This etext was transcribed by Les Bowler





                                 THE LORE
                             OF THE HONEY-BEE


                                * * * * *

                                    BY

                             TICKNER EDWARDES

                                * * * * *

                                AUTHOR OF
                       “THE BEE-MASTER OF WARRILOW”

                                * * * * *

                      WITH TWENTY-FOUR ILLUSTRATIONS

                                * * * * *

                              THIRD EDITION

                                * * * * *

                              METHUEN & CO.
                           36 ESSEX STREET W.C.
                                  LONDON

                                * * * * *

_First Published_     _August 1908_
_Second Edition_      _October 1908_
_Third Edition_           _1909_

                                * * * * *

                                  TO THE
                   CHAIRMAN OF THE BRITISH BEE-KEEPERS’
                               ASSOCIATION,
                   THOMAS WILLIAM COWAN, F.L.S., ETC.,
                     TO WHOSE LABOURS AND RESEARCHES
                  THE WRITER, AND ALL OTHER BEE-KEEPERS,
                     ARE UNDER A LASTING OBLIGATION.





                                 CONTENTS

    CHAPTER                                                     PAGE
             INTRODUCTION: THE OLDEST CRAFT UNDER THE SUN         ix
         I.  THE ANCIENTS AND THE HONEY-BEE                        1
        II.  THE ISLE OF HONEY                                    18
       III.  BEE-MASTERS IN THE MIDDLE AGES                       28
        IV.  AT THE CITY GATES                                    50
         V.  THE COMMONWEALTH OF THE HIVE                         67
        VI.  EARLY WORK IN THE BEE-CITY                           84
       VII.  THE GENESIS OF THE QUEEN                             94
      VIII.  THE BRIDE-WIDOW                                     117
        IX.  THE SOVEREIGN WORKER-BEE                            127
         X.  A ROMANCE OF ANATOMY                                146
        XI.  THE MYSTERY OF THE SWARM                            174
       XII.  THE COMB-BUILDERS                                   195
      XIII.  “WHERE THE BEE SUCKS”                               219
       XIV.  THE DRONE AND HIS STORY                             233
        XV.  AFTER THE FEAST                                     248
       XVI.  THE MODERN BEE-FARM                                 257
      XVII.  BEE-KEEPING AND THE SIMPLE LIFE                     267




LIST OF ILLUSTRATIONS

THE COMB-BUILDERS                              _Frontispiece_
                                                  FACING PAGE
MOSES RUSDEN’S BEE-BOOK                                    28
BUTLER’S “BEES MADRIGALL”                                  34
JOHN THORLEY IN HIS STUDY                                  40
INVERTED STRAW HIVE                                        50
AN OLD SUSSEX BEE-HOUSE                                    60
COMB-FRAME FROM MODERN HIVE                                72
WINTER IN THE BEE-GARDEN                                   86
DRONE-BROOD AND WORKER-BROOD                               94
QUEEN-BEE LAVING                                          106
A QUEEN-CELL                                              110
THE HONEY-BEE, IN FACT AND FANCY                          128
BROOD-COMB, SHOWING ALL STAGES OF BEE-LIFE                140
THE BEE-NURSERY                                           166
A SWARM IN MAY                                            174
A MAMMOTH SWARM                                           178
HIVING THE SWARM                                          182
THE SWARM HIVED                                           188
HONEYCOMB CONSTRUCTION                                    206
COMB BUILT UPWARDS                                        216
IN THE STOREHOUSE                                         230
QUEEN-BEE IN OFF-SEASON                                   248
BAD BEEMANSHIP                                            264
A FOREST APIARY                                           272




INTRODUCTION
THE OLDEST CRAFT UNDER THE SUN


ONE of the oldest and prettiest fables in ancient mythology is that which
deals with the origin of the honey-bee.  It was to Melissa and her sister
Amalthea, the beautiful daughters of the King of Crete, that the god
Jupiter was entrusted by his mother Ops, when Saturn, his
father—following his custom of devouring his children at birth—sought to
make the usual meal of this, his latest offspring.

The story is variously rendered by ancient writers.  Some say that bees
already existed in the world, and that Amalthea was only a goat, whose
milk served to nourish the baby-god, in addition to the honey that
Melissa obtained from the wild bees in the cave where Jupiter lay hidden.
Another account has it that the bees themselves were drawn to his place
of concealment by the noise made by his nurses, who beat continually on
brazen pans to keep the sound of his infant lamentations from the ears of
his ravening sire.  Thenceforward the bees took over the charge of him,
bringing him daily rations of honey until he grew up and was able to hold
his own in the Olympian theogony.  In either case Jupiter showed his
gratitude towards his preservers in true celestial fashion.  It was a
very ancient belief among the earliest writers that, in the single
instance of the honey-bee, the ordinary male-and-female principle was
abrogated, and that the propagation of the species took place by
miraculous means.  In explanation of this, we are told it was a special
gift from Jupiter in acknowledgment of the unique service rendered him.
In one version of the fable, and in the words of a famous bee-master who
wrote in 1657, “Jupiter, for so great a benefit, bestowed on his nurses
for a reward that they should have young ones, and continue their kind,
without wasting themselves in venery.”  In the other, and probably much
older form of the legend, Melissa, the beautiful Princess of Crete, was
herself changed by the god into a bee, with the like immaculate
propensities; and thenceforward the work of collecting honey for the food
of man—that honey which, down to a very few centuries from the present
time, was universally believed to be a miraculous secretion from
heaven—was confided to her descendants.

Apart, however, from the old dim tales of ancient mythology, where there
is a romance to account for all beginnings of the world and everything
upon it, any attempt to trace back the art of bee-keeping to its earliest
inception cannot fail to bring us to the conclusion that it is inevitably
and literally the oldest craft under the sun.  Thousands of years before
the Great Pyramid was built, bee-keeping must have been an established
and traditional occupation of man.  It must have been common knowledge,
stamped with the authority of the ages, that a beehive, besides its
toiling multitudes, contained a single large ruling bee, divine examplar
of royalty; for how else would the bee have been chosen to represent a
King in the Egyptian hieroglyphic symbols?  But it is not only within the
limit of historical times, however remote, that evidences of bee-culture,
or at least of man’s use of honey and wax in his daily life, are to be
found or inferred.  So far back as the Bronze Age it is certain that wax
was used in casting ornaments and weapons.  A model of the implement was
first made in some material that would perish under heat.  This was
imbedded in clay, and the model burnt out, after which the mould thus
formed was filled with the molten metal.  These models, no doubt, were in
many cases carved out of wood; but it is certain that another and more
ductile material was often used.  Bronze ornaments have been found with
thumb-marks upon them, obviously chance impressions on the original model
faithfully reproduced.  And the substance of these models could hardly
have been anything else than beeswax.

