands, collected by
the Author during Sir James Ross’ Antarctic Expedition; including also
the collections of Cook’s three voyages, Vancouver’s voyages, etc., and
most of them previously unpublished. The species described amount to
1767; and of the Plates, which illustrate 313 Species, many are devoted
to the Mosses, Ferns, and Algæ, in which these Islands abound.
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FLORA OF TASMANIA; being Part III. of the Botany of the Antarctic Voyage
of H.M. Discovery Ships ‘Erebus’ and ‘Terror,’ in the years 1839-1843.
By Dr. <sc>J. D. Hooker</sc>, F.R.S. Royal 4to, 2 vols., 972 pp., 200
Plates, £17. 10<i>s</i>., coloured. Published under the authority of the
Lords Commissioners of the Admiralty.
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The ‘Flora of Tasmania’ describes all the Plants, flowering and
flowerless, of that Island, consisting of 2203 Species, collected by the
Author and others. The Plates, of which there are 200, illustrate 412
Species.
.pn +1
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HANDBOOK OF THE NEW ZEALAND FLORA; a Systematic Description of
the Native Plants of New Zealand, and the Chatham, Kermadec’s,
Lord Auckland’s, Campbell’s, and Macquarrie’s Islands. By Dr.
<sc>J. D. Hooker</sc>, F.R.S. Demy 8vo, Part I., 475 pp.,
16<i>s</i>. Published under the auspices of the Government of
that colony. [<i>Part II. in the Press.</i>
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A compendious account of the plants of New Zealand and outlying islands,
published under the authority of the Government of that colony. The
present Part contains the Flowering Plants, Ferns, and Lycopods; the
Second Part, containing the remaining Orders of <i>Cryptogamia</i>, or
Flowerless Plants, with Index and Catalogues of Native Names and of
Naturalized Plants, will appear shortly.
.in 0
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FLORA AUSTRALIENSIS; a Description of the Plants of the Australian
Territory. By <sc>George Bentham</sc>, F.R.S., President of the Linnean
Society, assisted by <sc>Ferdinand Mueller</sc>, F.R.S., Government
Botanist, Melbourne, Victoria. Demy 8vo. Vol. I. 566 pp., and vol. II.
530 pp., 20<i>s</i>. each. Published under the auspices of the several
Governments of Australia. [<i>Vol. III. nearly ready.</i>
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Of this great undertaking, the present volumes, of more than a thousand
closely-printed pages, comprise about one-fourth. The materials are
derived not only from the vast collections of Australian plants brought
to this country by various botanical travellers, and preserved in the
herbaria of Kew and of the British Museum, including those hitherto
unpublished of Banks and Solander, of Captain Cook’s first Voyage, and
of Brown in Flinders’, but from the very extensive and more recently
collected specimens preserved in the Government Herbarium of Melbourne,
under the superintendence of Dr. Ferdinand Mueller. The descriptions are
written in plain English, and are masterpieces of accuracy and
clearness.
.in 0
.hr 20%
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FLORA HONGKONGENSIS; a Description of the Flowering Plants and Ferns of
the Island of Hongkong. By <sc>George Bentham</sc>, P.L.S. With a Map of
the Island. Demy 8vo, 550 pp., 16<i>s</i>. Published under the authority
of Her Majesty’s Secretary of State for the Colonies.
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The Island of Hongkong, though occupying an area of scarcely thirty
square miles, is characterized by an extraordinarily varied Flora,
partaking, however, of that of South Continental China, of which
comparatively little is known. The number of Species enumerated in the
present volume is 1056, derived chiefly from materials collected by Mr.
Hinds, Col. Champion, Dr. Hance, Dr. Harland, Mr. Wright, and Mr.
Wilford.
.in 0
.hr 20%
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FLORA OF THE BRITISH WEST INDIAN ISLANDS. By Dr. <sc>Grisebach</sc>,
F.L.S. Demy 8vo, 806 pp., 37<i>s</i>. 6<i>d</i>. Published under the
auspices of the Secretary of State for the Colonies.
.in 0
Containing complete systematic descriptions of the Flowering Plants and
Ferns of the British West Indian Islands, accompanied by an elaborate
index of reference, and a list of Colonial names.
.pn +1
.bn 458.png
.in 0
.hr 20%
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FLORA VITIENSIS; a Description of the Plants of the Viti or Fiji
Islands, with an Account of their History, Uses, and Properties. By Dr.
<sc>Berthold Seemann</sc>, F.L.S. Royal 4to, Parts I. to IV. each, 10
Coloured Plates, 15<i>s</i>. To be completed in 10 Parts.
.in 0
This work owes its origin to the Government Mission to Viti, to which
the author was attached as naturalist. In addition to the specimens
collected, the author has investigated all the Polynesian collections of
Plants brought to this country by various botanical explorers since the
voyage of Captain Cook.
.in 0
.hr 20%
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ILLUSTRATIONS OF THE NUEVA QUINOLOGIA OF PAVON, with Observations on the
Barks described. By <sc>J. E. Howard</sc>, F.L.S. With 27 Coloured
Plates by <sc>W. Fitch</sc>. Imperial folio, half-morocco, gilt edges,
£6. 6<i>s</i>.
.in 0
A superbly-coloured volume, illustrative of the most recent researches
of Pavon and his associates among the Cinchona Barks of Peru.