But speculation on the probable antiquity of bee-keeping need not stop
here.  The best authorities estimate that human life has existed on the
earth for perhaps a hundred thousand years.  The earliest traces of man,
far back in the twilight of palæolithic times, reveal him as a hunting
and fighting animal, in whom the instinct to cultivate the soil or
domesticate the creatures about him had not yet developed.  Later on in
the Stone Age—but still in infinitely remote times—it is evident that he
tamed several creatures, such as the ox, the sheep, and the goat, keeping
them in confinement, and killing them for food as he required it, instead
of resorting to the old ceaseless roaming after wild game.  At this time,
too, he took to sowing corn, and even baking or charring some sort of
bread.  It must be remembered that if a hundred thousand years is to be
set down as the limit of man’s life on the earth, probably the
development of other living creatures, as well as most forms of vegetable
life, took place immeasurably earlier.  The chances are that the world of
trees and flowering-plants, in which aboriginal man moved, differed in no
great degree from the world of green things surrounding human life
to-day.  It is certain that the apple, pear, raspberry, blackberry, and
plum were common fruits of the country-side in the later Stone Age, for
seeds of all these have been found in conjunction with neolithic remains.
Evidence of the existence of the beech and elm—the latter a famous
pollen-yielder—has been discovered at a very much earlier time.  All the
conditions favourable to insect-life must have been present in the world
ages before man appeared in it; and insect-life undoubtedly existed then
in a high state of development.  It would be as unreasonable, therefore,
not to infer that the honey-bee was ready on the earth with her stores of
sweet-food for man, as that man did not speedily discover that store, and
make it an object of his daily search, just as he went forth daily to
hunt and kill four-footed game.

There is, of course, a great deal of difference between a chance
discovery of a wild-bee’s nest, as a common and expected incident in a
day’s foraging, and the systematic preservation and tending of beehives
as a source of daily food.  While it is reasonable to assume that the
first men used honey as an article of diet, it is probable that they were
a wandering race, never halting for long in the same locality, and
therefore unlikely to be bee-keepers in the accepted sense of the word.
They depended, no doubt, on the wild honey-stores which they happened to
find in their entourage for the time being.  But the first sign of
civilisation must have been the gradual lessening of this nomadic
instinct.  Tribes would come to take permanent possession of districts
rich in the game, as well as the fruits and tubers, necessary for their
daily food.  At the same time the haunts of the wild bees would be
discovered, their enemies kept down or driven away, the places where the
swarms pitched annually noted, and thus the first apiary would have been
founded, probably long before any attempt at cultivation of the soil or
domestication of the wild creatures for food was made.

Biologists generally regard hunting as the oldest human enterprise under
the sun; but, adopting their well-known method of deductive reasoning, it
seems possible to make out a rather better case for beemanship in this
category.  The primæval huntsman must have found much difficulty in
bringing down his game, and still more in securing it, when maimed, but
yet capable of eluding final capture.  For this purpose some sort of
retrieving animal, fleeter of foot and more cunning than its master, must
have been even more necessary in primæval times than it is in the modern
days of the gun.  There seems to be no evidence of man indicating the
most elementary civilisation without sure signs also that he had trained
and used some sort of dog to help him in his daily food-forays.  But man
must have existed long before civilisation can be said to have come
within age-long distance of him.  In these times, beset with enemies, he
must have built his hut nest-like in some high, impregnable tree, out of
reach of night-prowling foes; and it is scarcely conceivable that the dog
was his companion under these conditions.  More probably he lived, for
the most part, on fruits and honey-comb, and such of the small creatures
as he could capture with his naked hands.  Thus, in all likelihood, the
first hunter was a bee-hunter.  Eolithic man may have had his own rocky
fastness or clump of hollow trees, where the wild bees congregated; and
with the coming of each summer he may have followed his swarms through
the glades of primæval forests as zealously as any bee-keeper of the
present day.

Speculation of this kind is necessarily far-fetched and fantastic, and
can be but half seriously undertaken with so small and inconsiderable a
creature as the honey-bee.  But it is interesting from one special, and
not often adopted, point of view.  There is no more fascinating study
than that of the ancient civilisations of the world.  Egypt 10,000 years
ago, Babylon probably still earlier, China that seems to have stopped at
finite perfection in all ways that matter little, ages before the time of
Abraham.  But all these are of mushroom growth compared with the
antiquity of bee-civilisation.  It is only a tale of Lilliput, of a
microscopic people living and moving on a mimic stage.  Yet, perhaps tens
of thousands of years before man had made fire, or chipped a flint into
an axe-head, these winged nations had evolved a perfect plan of life, and
solved social problems such as are only just beginning to cloud the
horizon of human existence in the twentieth century.  And they, and their
intricate communal polity, have not passed away into dust, as the great
human nations of bygone ages have done, and as those of the present day
may be destined to do, for all we can tell.

Will a time come when we must learn from the honey-bee or perish?  We
have still probably a few thousand years wherein to think it out, and
prepare for it; but unless the world comes to an end, or human
increasing-and-multiplying comes to an end, one earth will eventually
become too small to hold us.  With this thought in mind, a study of the
honey-bee and the arrangements of hive-life, takes on a new interest.
Supposing that the political economy of a beehive may be taken as a
foreshadowing of the ultimate human state, there is no denying that we
get a glimpse into an eminently disquieting state of things, at least
from the masculine point of view.  We see matriarchy triumphant; the
females holding supreme control in the State, and not only initiating all
rules of public conduct, but designing and carrying through all public
works.  The male is reduced to the one indispensable office of sex, and
even a single exercise of this is vouchsafed only to a few in a thousand.
But to create the large and permanent army of workers necessary in a
State such as this, and to recruit it wholly from the females, it became
necessary to revise all rules of life from their very foundation.  There
must have been a great renunciation among the bees, male and female
alike, when the resolve was made to leave the whole duty of procreation
of their kind to one pair alone of their number—one pair only out of
every thirty thousand or so—in order that the rest could devote
themselves to ceaseless, sexually unincommoded toil.

This may be imagined as following on a great discovery, an epoch-making
discovery, changing the whole face and future of bee-life—how, by the
nursing and feeding of the young grub of the female bee, she could be
atrophied into a mere, sexless, over-intellectual labourer, or glorified
into a creature lacking, it is true, all initiative and almost all mental
power, but possessing a body capable of mothering the whole nation.  Here
is socialistic political economy carried to its sternest, most logical
conclusions.  All is sacrificed for the good of the State.  The
individual is nothing: the race is everything.  “Thorough” is the motto
of the honey-bee, and she drives every theory home to its last notch.
Men are pleased to call themselves bee-masters; but the best of them can
do no more than study the ways of their bees, learn in what directions it
is their will to move, and then try to smooth the way for them.  The
worker-bees collectively are the whole brains in the business, and the
bee-keeper is as much the slave of the conditions and systems they have
inaugurated as they are themselves; while the queen-bee is the most
willing, and, at certain seasons, the most laborious slave of them all.