.in 0
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ILLUSTRATIONS OF SIKKIM-HIMALAYAN PLANTS, chiefly selected from Drawings
made in Sikkim, under the superintendence of the late <sc>J. F.
Cathcart</sc>, Esq., Bengal Civil Service. The Botanical Descriptions
and Analyses by Dr. <sc>J. D. Hooker</sc>, F.R.S. Imperial folio, 24
Coloured Plates and an Illuminated Title-page by <sc>W. Fitch</sc>, £5.
5<i>s</i>.
.in 0
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VICTORIA REGIA; or, Illustrations of the Royal Water Lily, in a series
of Figures chiefly made from Specimens flowering at Syon and at Kew, by
<sc>W. Fitch</sc>, with Descriptions by Sir <sc>W. J. Hooker</sc>,
F.R.S. Elephant folio, 21<i>s</i>.
.in 0
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THE LONDON JOURNAL OF BOTANY. Original Papers by eminent Botanists,
Letters from Botanical Travellers, etc. Vol. VII., completing the
Series. Demy 8vo, 23 Plates, 30<i>s</i>.
.in 0
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JOURNAL OF BOTANY AND KEW MISCELLANY. Original Papers by eminent
Botanists, Letters from Botanical Travellers, etc. Edited by Sir <sc>W.
J. Hooker</sc>, F.R.S. Vols. IV. to IX., Demy 8vo, 12 Plates, £1.
4<i>s</i>. A Complete Set of 9 vols., half-calf, <i>scarce</i>, £10.
16<i>s</i>.
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ICONES PLANTARUM. Figures, with brief Descriptive Characters and
Remarks, of New and Rare Plants, selected from the Author’s Herbarium.
By Sir <sc>W. J. Hooker</sc>, F.R.S. New Series, Vol. V., Royal 8vo, 100
plates, 31<i>s</i>. 6<i>d</i>.
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FERNS AND MOSSES.
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THE BRITISH FERNS; or, Coloured Figures and Descriptions,
with the needful Analyses of the Fructification and Venation, of
the Ferns of Great Britain and Ireland, systematically arranged. By Sir
<sc>W. J. Hooker</sc>, F.R.S. Royal 8vo, 66 Plates, £2. 2<i>s</i>.
.in 0
The British Ferns and their allies are illustrated in this work, from
the pencil of Mr. <sc>Fitch</sc>. Each Species has a Plate to itself, so
that there is ample room for the details, on a magnified scale, of
Fructification and Venation. The whole are delicately coloured by hand.
In the letterpress an interesting account is given with each species of
its geographical distribution in other countries.
.in 0
.hr 20%
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GARDEN FERNS; or, Coloured Figures and Descriptions, with the needful
Analyses of the Fructification and Venation, of a Selection of Exotic
Ferns, adapted for Cultivation in the Garden, Hothouse, and
Conservatory. By Sir <sc>W. J. Hooker</sc>, F.R.S. Royal 8vo, 64 Plates,
£2. 2<i>s</i>.
.in 0
A companion volume to the preceding, for the use of those who take an
interest in the cultivation of some of the more beautiful and remarkable
varieties of Exotic Ferns. Here also each Species has a Plate to itself,
and the details of Fructification and Venation are given on a magnified
scale, the Drawings being from the pencil of Mr. <sc>Fitch</sc>.
.in 0
.hr 20%
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FILICES EXOTICÆ; or, Coloured Figures and Description of Exotic Ferns,
chiefly of such as are cultivated in the Royal Gardens of Kew. By Sir
<sc>W. J. Hooker</sc>, F.R.S. Royal 4to, 100 Plates, £6. 11<i>s</i>.
.in 0
One of the most superbly illustrated books of Foreign Ferns that has
been hitherto produced. The Species are selected both on account of
their beauty of form, singular structure, and their suitableness for
cultivation.
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FERNY COMBES; a Ramble after Ferns in the Glens and Valleys of
Devonshire. By <sc>Charlotte Chanter</sc>. <i>Second Edition.</i> Fcp.
8vo, 8 coloured plates by Fitch, and a Map of the County, 5<i>s</i>.
.in 0
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HANDBOOK OF BRITISH MOSSES, containing all that are known to be Natives
of the British Isles. By the Rev. <sc>M. J. Berkeley</sc>, M.A., F.L.S.
Demy 8vo, pp. 360, 24 Coloured Plates, 21<i>s</i>.
.in 0
A very complete Manual, comprising characters of all the species, with
the circumstances of habitation of each; with special chapters on
development and structure, propagation, fructification, geographical
distribution, uses, and modes of collecting and preserving, followed by
an extensive series of coloured illustrations, in which the essential
portions of the plant are repeated, in every case on a magnified scale.
.pn +1
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SEAWEEDS.
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.hr 20%
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PHYCOLOGIA BRITANNICA; or, History of British Seaweeds, containing
Coloured Figures, Generic and Specific Characters, Synonyms and
Descriptions of all the Species of Algæ inhabiting the Shores of the
British Islands. By Dr. <sc>W. H. Harvey</sc>, F.R.S. Royal 8vo, 4
vols., 765 pp., 360 Coloured Plates, £6. 6<i>s</i>. Reissue in Monthly
Parts, each 2<i>s</i>. 6<i>d</i>.
.in 0
This work, originally published in 1851, at the price of £7.