It is useless to deny that bee-polity, with its stern dead-reckoning of
ingenuity, its merciless adherence to the demands of a system perfected
through countless ages, has its unpleasant and even its revolting
aspects.  Nature is always wonderful, but not always admirable; and a
close study of the Life within the Hive brings out this truth perhaps
more clearly than with any other form of life, humanity not excepted.
Absolute communism implies incidental cruelty: it is only under a system
of bland political compromise, of neighbourly give and take, that justice
and mercy can ever be yoke-fellows.  In the republic of bees, nothing is
allowed to persist that is harmful or useless to the general good.  Every
individual in the hive seems to acquiesce in this common principle—either
by choice or compulsion—from the mother-bee down to the last lazy drone,
born into the brief plenty of waning summer days.  In the height of the
honey-flow, the State demands a storehouse filled to the brim; and every
bee keeps herself to the task unceasingly until death from overwork comes
upon her, and her last load never reaches the hive.  If the queen-bee
grows old, or her powers of egg-laying prematurely fail, she is
ruthlessly slaughtered, and her place filled by another specially raised
by the workers to meet this contingency during her lifetime and in her
full view.  Drones are bred in plenty, plied with the richest provender
in the hive, and allowed to wanton through their days of insatiate
appetite, so that no young queen may go forth on her nuptial flight
unchallenged.  But when the last princess is happily mated, and safely
home again in the warm, awaiting cluster, every drone is callously done
to death, or driven out of the hive to perish.  If hard times threaten,
or the supply of stores is arrested, the old and worn-out members of the
hive are exterminated, breeding is stopped, the unborn young are torn
from their cradle-cells and destroyed, so that there may be as few mouths
as possible to fill in the lean days to come.  The signs of dawning
prosperity or adversity are watched for, and the working population of
the hive is either increased or checked, just as future probabilities
seem to indicate.

But the most bewildering, most uncanny thing of all about this
bee-republic is the fact that, in it, has been successfully solved the
problem of the balance of the sexes.  While all other creatures in the
universe bring forth their kind, male and female, in what seems a
haphazard, unpremeditated way, these mysterious hive-people cause their
queen-mother to give them either sons or daughters according to the needs
of the community.  They lead her to the drone-cells, and she forthwith
deposits eggs that hatch out infallibly as drones; and in the combs
specially made wherein to rear the aborted females, the workers, the
queen is caused to lay eggs that just as assuredly produce only the
worker-bee.

It is the oldest civilisation in the world, this wonderful commonwealth
of the bee-people, and it is not unprofitable to examine it in the light
of ideas which are at present only flickering up uncertainly on the
distant path, but which might well broaden out some day into general
conflagration.  It is conceivable that a time existed when the conditions
of bee-life were very different from those we see to-day.  Bees have
drawn together into vast communities, just as men are slowly, but surely,
gathering into cities.  A time may come when individual existence outside
the city may be as impracticable for men, as life has become for separate
bee-families away from the hive; and then there may arise a purely
masculine dilemma.  It may be that once the magnificent drone was of real
consequence in domestic affairs.  Bee-life may have consisted of
numberless small families, each with its deep-voiced, ponderous
father-bee, its fruitful mother, and its tribe of youngsters growing up,
and in time setting forth to establish homes for themselves.  There is no
reason why each one of the thirty or forty thousand pinched virgins in a
hive should not have become a fully developed, prolific queen-bee, if
only the right food, in sufficient quantity, had been given her in her
larval state.  But the need for the single large community arose.  The
system of a single national mother was instituted.  The great
renunciation was made, for good or ill.  And then the trouble, from the
masculine point of view, began.

It must be borne in mind that, strictly speaking, the honey-bee does not,
and never did, possess a sting.  What is commonly known as her sting is
really an ovipositor, and it is as such that it is almost exclusively
used by the modern queen-bee in every hive to-day.  But when the first
hordes of worker-bees were brought into the world, reduced by the science
of starvation to little more than sexless sinews and brains, they seemed
to have conceived a terrible revenge on their ancestors.  The useless
ovipositor was turned into a weapon of offence, against which the drone’s
magnificent panoply of sound and fury availed him nothing.  Matriarchy
was established at the point of the living sword.  A pitiless logic
overran everything.  Intolerance of all the bright asides of life—the
wine, the dance, the merry talk, and genial tarryings by the path,
beloved of all drones, bee or human—darkened the day.  And the result is
only more honey, a vaster storehouse filled to the brim with
never-to-be-tasted sweets, at a cost unfathomable, when the old larder
would have sufficed for every real need, and life might still have been
merry and leisurely.

It is only a fable, far-fetched, fantastic, as any told to the Caliph in
the “Arabian Nights.”  But there, again, the woman had her way, like the
bee-woman before, and some day she and her kind may get it on a more
ambitious scale.  And then—what of the sword that was once a
sewing-needle?

    “Some are content with saying that they do it by Instinct, and let it
    drop there; but I believe God has given us something farther to do,
    than to invent names for things, and then let them drop.”—A. I. ROOT.




CHAPTER I
THE ANCIENTS AND THE HONEY-BEE


    “While great Cæsar hurled War’s lightnings by high Euphrates, . . .
    even in that season I, Virgil, nurtured in sweet Parthenope, went in
    the ways of lowly Quiet.”—_Fourth Book of the Georgics_.

IT was in Naples—the Parthenope of the Ancients—that the “best poem by
the best poet” was written, nearly two thousand years ago.  Essentially
an apostle of the Simple Life, the cultured and courtly Virgil chose to
live a quiet rural existence among his lemon-groves and his bee-hives,
when he might have dwelt in the very focus of honour at the Roman
capital; where his friend and patron, Mæcenas, the prime minister of
Octavian, kept open house for all the great in literature and art.

Modern bee-keepers, athirst for the Americanisation of everything, give
little heed nowadays to the writings of one whom Bacon has called “the
chastest poet and royalest that to the memory of man is known.”  And yet,
if the question were asked, What book should first be placed in the hands
of the beginner in apiculture to-day? no wiser choice than this fourth
book of the Georgics could be made.

For Virgil goes direct to the great heart of the matter, which is the
same to-day as it was two thousand years ago.  The bee-keeper must be
first of all a bee-lover, or he will never succeed; and Virgil’s love for
his bees shines through his book from beginning to end.  Of course, in a
writer so deeply under the spell of Grecian influences, it is to be
expected that such a work would faithfully reproduce most of the errors
immortalised by Aristotle some three hundred years before.  But these
only serve to bring the real value of the book into stronger relief.
Through the rich incrustation of poetic fancy, and the fragrant
mythological garniture, we cannot fail to see the true bee-lover writing
directly out of his own knowledge, gathered at first hand among his own
bees.

Virgil knew, and lovingly recorded, all that eyes and ears could tell him
about bee-life; and it is only within the last two hundred years or so
that any new fact has been added to Virgil’s store.  All the writers on
apiculture, from the earliest times down to the eighteenth century, have
done little else than pass from hand to hand the fantastic errors of the
ancient “bee-fathers,” adding generally still more fantastic speculations
of their own.  And until Schirach got together his little band of patient
investigators of hive-life about a hundred years ago, Virgil’s fourth
Georgic—considered as a practical guide to bee-keeping—was still very
nearly as well-informed and up-to-date as any.

It is not, however, for its technical worth that the book is to be
recommended to the apiarian tiro of to-day.  All that has become
hopelessly old-fashioned with the passing of the ancient strawskep in the
last generation.  The intrinsic value of Virgil’s writings lies in their
atmosphere of poetry and romance, which ought to be held inseparable, now
as ever, from a craft which is probably the most ancient in the world.
Almost alone among country occupations to-day, bee-keeping can retain
much of its entrancing old-world flavour, and yet live and thrive.  But
if the modern tendency to make the usual unlovely transatlantic thing of
British honey-farming is to be checked, nothing will do more to that end
than an early instillation of Virgil’s beautiful philosophy.