10<i>s</i>., is still the standard work on the subject of which it
treats. Each Species, excepting the minute ones, has a Plate to itself,
with magnified portions of structure and fructification, the whole being
printed in their natural colours, finished by hand.
.hr 20%
.in 6
.ti -4
SYNOPSIS OF BRITISH SEAWEEDS, compiled from Dr. Harvey’s ‘<sc>Phycologia
Britannica</sc>.’ Small 8vo, 220 pp., 5<i>s</i>.
.in 0
A Descriptive Catalogue of all the British Seaweeds, condensed from the
‘Phycologia Britannica.’ It comprises the characters, synonyms,
habitats, and general observations, forming an extremely useful pocket
volume of reference.
.hr 20%
.in 6
.ti -4
PHYCOLOGIA AUSTRALICA; a History of Australian Seaweeds, comprising
Coloured Figures and Descriptions of the more characteristic Marine Algæ
of New South Wales, Victoria, Tasmania, South Australia and Western
Australia, and a Synopsis of all known Australian Algæ. By Dr.
<sc>Harvey</sc>, F.R.S. Royal 8vo, 5 vols., 300 Coloured Plates,
£7. 13<i>s</i>.
.in 0
This beautiful work, the result of an arduous personal exploration of
the shores of the Australian continent, is got up in the style of the
‘Phycologia Britannica’ by the same author. Each Species has a Plate to
itself, with ample magnified delineations of fructification and
structure, embodying a variety of most curious and remarkable forms.
.in 0
.hr 20%
.in 6
.ti -4
NEREIS AUSTRALIS; or, Algæ of the Southern Ocean, being Figures and
Descriptions of Marine Plants collected on the Shores of the Cape of
Good Hope, the extra-tropical Australian Colonies, Tasmania, New
Zealand, and the Antarctic Regions. By Dr. <sc>Harvey</sc>, F.R.S.
Imperial 8vo, 50 Coloured Plates, £2. 2<i>s</i>.
.in 0
A selection of Fifty Species of remarkable forms of Seaweed, not
included in the ‘Phycologia Australica,’ collected over a wider area.
.pn +1
.bn 461.png
.nf c
FUNGI.
.nf-
.hr 20%
.in 6
.ti -4
OUTLINES OF BRITISH FUNGOLOGY, containing Characters of above a Thousand
Species of Fungi, and a Complete List of all that have been described as
Natives of the British Isles. By the Rev. <sc>M. J. Berkeley</sc>, M.A.,
F.L.S. Demy 8vo, 484 pp., 24 Coloured Plates, 30<i>s</i>.
.in 0
Although entitled simply ‘Outlines,’ this is a good-sized volume, of
nearly 500 pages, illustrated with more than 200 Figures of British
Fungi, all carefully coloured by hand. Of above a thousand Species the
characters are given, and a complete list of the names of all the rest.
.in 0
.hr 20%
.in 6
.ti -4
THE ESCULENT FUNGUSES OF ENGLAND. Containing an Account of their
Classical History, Uses, Characters, Development, Structure, Nutritious
Properties, Modes of Cooking and Preserving, etc. By <sc>C. D.
Badham</sc>, M.D. Second Edition. Edited by <sc>F. Currey</sc>, F.R.S.
Demy 8vo, 152 pp., 12 Coloured Plates, 12<i>s</i>.
.in 0
A lively classical treatise, written with considerable epigrammatic
humour, with the view of showing that we have upwards of 30 Species of
Fungi abounding in our woods capable of affording nutritious and savoury
food, but which, from ignorance or prejudice, are left to perish
ungathered. “I have indeed grieved,” says the Author, “when reflecting
on the straitened condition of the lower orders, to see pounds of
extempore beefsteaks growing on our oaks, in the shape of <i>Fistulina
hepatica</i>; Puff-balls, which some have not inaptly compared to
sweetbread; <i>Hydna</i>, as good as oysters; and <i>Agaricus
deliciosus</i>, reminding us of tender lamb-kidney.” Superior coloured
Figures of the Species are given from the pencil of Mr. Fitch.
.in 0
.hr 20%
.in 6
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ILLUSTRATIONS OF BRITISH MYCOLOGY, comprising Figures and Descriptions
of the Funguses of interest and novelty indigenous to Britain. By Mrs.
<sc>T. J. Hussey</sc>. Royal 4to; First Series, 90 Coloured Plates, £7.
12<i>s</i>. 6<i>d</i>.; Second Series, 50 Coloured Plates,
£4. 10<i>s</i>.
.in 0
This beautifully-illustrated work is the production of a lady who, being
an accomplished artist, occupied the leisure of many years in
accumulating a portfolio of exquisite drawings of the more attractive
forms and varieties of British Fungi. The publication was brought to an
end with the 140th Plate by her sudden decease. The Figures are mostly
of the natural size, carefully coloured by hand.
.pn +1
.bn 462.png
.nf c
SHELLS AND MOLLUSKS.
.nf-
.hr 20%
.in 6
.ti -4
ELEMENTS OF CONCHOLOGY; an Introduction to the Natural History of
Shells, and of the Animals which form them. By <sc>Lovell Reeve</sc>,
F.L.S. Royal 8vo, 2 vols., 478 pp., 62 Coloured Plates,
£2. 16<i>s</i>.
.in 0
Intended as a guide to the collector of shells in arranging and naming
his specimens, while at the same time inducing him to study them with
reference to their once living existence, geographical distribution, and
habits. Forty-six of the plates are devoted to the illustration of the
genera of shells, and sixteen to shells with the living animal, all
beautifully coloured by hand.
.in 0
.hr 20%
.in 6
.ti -4
THE LAND AND FRESHWATER MOLLUSKS indigenous to, or naturalized in, the
British Isles. By <sc>Lovell Reeve</sc>, F.L.S. Crown 8vo, 295 pp., Map,
and 160 Wood-Engravings, 10<i>s</i>. 6<i>d</i>.
.in 0
A complete history of the British Land and Freshwater Shells, and of the
Animals which form them, illustrated by Wood-Engravings of all the
Species. Other features of the work are an Analytical Key, showing at a
glance the natural groups of families and genera, copious Tables and a
Map illustrative of geographical distribution and habits, and a chapter
on the Distribution and Origin of Species.
.in 0
.hr 20%
.in 6
.ti -4
CONCHOLOGIA ICONICA; or, Figures and Descriptions of the Shells of
Mollusks, with remarks on their Affinities, Synonymy, and Geographical
Distribution. <sc>By Lovell Reeve</sc>, F.L.S. Demy 4to, published
monthly in Parts, 8 Plates, carefully coloured by hand, 10<i>s</i>.
.in 0
Of this work, comprising illustrations of Shells of the natural size,
nearly 2000 Plates are published, but the plan of publication admits of
the collector purchasing it at his option in portions, each of which is
complete in itself. Each genus, as the work progresses, is issued
separately, with Title and Index; and an Alphabetical List of the
published genera, with the prices annexed, may be procured of the
publishers on application. The system of nomenclature adopted is that of
Lamarck, modified to meet the exigencies of later discoveries. With the
name of each species is given a summary of its leading specific
characters in Latin and English; then the authority for the name is
quoted, accompanied by a reference to its original description; and next
in order are its Synonyms. The habitat of the species is next given,
accompanied, where possible, by particulars of soil, depth, or
vegetation. Finally, a few general remarks are offered, calling
attention to the most obvious distinguishing peculiarities of the
species, with criticisms, where necessary, on the views of other
writers. At the commencement of the genus some notice is taken of the
animal, and the habitats of the species are worked up into a general
summary of the geographical distribution of the genus.
.pn +1
.bn 463.png
.sp 2
.nf c
CONCHOLOGIA ICONICA IN MONOGRAPHS.
.nf-
.fs 80%
.ta l:25 r:8 c:4 c:4 c:4
  Genera.           |    Plates. | £. | <i>s</i>. | <i>d</i>.
<sc>Achatina</sc> |         23 | 1 | 9 | 0
<sc>Achatinella</sc> |       6 | 0 | 8 | 0
<sc>Adamsiella</sc> |        2 | 0 | 3 | 0
<sc>Amphidesma</sc> |        7 | 0 | 9 | 0
<sc>Ampullaria</sc> |       28 | 1 | 15| 6
<sc>Anastoma</sc> |          1 | 0 | 1 | 6
<sc>Anatina</sc> |           4 | 0 | 5 | 6
<sc>Ancillaria</sc> |       12 | 0 | 15| 6
<sc>Anculotus</sc> |         6 | 0 | 8 | 0
<sc>Anomia</sc> |            8 | 0 | 10| 6
<sc>Arca</sc> |             17 | 1 | 1 | 6
<sc>Argonauta</sc> |         4 | 0 | 5 | 6
<sc>Artemis</sc> |          10 | 0 | 13| 0
<sc>Aspergillum</sc> |       4 | 0 | 5 | 6
<sc>Avicula</sc> |          18 | 1 | 3 | 0
<sc>Buccinum</sc> |         14 | 0 | 18 | 0
<sc>Bulimus</sc> |          89 | 5 | 12 | 0
<sc>Bullia</sc> |            4 | 0 | 5 | 6
<sc>Calyptræa</sc> |         8 | 0 | 10 | 6