Dipping into this fascinating poem—with its delightful blend of carefully
told fact, and rich fancy, and quaint garnerings from records then
extant, but now lost in the ages—we can reconstruct for ourselves a
picture of Virgil’s country retreat near “sweet Parthenope,” where he
loitered, and mused, and wrought the faultless hexameters of the Georgics
with so much care and labour, that the work took seven years to
accomplish—which is at the rate of less than a line a day.

Virgil’s house stood, probably, on the wooded slope above the town of
Naples, deep set in orange-groves and lemon-plantations, and in full
view, to the north, of the snow-pinnacled Apennines, and, southward, of
the blue waters of the Bay.  Vesuvius, too, with its eternal menace of
grey smoke, rose dark against the morning sun only a few leagues onward;
and, at its foot, the doomed cities nestled, Pompeii and Herculaneum,
then with still a hundred years of busy life to run.

Bee-hives in Virgil’s day—as we can gather from certain ancient Roman
bas-reliefs still in existence—were of a high, peaked, dome pattern, and
they were made of stitched bark, or wattled osiers, as he himself tells
us.  Many of the directions he gives as to their situation and
surroundings are still golden rules for every bee-keeper.  The
bee-garden, he says, must be sheltered from winds, and placed where
neither sheep nor butting kids may trample down the flowers.  Trees must
be near for their cool shade, and to serve as resting-places when “the
new-crowned kings lead out their earliest swarms in the sweet
spring-time.”  He tells us to place our hives near to water, or where a
light rivulet speeds through the grass; and we are to cast into the water
“large pebbles and willow-branches laid cross-wise, that the bees, when
drinking, may have bridges to stand on, and spread their wings to the
summer sun.”

Virgil’s method of hiving a swarm is almost identical with that followed
by old-fashioned beemen to this day.  The hive is to be scoured with
crushed balm and honeywort, and then you are to “make a tinkling round
about, and clash the cymbals of the Mother”—that is, of the goddess
Cybele.  The bees will forthwith descend, he tells us, and occupy the
prepared nest.  When the honey-harvest is taken, you are first to
sprinkle your garments and cleanse your breath with pure water, and then
to approach the hives “holding forth pursuing smoke in your hand.”  And
the old-time bee-man of to-day takes his mug of small-beer as a necessary
rite, and washes himself before handling his hives.

But perhaps the great charm of the fourth Georgic consists, not in its
nearness to truth about bee-life, but in the continual reference to the
beautiful myths, and hardly less attractive errors, of immemorial times,
copied so faithfully by mediæval writers, but not apt to be heard of by
the learner of to-day unless he reads the old books.

Virgil begins his poem by speaking of “heaven-born honey, the gift of
air,” in allusion to the belief that the nectar in flowers was not a
secretion of the plant itself, but fell like manna from the skies.  He
seriously warns his readers of the disastrous effect of echoes on the
denizens of a hive, and of the hurtful nature of burnt crab-shells; and
tells us that in windy weather bees will carry about little pebbles as
counterpoises, “as ships take in sand-ballast when they roll deep in the
tossing surge.”

He was a firm believer in the Divine origin of bees.  To all the ancients
the honey-bee was a perpetual miracle, as much a sign and token of an
omnipotent Will, set in the flowery meadows, as is the rainbow, to modern
pietists, set in the sky.  While all other creatures in the universe were
seen to produce their kind by coition of the sexes, these mysterious
winged people seemed to be exempt from the common law.  Virgil, copying
from much older writers, says, “they neither rejoice in bodily union, nor
waste themselves in love’s languors, nor bring forth their young by pain
of birth; but alone from the leaves and sweet-scented herbage they gather
their children in their mouths, thus sustaining their strength of tiny
citizens.”

Just as marvellous, however—at least to the modern entomologist—will
appear the belief, widespread among the ancients, and shared by Virgil,
that swarms of bees can be spontaneously generated from the decaying
carcass of an ox.  Virgil professes to derive his account of the matter
from an old Egyptian legend, and he gives careful directions to
bee-keepers of what he seems never to doubt is an excellent method for
stocking an apiary.  There is a very old translation of the passage in
the fourth book of the Georgics relating to these self-generated bees,
which is worth quoting, if only on account of its quaint mediæval savour.
“First, there is found a place, small and narrowed for the very use, shut
in by a leetle tiled roof and closed walles, through which the light
comes in askant through four windowes, facing the four pointes of the
compass.  Next is found a two-year-old bull-calf, whose crooked horns bee
just beginning to bud; the beast his nose-holes and breathing are
stopped, in spite of his much kicking; and after he hath been thumped to
death, his entrails, bruised as they bee, melt inside his entire skinne.
This done, he is left in the place afore-prepared, and under his sides
are put bitts of boughes, and thyme, and fresh-plucked rosemarie.  And
all this doethe take place at the season when the zephyrs are first
curling the waters, before the meades bee ruddy with their spring-tide
colours, and before the swallow, that leetle chatterer, doethe hang her
nest again the beam.  In time, the warm humour beginneth to ferment
inside the soft bones of the carcase; and wonderful to tell, there appear
creatures, footless at first, but which soon getting unto themselves
winges, mingle together and buzz about, joying more and more in their
airy life.  At last, burst they forth, thick as rain-droppes from a
summer cloude, thick as arrowes, the which leave the clanging stringes
when the nimble Parthians make their first battel onset.”

For a study in the persistence of delusions, this affords us some very
promising material.  In the first place, the generation of bees from
putrescent matter is, and must always have been, an impossibility.  If
there is one thing that the honey-bee abhors more than another, it is
carrion of any description.  Indeed, putrid odours will often induce a
stock of bees to forsake its hive altogether; so it cannot even be
supposed that bees would venture near the scene of Virgil’s malodorous
experiment, and thus give rise to the belief that they were nurtured
there.  But not only was this practice a recognised and established thing
in Virgil’s time, but entire credence was placed in it throughout the
Middle Ages down, in fact, to so late a time as the seventeenth century.
It is on record that the experiment was carried through with complete
success by a certain Mr. Carew, of Anthony, in Cornwall, at an even later
date still.

The practice, moreover, was of infinitely greater antiquity than even
Virgil supposed.  He was probably right in giving it an Egyptian origin,
and this alone may date it back thousands of years.  In Egypt the custom
had a curious variant.  The ox was placed underground, with its horns
above the surface of the soil.  Then, when the process of generation was
presumed to be complete, the tips of the horns were sawn off, and the
bees are said to have issued from them, as out of two funnels.

Nearly all the ancient writers, with the exception of Aristotle, mention
the practice in some form or other.  Varro, writing half a century before
Virgil, says, “it is from rotten oxen that are born the sweet bees, the
mothers of honey.”  Ovid gives the story of the Egyptian shepherd
Aristæus as enlarged upon by Virgil, and adds some speculations of his
own.  He suggests that the soul of the ox is converted into numberless
bee-souls as a punishment to the ox for his lifelong depredations amongst
the flowers and herbage, the bee being a creature that can only do good
to, and cannot injure, vegetation.