<sc>Cancellaria</sc> |      18 | 1 | 3 | 0
<sc>Capsa</sc> |             1 | 0 | 1 | 6
<sc>Capsella</sc> |          2 | 0 | 3 | 0
<sc>Cardita</sc> |           9 | 0 | 11 | 6
<sc>Cardium</sc> |          22 | 1 | 8 | 0
<sc>Carinaria</sc> |         1 | 0 | 1 | 6
<sc>Cassidaria</sc> |        1 | 0 | 1 | 6
<sc>Cassis</sc> |           12 | 0 | 15 | 6
<sc>Cerithium</sc> |        20 | 1 | 5 | 6
<sc>Chama</sc> |             9 | 0 | 11 | 6
<sc>Chamostrea</sc> |        1 | 0 | 1 | 6
<sc>Chiton</sc> |           33 | 2 | 2 | 0
<sc>Chitonellus</sc> |       1 | 0 | 1 | 6
<sc>Chondropoma</sc> |      11 | 0 | 14 | 0
<sc>Circe</sc> |            10 | 0 | 13 | 0
<sc>Columbella</sc> |       37 | 2 | 7 | 0
<sc>Concholepas</sc> |       2 | 0 | 3 | 0
<sc>Conus</sc> |            56 | 3 | 11 | 0
<sc>Corbula</sc> |           5 | 0 | 6 | 6
<sc>Crania</sc> |            1 | 0 | 1 | 6
<sc>Crassatella</sc> |       3 | 0 | 4 | 0
<sc>Crenatula</sc> |         2 | 0 | 3 | 0
<sc>Crepidula</sc> |         5 | 0 | 6 | 6
<sc>Crucibulum</sc> |        7 | 0 | 9 | 0
<sc>Cyclophorus</sc> |      20 | 1 | 5 | 6
<sc>Cyclostoma</sc> |       23 | 1 | 9 | 0
<sc>Cyclotus</sc> |          9 | 0 | 11 | 6
<sc>Cymbium</sc> |          26 | 1 | 13 | 0
<sc>Cypræa</sc> |           27 | 1 | 14 | 6
<sc>Cypricardia</sc> |       2 | 0 | 3 | 0
<sc>Cytherea</sc> |         10 | 0 | 13 | 0
<sc>Delphinula</sc> |        5 | 0 |  6 | 6
<sc>Dione</sc> |            12 | 0 | 15 | 6
<sc>Dolium</sc> |            8 | 0 | 10 | 6
<sc>Donax</sc> |             9 | 0 | 11 | 6
<sc>Eburna</sc> |            1 | 0 | 1 | 6
<sc>Erato</sc> |             3 | 0 | 4 | 0
<sc>Eulima</sc> |            6 | 0 | 8 | 0
<sc>Fasciolaria</sc> |       7 | 0 | 9 | 0
<sc>Ficula</sc> |            1 | 0 | 1 | 6
<sc>Fissurella</sc> |       16 | 1 | 0 | 6
<sc>Fusus</sc> |            21 | 1 | 6 | 6
<sc>Glauconome</sc> |        1 | 0 | 1 | 6
<sc>Halia</sc> |             1 | 0 | 1 | 6
<sc>Haliotis</sc> |         17 | 1 | 1 | 6
<sc>Harpa</sc> |             4 | 0 | 5 | 6
<sc>Helix</sc> |           210 | 13 | 5 | 0
<sc>Hemipecten</sc> |        1 | 0 | 1 | 6
<sc>Hemisinus</sc> |         6 | 0 | 8 | 0
<sc>Hinnites</sc> |          1 | 0 | 1 | 6
<sc>Hippopus</sc> |          1 | 0 | 1 | 6
<sc>Ianthina</sc> |          5 | 0 | 6 | 6
<sc>Io</sc> |                3 | 0 | 4 | 0
<sc>Isocardia</sc> |         1 | 0 | 1 | 6
<sc>Leptopoma</sc> |         8 | 0 | 10 | 6
<sc>Lingula</sc> |           2 | 0 | 3 | 0
<sc>Lithodomus</sc> |        5 | 0 | 6 | 6
<sc>Littorina</sc> |        18 | 1 | 3 | 0
<sc>Lucina</sc> |           11 | 0 | 14 | 0
<sc>Lutraria</sc> |          5 | 0 | 6 | 6
<sc>Mactra</sc> |           21 | 1 | 6 | 6
<sc>Malleus</sc> |           3 | 0 | 4 | 0
<sc>Mangelia</sc> |          8 | 0 | 10 | 6
<sc>Marginella</sc> |       27 | 1 | 14 | 6
<sc>Melania</sc> |          59 | 3 | 14 | 6
<sc>Melanopsis</sc> |        3 | 0 | 4 | 0
<sc>Melatoma</sc> |          3 | 0 | 4 | 0
<sc>Meroe</sc> |             3 | 0 | 4 | 0
<sc>Mesalia & Eglisia</sc> | 1 | 0 | 1 | 6
<sc>Mesodesma</sc> |         4 | 0 | 5 | 6
<sc>Meta</sc> |              1 | 0 | 1 | 6
<sc>Mitra</sc> |            39 | 2 | 9 | 6
<sc>Modiola</sc> |          11 | 0 | 14 | 0
<sc>Monoceros</sc> |         4 | 0 | 5 | 6
<sc>Murex</sc> |            37 | 2 | 7 | 0
<sc>Myadora</sc> |           1 | 0 | 1 | 6
<sc>Myochama</sc> |          1 | 0 | 1 | 6
<sc>Mytilus</sc> |          11 | 0 | 14 | 0
<sc>Nassa</sc> |            29 | 1 | 17 | 0
<sc>Natica</sc> |           30 | 1 | 18 | 0
<sc>Nautilus</sc> |          6 | 0 | 8 | 0
<sc>Navicella & Latia</sc> | 8 | 0 | 10 | 6
<sc>Nerita</sc> |           19 | 1 | 4 | 0
<sc>Neritina</sc> |         37 | 2 | 7 | 0