Manifestly, where there is so general, and so widely independent a
corroboration of a story, some explanation must exist, which will alike
bear out the truth and condone, or at least extenuate, the error.  A
careful examination of the various accounts of bee-swarms having been
produced from decaying animal matter reveals one common omission in
regard to them.  All the writers are agreed that dense clouds of bee-like
insects are evolved; and speak of these as escaping into the air and
flying off, presumably in the immediate quest of honey.  But no one bears
testimony to honey having been actually gathered by these insects, nor is
it recorded that they were ever induced to take possession of a hive, as
ordinary swarms of bees will readily do.  They are spoken of more as
enriching the neighbourhood generally, by augmenting the number of bees
abroad, than as conducing to the well-being of any particular bee-owner.

Herein, no doubt, is to be found a clue to the whole mystery.  If it was
not the honey-bee—the _Apis mellifica_ of modern naturalists—which was
generated from the entombed body of Virgil’s unfortunate bull-calf, what
other insect, closely resembling a bee, could have been produced under
those conditions?  The answer has been readily given by several
naturalists of our own time.  There is a fly, called the drone-fly, which
exactly meets the difficulty.  He is so like the ordinary honey-bee that
on one occasion, and that recently, he was mistaken for the genuine
insect by one calling himself a bee-expert, and holding a diploma
officially entitling him to the use of that name.  This drone-fly would
have behaved almost exactly as Virgil’s calf-bred bees are said to have
behaved, and according to the various descriptions of the matter given by
other writers living before and since.  He would issue forth in a dense
cloud immediately his natal prison-doors were opened, and he would
comport himself in other ways exactly as enumerated.  Finally, he would
beget himself joyously to the open country, as a swarm of bees would do;
and once more the Virgilian theory of bee-production would meet with its
seeming verification.

But having gone thus far with the drone-fly, it is difficult to resist
going a little farther.  We cannot leave him in the ignominious company
of slaughtered oxen, but must give him his due of more lordly
associations.  “Out of the eater came forth meat, and out of the strong
came forth sweetness.”  When Samson went down to Timnath on his fateful
mission of wooing, and saw the carcass by the way beset with a cloud of
insects, we need not cast any doubt on his genuine belief that they were
honey-bees.  He propounded his riddle in all good faith, and the form of
it can very well be explained as a not undue stretch of allowable poetic
privilege.  But that the creatures he saw hovering about the dead lion
were really bees, and that Samson actually obtained honey from the
carcass, is not to be accepted without the exercise of a faith that is
undistinguishable from credulity.  Many attempts have been made to
explain away the difficulties of the problem on natural lines, but they
are all alike unconvincing.  There is little doubt at this time that the
part of the story dealing with the honey is nothing but a deft
embroidering on the original legend by some later chronicler; and that
the insects which were seen about the dead lion were really drone-flies
generated in the same fashion as those from Virgil’s ox.

Perhaps no better general idea is to be obtained of the condition of
bee-knowledge among the ancients than from the writings of Pliny, the
Elder, who was born in A.D. 23.  He, too, deals with the ox-born bees;
but the reader’s interest will centre for the most part in Pliny’s grave
and careful account of the life and customs of the honey-bee, as commonly
accepted among his contemporaries.  Very few indeed of the facts he so
picturesquely details have any real foundation in truth.  Like nearly all
the classic writers, he had little more accurate knowledge of the life
within the hive than we have of the bottom of the Pacific Ocean But he
made up for this deficiency, as did all others of his time, by dipping
largely into the stores of his own fancy as well as those of other
people.

His account of the origin and nature of honey is quaintly pleasant
reading.  “Honey,” he says, “is engendered from the air, mostly at the
rising of the constellations, and more especially when Sirius is shining;
never, however, before the rising of the Vergiliæ, and then just before
daybreak. . . .  Whether it is that this liquid is the sweat of the
heavens, or whether a saliva emanating from the stars, or a juice exuding
from the air while purifying itself—would that it had been, when it comes
to us, pure, limpid, and genuine, as it was when first it took its
downward descent.  But, as it is, falling from so vast a height,
attracting corruption in its passage, and tainted by the exhalations of
the earth as it meets them; sucked, too, as it is, from off the trees and
the herbage of the fields, and accumulated in the stomachs of the bees,
for they cast it up again through the mouth; deteriorated besides by the
juices of flowers, and then steeped within the hives and subjected to
such repeated changes:—still, in spite of all this, it affords us by its
flavour a most exquisite pleasure, the result, no doubt, of its æthereal
nature and origin.”

Modern bee-keepers ascribe the varying quality in honey nowadays to the
prevalence of good or bad nectar-producing crops during the time of its
gathering, or to its admixture with that bane of the apiculturist—the
detestable honey-dew.  But Pliny set this down entirely to the influence
of the stars.  When certain constellations were in the ascendant, bad
honey resulted, because their exudations were inferior.  Honey collected
after the rising of Sirius—the famous honey-star of all the ancient
writers—was invariably of good quality.  But when Sirius ruled the skies
in conjunction with the rising of Venus, Jupiter, or Mercury, honey was
not honey at all, but a sort of heavenly nostrum or medicament, which not
only had the power to cure diseases of the eyes and bowels, and
ameliorate ulcers, but actually could restore the dead to life.  Similar
virtues were possessed by honey gathered after the appearance of a
rainbow, provided—as Pliny is careful to warn us—that no rain intervenes
between the rainbow and the time of the bees’ foraging.

On the life-history of the honey-bee Pliny wrote voluminously.  He tells
us of a nation of industrious creatures ruled over by a king,
distinguished by a white spot on his forehead like a diadem.  These
king-bees were of three sorts—red, black, and mottled; but the red were
superior to all the rest.  He appears to accept, though guardedly, the
old legend that sexual intercourse among bees was divinely abrogated in
favour of a system of procreation originating in the flowers.  He
mentions a current belief—which must have been the boldest of heresies at
the time—that the king-bee is the only male, all the rest being females.
The existence of the drones he explains away very ingeniously.  “They
would seem,” he says, “to be a kind of imperfect bee, formed the very
last of all; the expiring effort, as it were, of worn-out and exhausted
old age, a late and tardy offspring.”

The discipline in the hives was, according to Pliny, a very rigid affair.
Early in the morning the whole population was awakened by one bee
sounding a clarion.  The day’s work was carried through on strict
military lines, and at evening the king’s bugler was again to be observed
flying about the hive, uttering the same shrill fanfaronade by which the
colony was roused at daybreak.  After this note was heard, all work
ceased for the day, and the hive became immediately silent.

His book abounds in curious details as to hive-life.  When foraging bees
are overtaken in their expeditions by nightfall, they place themselves on
their backs on the ground, to protect their wings from the dew, thus
lying and watching until the first sign of dawn, when they return to the
colony.  At swarming-time, the king-bee does not fly, but is carried out
by his attendants.  Pliny warns intending bee-keepers not to place their
hives within sound of an echo, this being very injurious to the bees;
but, he adds, the clapping of hands and tinkling of brass afford bees
especial delight.  He ascribes to them an astonishing longevity, some
living as long as seven years.  But the hives must be placed out of the
reach of frogs, who, it seems, were fond of breathing into hives, this
causing great mortality among its occupants.  When bees need artificial
food, they are to be supplied with raisins or dried figs beaten to a
pulp, carded wool steeped in wine, hydromel, or the raw flesh of poultry.
Wax, Pliny says, is best clarified by first boiling it in sea-water, and
then drying it in the light of the moon, for whiteness.  And in taking
honey from the hives, a person must be well washed and clean.
Malefactors are cautioned against approaching a hive of bees at any time.
Bees, he assures us, have a particular aversion to a thief.

To the latter-day practical bee-keeper, all these minute details given by
the classic writers read very like useless and cumbersome nonsense; and
it seems matter for wonder that the bees contrived to exist at all under
such ingeniously complicated mismanagement, born, as it was, of an
ignorance flawed by scarcely a single ascertained fact.  But the truth
stands out pretty clearly that bee-keeping two thousand years ago was
really a very large and important industry.  One apiary is mentioned by
Varro as yielding five thousand pounds of honey yearly, while the annual
produce of another brought in a sum of ten thousand sesterces.  Pliny
mentions the islands of Crete and Cyprus, and the coast-country of
Africa, as producing honey in great abundance.  Sicily was famous for the
good quality of its beeswax, but Corsica seems to have been one of the
main sources of this.  When the island was subject to the Romans, it is
said that a tribute of two hundred thousand pounds’ weight of wax was
yearly exacted from it.  This, however, is such an astounding figure that
it must be taken with a certain caution.

Evidently the bees in the ancient world managed their business in fairly
good fashion, in spite of the ignorance of their masters, or at least of
the ancient chroniclers _de re rustica_.  But it should always be borne
in mind that the writers on husbandry and kindred subjects were seldom
practical men.  With the single exception, perhaps, of Virgil’s
“Georgicon,” these old books relating to apiculture bear unmistakable
evidence of being, for the most part, merely compilations from writings
still more ancient, or heterogeneous gatherings together of hearsays
_and_ current fables of the time.  It is certain that the men who were
actually engaged in the craft of bee-keeping, and who knew most about it,
wrote nothing at all.  Probably they concerned themselves very little
with the myths and fables of bee-craft, and owed their success to hard,
practical, everyday experience, which is the surest, and perhaps the
only, guide to-day.




CHAPTER II
THE ISLE OF HONEY


IF we are to accept all that the old Roman historians have put on record
to the glory of their race, we must believe that their conquering legions
found everywhere barbarism, and left in its place the seeds of a high
civilisation—high, at least, in the general acceptance of the word in
those lurid, moving days.

But it may well be questioned whether the Britain that Cæsar first knew
was as barbaric as it has been painted.  We are accustomed to look upon
Cæsar’s account of his earliest view of Albion—of Eilanban, the White
Island, as the Britons themselves called it—as the first glance
vouchsafed to us into the history of our own land.  But this is very far
from being the truth.  British history begins with the record of the
first voyage of the Phoenicians, who, adventuring farther than any other
of their intrepid race, chanced upon the Scilly Isles and the
neighbouring coast of Cornwall, and thence brought back their first cargo
of tin.

And how long ago this is who shall say?  The whereabouts of the
Phoenician Barat-Anac, the Country of Tin, remained a secret probably for
ages, jealously guarded by these ancient mariners, the first true seamen
that the world had ever known.  They were expert navigators, venturing
enormous distances oversea, even in King Solomon’s time; and that was a
thousand years before the advent of Cæsar.  In all likelihood they had
been in frequent communication with the Britons centuries before the
Greeks took to searching for this wonderful tin-bearing land, and still
longer before the name Barat-Anac became corrupted into the Britannia of
the Romans.  And it is hardly to be supposed that a people of so ancient
a civilisation, and of so great a repute in the sciences and refinements
of life, as the Phoenicians—a people from whom the early Greeks
themselves had learned the art and practice of letters—could remain in
touch, century after century, with a nation like the Britons without
affecting in them enormous improvement and development in every way that
would appeal to so high-mettled and competent a race.

For high-mettled and capable the Britons were even in those old, dim,
far-off days.  Cæsar’s account of them, read between the lines, accords
ill with the commonly accepted notion of a horde of savages, pigging
together in reed hovels, and daubing their naked bodies blue to strike
terror into the equally savage minds of their island adversaries.  We get
a glimpse of a people much farther advanced in the arts of peace and war.
In all probability they clothed themselves at ordinary times,
picturesquely enough, in the furs of the wild animals, with which the
island abounded; and it was only in war-time that they stripped and
painted.  Old prints have familiarised us with the sight of the sailors
of Drake and Nelson stripped much in the same way; and the blue paint of
Druidical times is not divided by so great a gulf as the ages warrant
from the scarlet cloth and glittering brass-ware of nineteenth-century
fighting-men.  As armourers the ancient Britons must have been not
immeasurably inferior to the Romans, and we are told that they excelled
in at least one difficult craft, the making of all sorts of basket-ware.

But there is other testimony, apart from Cæsar’s, in favour of the view
that they were by no means a barbarous people.  Diodorus Siculus, who was
Cæsar’s contemporary, speaks of them as possessing an integrity of
character even superior to that commonly obtaining among the Romans; and
Tacitus, writing about a century later, ascribes to them great alertness
of apprehension, as well as high mental capacity.  Protected as they were
by the sea, it is probable that war entered to no large extent into their
lives, and they were essentially a pastoral people.  The cultured and
daring Phoenician traders are certain to have prospected the coast much
farther eastward than is recorded, and thus to have materially hastened
British advance in civilisation—at least, as far as the southern tribes
were concerned.

It has been claimed—on what evidence it is difficult to determine—that
the Romans, besides teaching the Britons all other arts of manufacture
and husbandry, introduced the practice of bee-culture into the conquered
isles.  But Pliny, giving an account of the voyages of Pytheas, which are
supposed to have been undertaken some three hundred years before Cæsar
ever set foot here, mentions the Geographer of Marseilles as landing in
Britain, and finding the people brewing a drink from wheat and honey.
There is, however, another source of testimony on this point, of
infinitely greater antiquity than any yet enumerated.  Long before the
Phoenician sailors discovered their tin-country, there were bards in
Eilenban—the White Island—hymning the prowess of their Celtic heroes and
the traditional doings of their race.  These old wild songs were handed
down from singer to singer through the ages, and many of them, still
extant among the records of the Welsh bards, must be of unfathomable
antiquity.  These profess to describe the state of Britain from the very
earliest beginnings of the human race.  And in some of them, which are
seemingly among the oldest, Britain is called the Isle of Honey, because
of the abundance of wild bees everywhere in the primæval woods.  There
would be little profit, and no little folly, in seeking to invest these
old traditions with any more than their due significance.  But there is
much in a name.  And it may be conjectured that if Britain was known
among the early Druidical bards as the Isle of Honey the natural
conditions giving rise to the name were still prevalent, and reflected
immemorially in the life of the people, when Cæsar first saw them
crowding the white cliffs above him, a huge-limbed, ruddy-locked,
war-like race.  He records that they possessed their herds of tame cattle
and their cultivated fields; and it is reasonable to suppose that the
hives of wattled osier that Virgil wrote of a century later had their
ancient counterpart of woven basket hives in the British villages of the
day.