<sc>Oliva</sc> |            30 | 1 | 18 | 0
<sc>Oniscia</sc> |           1 | 0 | 1 | 6
<sc>Orbicula</sc> |          1 | 0 | 1 | 6
<sc>Ovulum</sc> |           14 | 0 | 18 | 0
<sc>Paludina</sc> |         11 | 0 | 14 | 0
<sc>Paludomus</sc> |         3 | 0 | 4 | 0
<sc>Partula</sc> |           4 | 0 | 5 | 6
<sc>Patella</sc> |          42 | 2 | 13 | 0
<sc>Pecten</sc> |           35 | 2 | 4 | 6
<sc>Pectunculus</sc> |       9 | 0 | 11 | 6
<sc>Pedum</sc> |             1 | 0 | 1 | 6
<sc>Perna</sc> |             6 | 0 | 8 | 0
<sc>Phasianella</sc> |       6 | 0 | 8 | 0
<sc>Phorus</sc> |            3 | 0 | 4 | 0
<sc>Pinna</sc> |            34 | 2 | 3 | 0
<sc>Pirena</sc> |            2 | 0 | 3 | 0
<sc>Placunanomia</sc> |      3 | 0 | 4 | 0
<sc>Pleurotoma</sc> |       40 | 2 | 10 | 6
<sc>Psammobia</sc> |         8 | 0 | 10 | 6
<sc>Psammotella</sc> |       1 | 0 | 1 | 6
<sc>Pterocera</sc> |         6 | 0 | 8 | 0
<sc>Pterocyclos</sc> |       5 | 0 | 6 | 6
<sc>Purpura</sc> |          13 | 0 | 16 | 6
<sc>Pyramidella</sc> |       6 | 0 | 8 | 0
<sc>Pyrula</sc> |            9 | 0 | 11 | 6
<sc>Ranella</sc> |           8 | 0 | 10 | 6
<sc>Ricinula</sc> |          6 | 0 | 8 | 0
<sc>Rostellaria</sc> |       3 | 0 | 4 | 6
<sc>Sanguinolaria</sc> |     1 | 0 | 1 | 6
<sc>Scarabus</sc> |          3 | 0 | 4 | 0
<sc>Sigaretus</sc> |         5 | 0 | 6 | 6
<sc>Simpulopsis</sc> |       2 | 0 | 3 | 0
<sc>Siphonaria</sc> |        7 | 0 | 9 | 0
<sc>Solarium</sc> |          3 | 0 | 4 | 0
<sc>Soletellina</sc> |       4 | 0 | 5 | 6
<sc>Spondylus</sc> |        18 | 1 | 3 | 0
<sc>Strombus</sc> |         19 | 1 | 4 | 0
<sc>Struthiolaria</sc> |     1 | 0 | 1 | 6
<sc>Tapes</sc> |            13 | 0 | 16 | 6
.pn +1
.bn 464.png
<sc>Telescopium</sc> |       1 | 0 | 1 | 6
<sc>Terebra</sc> |          27 | 1 | 14 | 6
<sc>Terebellum</sc> |        1 | 0 | 1 | 6
<sc>Terebratula & Rynchonella</sc> | 11 | 0 | 14 | 0
<sc>Thracia</sc> |           3 | 0 | 4 | 0
<sc>Tornatella</sc> |        4 | 0 | 5 | 6
<sc>Tridacna</sc> |          8 | 0 | 10 | 6
<sc>Trigonia</sc> |          1 | 0 | 1 | 6
<sc>Triton</sc> |           20 | 1 | 5 | 6
<sc>Trochita</sc> |          3 | 0 | 4 | 0
<sc>Trochus</sc> |          16 | 1 | 0 | 6
<sc>Tugonia</sc> |           1 | 0 | 1 | 6
<sc>Turbinella</sc> |       13 | 0 | 16 | 6
<sc>Turbo</sc> |            13 | 0 | 16 | 6
<sc>Turritella</sc> |       11 | 0 | 14 | 0
<sc>Umbrella</sc> |          1 | 0 | 1 | 6
<sc>Venus</sc> |            26 | 1 | 13 | 0
<sc>Vertagus</sc> |          5 | 0 | 6 | 6
<sc>Vitrina</sc> |          10 | 0 | 13 | 0
<sc>Voluta</sc> |           22 | 1 | 8 | 0
<sc>Vulsella</sc> |          2 | 0 | 3 | 0
<sc>Zizyphinus</sc> |        8 | 0 | 10 | 6
.ta-
.fs 100%
.in 0
.hr 20%
.in 6
.ti -4
CONCHOLOGIA SYSTEMATICA; or, Complete System of
Conchology. By <sc>Lovell Reeve</sc>, F.L.S. Demy 4to, 2 vols. pp. 537,
300 Plates, £8. 8<i>s</i>. coloured.
.in 0
Of this work only a few copies remain. It is a useful companion to the
collector of shells, on account of the very large number of specimens
figured, as many as six plates being devoted in some instances to the
illustration of a single genus.
.nf c
INSECTS.
.nf-
.hr 10%
.in 6
.ti -4
CURTIS’ BRITISH ENTOMOLOGY. Illustrations and Descriptions of the Genera
of Insects found in Great Britain and Ireland, containing Coloured
Figures, from nature, of the most rare and beautiful species, and, in
many instances, upon the plants on which they are found.
Royal 8vo, 8 vols., 770 Plates, coloured, £21.
.in 0
.nf c
Or in separate Monographs.
.nf-

.ta l:15 r:4 c:4 c:4 c:4
  Orders.   |      Plates.  | £. | <i>s</i>. | <i>d</i>.