No doubt the Romans, during their second and permanent occupation, which
did not take place until a hundred years after, taught the Britons their
own methods of bee-management, and improved in numberless ways on the
practice of the craft, which, among the British, was probably a very
simple and rough-and-ready affair.  But it was not until the Romans had
gone, and the Anglo-Saxon rule was fairly established in the Island, that
bee-keeping seems to have become one of the recognised national
industries.  The records bearing on the social life of the people at that
time are necessarily broken and scanty; but it is certain that honey,
with its products, had become an important article of diet among all
classes, high and low.  It is difficult—here in the present time, when
cane and beet-sugar, and even chemical sweetening agents, are in constant
and universal use—to realise that, from the remotest times down to the
fifteenth and sixteenth centuries, there was practically no other
sweet-food of any description, except honey, in the world; and to
estimate, therefore, what a prominent place in the industries of each
country bee-keeping must then have occupied.  There was nothing else but
honey for all purposes, and it is constantly mentioned in the old monkish
chronicles and the curious manuscript cookery-books that have survived
from the Middle Ages.

It is true that the sugar-cane was known as far back as the first century
A.D.  Strabo, writing just before the commencement of the Christian Era,
relates how Nearchus, who was Admiral of the Fleet to Alexander the
Great, made an important voyage of discovery in the Indian Ocean, and
brought back news of the wonderful “honey-bearing reed,” which he found
in use among the natives of India.  There is a record that the Spaniards
brought the sugar-cane from the East, and planted it in Madeira early in
the fifteenth century.  Thence its cultivation spread to the West Indies
and South America, during that and the following century.  Throughout the
Middle Ages it was in very restricted use among the richest and noblest
families in Europe, Venice being then the centre of its distribution.
But cane-sugar was little else than a costly luxury of diet, or a vehicle
in medicine, even among the highest in the land, until well into the
seventeenth century, when it slowly began to oust honey from the popular
favour.  The chances are, however, that the middle and lower classes of
England possessed, and could afford, no other sweetening agent but honey,
for any purpose, down to about three hundred years ago.

Among the Anglo-Saxons the beehives supplied the whole nation, from the
King down to the poorest serf, not only with an important part of their
food, but with drink and light as well.  We read of mead being served at
all the royal banquets, and in common use in every monastery.  Even in
those far-off days there were wayside taverns where drink was retailed;
and the chief potion was mead, although a kind of ale was also brewed.
No priest was allowed to enter these hostelries, but this could scarcely
have been a great deprivation, as the home allowance of mead was a
sufficiently generous one.  Ethelwold’s allowance to each half-dozen of
his monks at dinner was a sextarium of mead, which, in modern measure,
would be probably several gallons.

There were three kinds of liquor brewed from honey in Anglo-Saxon times.
The commonest, or mead proper, which may be taken as the usual drink of
the masses, was made by steeping in water the crushed refuse of the combs
after the honey had been pressed from them.  This would be strained and
set aside in earthen vessels until it fermented and became mead.  And the
longer it was kept, the more potent grew the liquor.  Another kind, made
from honey, water, and the juice of mulberries, was called Morat; and
this, presumably, was the beverage of the more well-to-do.  A third
concoction, known as Pigment, was brewed from the purest honey, flavoured
with spices of different sorts, and received an additional lacing of some
kind of wine.  Probably this was the mead served at the royal table.  The
office of King’s Cup-bearer could have been no sinecure in those days,
for it was the custom of Anglo-Saxon monarchs to entertain their
courtiers at four banquets daily, and the quantities of liquor which the
old records tell us were consumed on these occasions seem incredible,
even in the annals of such a deep-drinking race.  Not the least valuable
outcome of the Norman Conquest, as far as the national temperance was
concerned, must have been the reform instituted in these Court orgies by
William the First, who reduced their number to a single state banquet
daily.

If it may be supposed that the reign of Harold marked the summit of
popularity for our good old English honey-brew, it is equally certain
that with the coming of the Normans began its slow decline in the
national estimation.  Following in the trail of Duke William’s
nondescript army came the traders, with their outlandish liquors from the
grape; and wine must soon have taken the place of the Saxon mead, first
among the foreign nobles, and later among the native thanes.  From that
day mead has steadily declined in vogue, and to-day mead-making is
practically a lost art, surviving only among a few old-fashioned folk
here and there in remote country places.

But it is still to be obtained; and those of us who have had the good
fortune to taste good old mead, well matured in the wood, are sure to
feel a regret that no determined effort is being made to rehabilitate it
in the national favour.  Perhaps there is no more wholesome drink in the
world, and certainly none requiring less technical skill in the making.
All the ancient books on bee-keeping give receipts for its manufacture,
differing only in the variety of foreign ingredients added for its
improvement, or, as we prefer to believe, to its degradation.  For the
finest mead can be brewed from pure honey and water alone, and any
addition of spices or other matter serves only to destroy its unique
flavour.  Some of the sixteenth and seventeenth century bee-masters were
renowned in their day for their mead-brewing; and one of the foremost of
them claims for his potion that it was absolutely indistinguishable, by
the most competent judges, from old Canary Sack.  He gives careful
directions for the manufacture of his mead; and these can be, and have,
indeed, recently been, followed with complete success.  This mead, when
kept for a number of years, froths into the glass like champagne, but
stills at once, leaving the glass lined with sparkling air-bells.  It is
of a pale golden colour, and has a bouquet something like old cider; but
its flavour is hardly to be compared with any known liquor of the present
time.  It is interesting, however, to have its originator’s authority for
its close resemblance to Canary Sack, as this gives a clue to the
intrinsic qualities of a wine long since passed out of the popular ken.




CHAPTER III
BEE-MASTERS IN THE MIDDLE AGES


STUDENTS of old books on the honey-bee are generally struck with two very
remarkable characteristics about them—their invariable fine old classic
and romantic flavour, and their ingenious leavening of a great mass of
quite obvious fable by a very small modicum of enduring fact.

It is difficult to realise, until one has delved deep into these curious
old records, how completely they are dyed through and through with the
picturesque, but mainly erroneous, ideas of the ancient classic
bee-fathers.  The writers were, almost without exception, earnest,
practical men, whose chief interest in life was the study and pursuit of
their craft.  But they seem, one and all, to have laboured under the idea
that it was their bounden duty to uphold everything written about bees by
the old Greek and Roman _litterati_, and that it would be the rankest
heresy to advance any new truth, garnered from their individual
experience, unless it could be supported by ample testimony from the same
infallible source.

                    [Picture: Moses Rusden’s Bee-book]

They seemed to look upon the works of Aristotle, Virgil, Pliny, and the
rest, as so many divine revelations of the mystery of bee-craft,
all-sufficing, finitely perfect; and they continually quoted from them in
support of their own contentions, or in refutation of the statements of
others, much as teachers of religion refer doubters to Bible texts.  The
bee-masters of the Middle Ages were, however, not alone in adopting this
peculiar attitude of mind.  It seems to have been the prevailing habit of
the time with all classes.  One might almost be justified in concluding
that the study of nature in those days had no other object with these
inveterate old classicians but to support what had already been set down
by their revered oracles.  It was enough that a thing had been written in
Greek or Latin in the literary youth of the world; it was immaculate—the
first and last word on the question; and if their personal observations
seemed at variance with any statement of the old-world writers, then the
contradiction was only an apparent one, and could, no doubt, be easily
resolved by a more learned exponent of these bee-scriptures of ancient
days.