<sc>Aphaniptera</sc>  | 2   | 0  | 2  | 0
<sc>Coleoptera</sc>   | 256 | 8  | 0  | 0
<sc>Dermaptera</sc>   | 1   | 0  | 1  | 0
<sc>Dictyoptera</sc>  | 1   | 0  | 1  | 0
<sc>Diptera</sc>      | 103 | 3  | 5  | 0
<sc>Hemiptera</sc>    | 32  | 1  | 1  | 0
<sc>Homoptera</sc>    | 21  | 0  | 14 | 0
<sc>Hymenoptera</sc>  | 125 | 4  | 0  | 0
<sc>Lepidoptera</sc>  | 193 | 6  | 0  | 0
<sc>Neuroptera</sc>   | 13  | 0  | 9  | 0
<sc>Omaloptera</sc>   | 6   | 0  | 4  | 6
<sc>Orthoptera</sc>   | 5   | 0  | 4  | 0
<sc>Strepsiptera</sc> | 3   | 0  | 2  | 6
<sc>Trichoptera</sc>  | 9   | 0  | 6  | 6
.ta-
.in 0
.pi
‘Curtis’ Entomology,’ which Cuvier pronounced to have “reached the
ultimatum of perfection,” is still the standard work on the Genera of
British Insects. The Figures executed by the author himself, with
wonderful minuteness and accuracy, have never been surpassed, even if
equalled. The price at which the work was originally published was £43.
16<i>s</i>.
.hr 20%
.in 6
.ti -4
INSECTA BRITANNICA; Vols. II. and III., Diptera. By
<sc>Francis Walker</sc>, F.L.S. 8vo, each, with 10 plates, 25<i>s</i>.
.in 0
.pn +1
.bn 465.png
.nf c
TRAVELS.
.nf-
.hr 10%
.in 6
.ti -4
THREE CITIES IN RUSSIA. By Professor <sc>C. Piazzi
Smyth</sc>, F.R.S. Post 8vo, 2 Vols., 1016 pp. Maps and Wood-Engravings,
26<i>s</i>.
.in 0
The narrative of a tour made in the summer of 1859 by the Astronomer
Royal of Scotland, to the cities of St. Petersburg, Moscow, and
Novgorod.
.in 0
.hr 20%
.in 6
.ti -4
THE GATE OF THE PACIFIC. By Commander <sc>Bedford Pim</sc>, R.N. Demy
8vo, 430 pp., with 7 Maps and 8 Tinted Chromo-Lithographs, 18<i>s</i>.
.in 0
A spirited narrative of Commander Pim’s explorations in Central America,
made with the view of establishing a new overland route from the
Atlantic to the Pacific Oceans, through English enterprise, by way of
Nicaragua.
.in 0
.hr 20%
.in 6
.ti -4
TRAVELS ON THE AMAZON AND RIO NEGRO; with an Account of the Native
Tribes, and Observations on the Climate, Geology, and Natural History of
the Amazon Valley. By <sc>Alfred R. Wallace</sc>. Demy 8vo, 541 pp.,
with Map and Tinted Frontispiece, 18<i>s</i>.
.in 0
A lively narrative of travels in one of the most interesting districts
of the Southern Hemisphere, accompanied by Remarks on the Vocabularies
of the Languages, by Dr. <sc>R. G. Latham</sc>.
.hr 20%
.in 6
.ti -4
WESTERN HIMALAYA AND TIBET; a Narrative of a Journey through the
Mountains of Northern India, during the Years 1847-1848. By Dr.
<sc>Thomson</sc>, F.R.S. Demy 8vo, 500 pp., with Map and Tinted
Frontispiece, 15<i>s</i>.
.in 0
A summary of the physical features, chiefly botanical and geological, of
the country travelled over in a mission undertaken for the Indian
Government, from Simla across the Himalayan Mountains into Tibet, and to
the summit of the Karakoram Mountains; including also an excellent
description of Kashmir.
.in 0
.hr 20%
.in 6
.ti -4
TRAVELS IN THE INTERIOR OF BRAZIL, principally
through the Northern Provinces and the Gold and Diamond Districts,
during the years 1836-1841. By Dr. <sc>George Gardner</sc>, F.L.S.
Second Edition. Demy 8vo, 428 pp., with Map and Tinted Frontispiece,
12<i>s</i>.
.in 0
The narrative of an arduous journey, undertaken by an enthusiastic
naturalist, through Brazil Proper, Bahia, Maranham, and Pernambuco,
written in a lively style, with glowing descriptions of the grandeur of
the vegetation.
.pn +1
.bn 466.png
.nf c
ANTIQUARIAN.
.nf-
.hr 10%
.in 6
.ti -4
MAN’S AGE IN THE WORLD ACCORDING TO
HOLY SCRIPTURE AND SCIENCE. By an <sc>Essex Rector</sc>. Demy
8vo, 264 pp., 8<i>s</i>. 6<i>d</i>.
.in 0
The Author, recognizing the established facts and inevitable deductions
of Science, and believing all attempts to reconcile them with the
commonly received, but erroneous, literal interpretation of Scripture,
not only futile, but detrimental to the cause of Truth, seeks an
interpretation of the Sacred Writings on general principles, consistent
alike with their authenticity, when rightly understood, and with the
exigencies of Science. He treats in successive chapters of The Flint
Weapons of the Drift,—The Creation,—The Paradisiacal State,—The
Genealogies,—The Deluge,—Babel and the Dispersion; and adds an
Appendix of valuable information from various sources.
.hr 20%
.in 6
.ti -4
THE ANTIQUITY OF MAN. An Examination of Sir Charles Lyell’s recent Work.
By <sc>S. R. Pattison</sc>, F.G.S. Second Edition. 8vo, 1<i>s</i>.
.in 0
.hr 20%
.in 6
.ti -4
HORÆ FERALES; or, Studies in the Archæology of the Northern Nations. By
the late <sc>John M. Kemble</sc>, M.A. Edited by Dr. <sc>R. G.
Latham</sc>, F.R.S., and <sc>A. W. Franks</sc>, M.A. Royal 4to, 263 pp.,
34 Plates, many coloured, £3. 3<i>s</i>.
.in 0
The principal material left by the late Mr. Kemble for this work was an
extensive and interesting series of drawings; and the thirty-four Plates
consist of a selection from these, with some important additions,
described and figured under the superintendence of the Director of the
Society of Antiquaries. The objects delineated comprise Stone Implements
and Weapons, Axes and Hammers, Bronze Implements, Arrow-Heads, Spears,
Daggers, Swords, Shields, Helmets and Trumpets, Iron Daggers and Swords,
Enamelled Horse-Trappings, Bronze Horse-Trappings, Fibulæ, Armlets,
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A MANUAL OF BRITISH ARCHÆOLOGY. By <sc>Charles Boutell</sc>, M.A.
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THE BEWICK COLLECTOR. A Descriptive Catalogue of the Works of
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WHITNEY’S “CHOICE OF EMBLEMS;” a Facsimile Reprint by Photo-lithography.
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A beautiful and interesting reproduction by Photo-lithography of one of
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SHAKESPEARE’S SONNETS, Facsimile, by Photo-Zincography,
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A SURVEY OF THE EARLY GEOGRAPHY OF WESTERN EUROPE, as connected with the
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and Edifices. By <sc>Henry Lawes Long</sc>, Esq. 8vo, 6<i>s</i>.
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MISCELLANEOUS.
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MANUAL OF CHEMICAL ANALYSIS, Qualitative and Quantitative; for the Use
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PHOSPHORESCENCE; or, the Emission of Light by Minerals,
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DICTIONARY OF NATURAL HISTORY TERMS, with their Derivatives, including
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THE ZOOLOGY OF THE VOYAGE OF H.M.S. SAMARANG, under the command of
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LITERARY PAPERS ON SCIENTIFIC SUBJECTS. By the late Professor <sc>Edward
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THE PLANETARY AND STELLAR UNIVERSE. A Series of Lectures. With
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OUTLINES OF ELEMENTARY BOTANY, as Introductory
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ON THE FLORA OF AUSTRALIA, its Origin, Affinities, and Distribution;
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GUIDE TO COOL-ORCHID GROWING. By <sc>James Bateman</sc>, Esq., F.R.S.,
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A TREATISE ON THE GROWTH AND FUTURE
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THE CONWAY. Narrative of a Walking Tour in North Wales; accompanied by
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THE ARTIFICIAL PRODUCTION OF FISH. By <sc>Piscarius</sc>.
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<b>Commencement of a New Series of Natural History
for Beginners.</b>
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BRITISH BEETLES; an Introduction to the study of our Indigenous
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BRITISH SPIDERS; an Introduction to the study of the
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BRITISH BEES; an Introduction to the study of the Natural History and
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BRITISH BUTTERFLIES AND MOTHS; an Introduction to the study of
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BRITISH FERNS: an Introduction to the study of the Ferns,
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Isles. With Chapters on the Structure, Propagation, Cultivation,
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BRITISH SEAWEEDS; an Introduction to the study of our Native Marine
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.in 0
<l>⸪</l> A good introductory series of books on British Natural History
for the use of students and amateurs is still a <i>desideratum</i>.
Those at present in use have been too much compiled from antiquated
sources; while the figures, copied in many instances from sources
equally antiquated, are far from accurate, the colouring of them having
become degenerated through the adoption, for the sake of cheapness, of
mechanical processes.

The present series will be entirely the result of original research
carried to its most advanced point; and the figures, which will be
chiefly engraved on steel, by the artist most highly renowned in each
department for his technical knowledge of the subjects, will in all
cases be drawn from actual specimens, and coloured separately by hand.
.nf c
LONDON:

LOVELL REEVE & CO., 5 HENRIETTA STREET, COVENT GARDEN.
.nf-
.pb
.sp 4
\_
.ul
.it Transcriber’s Notes:
.ul indent=1
.it The drawing for Fig. 5 (on page 26 of the printed book) was corrected\
to show that (b) is the face and the two arrows pointing to the compound eyes\
are marked (d).
.it Missing or obscured punctuation were corrected.
.it Typographical errors were silently corrected.
.it On page 250, the number of the Genus was wrong. It was changed from<br>\
“Genus 2. <sc>Anthophora</sc>, <i>Latreille</i>.” to <br>\
“Genus 11. <sc>Anthophora</sc>, <i>Latreille</i>.”
.it On page 211, in the description of Genus 5,\
the notation for the sexes shows the female symbol inverted. There is\
no other use of the symbol in this manner, so it was corrected.\
(#Plate V.:PLATE-V# fig. 1 ♂ ♀.)
.it Spelling and hyphenation were made consistent when a predominant\
form was found in this book; otherwise it was not changed.
.ul-
.ul-