It is certainly, at first glance, a matter for wonder that men could pass
their whole lives in the pursuit of the craft, and yet manage to preserve
uncorrupted a faith which seems so readily, and at so many points,
assailable.  But it must be remembered that any observation of the inner
life of the honey-bee was then an extremely difficult thing.  It was next
to impossible to see anything that was going on inside the hives in use
at that day.  Pliny mentions a hive made of what he calls mirror-stone,
which was probably talc, and through the transparent sides of which the
working of the bees could be seen.  But nothing of the kind seems to have
been attempted among English bee-masters until the seventeenth century.
Moreover, even if the whole hive had been made of clear glass, the
observer would have been very little the wiser.  He would have had the
outer sides of the two end combs in view, and he would have seen much
coming and going among the bees, with an occasional glimpse of the queen.
But all the wonderful activity of the hive, so laboriously ascertained by
latter-day observers, with the help of so many ingenious appliances, goes
on entirely in the hidden recesses of the combs; and any attempt to study
this life under the conditions appertaining in the Middle Ages would have
been manifestly futile.  It was not until Huber’s leaf-hive was
invented—when it became to some extent possible to divide the combs for a
short time without hopelessly disturbing the bees—that any real progress
in bee-knowledge was made.  The modern observation-hive, wherein the bees
are compelled to build their combs between glass partitions, one over the
other instead of side by side, was a still greater advance, and rendered
the whole interior of the bee-dwelling available for study.  But it is
open to objection that bee-life in such a contrivance is carried on under
too artificial conditions.  In a natural bee-nest, the combs are built
roughly side by side, and the brood is reared in the centre area of each
comb, the surface covered by the breeding-cells diminishing outwards in
each direction.  Thus the brood-nest takes a globular form, with the
honey-stores above and around it; and this natural arrangement is
inevitably destroyed in a hive where the combs are superimposed and not
collateral.

In the face, therefore, of the practical impossibility of learning
anything about bees when they were housed in the usual straw-skep, the
old bee-masters confined themselves to a repetition of the beliefs of the
ancient writers, deftly interwoven with speculations of their own, which,
as no one was in a position to refute them, were advanced with all the
more daring and assurance.

They seem to have been, in the main, agreed on the point that the
ordinary generative principle, otherwise universal throughout creation,
was miraculously dispensed with in the single case of the honey-bee.
Moses Rusden, who was bee-master to King Charles the Second, and who
published his “Further Discovery of Bees” so late as the year 1679,
believed that the worker-bees gathered from the flowers not only the
germs of life, but the actual corporeal substance, of the young bees.

He pointed triumphantly to the little globular lumps of many-coloured
pollen which bees so industriously fetch into the hives during the
breeding-season, and asserted that these were the actual bodily matter
from which the young bees developed.  He also maintained that every hive
was ruled over by a king, but here Rusden was evidently trying to serve
two masters.  No doubt he was a true “Abhorrer,” and heartily detested
anything at variance with the doctrine of the divine right of monarchs.
He had faithfully copied from Virgil as to the gathering of this
generative substance from the flowers; but he felt that, as the King’s
Bee-Master, it was incumbent on him to put in a good word for the
restored monarchy if he could.  There were still many in the realm who
were altogether opposed to the Restoration, and probably more who were
waverers between the faiths.  And Rusden, doubtless, saw that if he could
point to any parallel instance in Nature where the system of monarchy was
the divinely ordained state, he would be furnishing his patron with a
magnificent argument in favour of his kingship, and one, moreover, which
would especially appeal to the ignorant and superstitious masses.  No
doubt, however, in taking up this position, Rusden was only echoing the
belief immemorially established among the beemen of the past.

The single large bee, which all knew to exist in each hive, was generally
looked upon as the absolute ruler of the community.  It is variously
described as a king or queen by writers in the sixteenth and seventeenth
century, but only in the sense of a governor; and the word chosen largely
depended on the sex of the august person who happened to occupy the
English throne at the time.  Thus Rusden very wisely discarded the notion
of a queen-bee when he had to deal with Charles the Second.  Butler,
perhaps the most learned of the mediæval writers on the honey-bee, as
astutely forbore to mention the word king, his book being published in
the reign of Queen Anne.  He calls it “The Feminine Monarchie,” but seems
to have no more suspected the truth that the large bee was really the
mother of the whole colony than any of his predecessors.  Almost alone in
his day, however, he refuses to accept the flower theory of
bee-generation, and asserts that the worker-bees and drones are the
females and males respectively.  But, he says, they “engender not as
other living creatures; onely they suffer their Drones among them for a
season, by whose Masculine virtue they strangely conceive and breed for
the preservation of their sweet kinde.”  He gets over the difficulty of
there being no drones in the hive for nine months in the year, during
part of which time breeding goes actively forward, by asserting that the
worker-bees immaculately conceive of the drones for the season, their
summer impregnation sufficing until the drones reappear in the May of the
following year.  Thus, without guessing it, he was very near the
discovery of one of the most astounding facts in Nature—that the
queen-bee of a hive, after a single traffic with a drone, continues to
produce fertile eggs for the rest of her life, which may extend to as
long as three, or even four, years.

Butler’s book is rich in the quaint bee-lore of his times.  He tells us
the queen-bee has under her “subordinate Gouvernours and Leaders.  For
difference from the rest they beare for their crest a tuft or tossel, in
some coloured yellow, in some murrey, in manner of a plume; whereof some
turne downward like an Ostrich-feather, others stand upright like a
Hern-top.  In less than a quarter of an hour,” he assures us, “you may
see three or foure of them come forth of a good stall; but chiefly in
Gemini, before their continuall labour have worne these ornaments.”  And
any warm spring or summer morning, if you watch a hive of bees at work,
you may chance upon much the same thing.  In some flowers, notably the
evening primrose, the pollen-grains have a way of clinging together in
threads; and these festoons often catch in the antennæ of the foraging
bees, giving much the same appearance of a plume, or tassel, as Butler
saw in his day.

          [Picture: A page from Butler’s “Bees Madrigall” 1623]

He gives some advice as to the deportment of a good bee-master which is
well worth quoting.  “If thou wilt have the favour of thy Bees that they
sting thee not, thou must avoid such things as offend them: thou must not
be unchaste or uncleanely: for impurity and sluttishnesse (themselves
being most chaste and neat) they utterly abhore: thou must not come among
them smelling of sweat, or having a stinking breath, caused either
through eating of Leekes, Onions, Garleeke, and the like; or by any other
meanes: the noisomenesse whereof is corrected with a cup of Beere: and
therefore it is not good to come among them before you have drunke: thou
must not be given to surfeiting and drunkennesse: thou must not come
puffing and blowing unto them, neither hastily stir among them, nor
violently defend thy selfe when they seeme to threaten thee; but softly
moving thy hand before thy face, gently putting them by: and lastly, thou
must be no Stranger unto them.  In a word, thou must be chaste, cleanly,
sweet, sober, quiet, and familiar: so will they love thee, and know thee
from all other.”  Thus, the good bee-master, according to Butler, is
necessarily a compendium of all the virtues; and nothing more seems to be
wanted to bring about the millennium than to induce all mankind to become
keepers of bees.

Writers on the honey-bee in mediæval times vied with each other in their
testimony to the extraordinary powers and intelligence of their
hive-people.  But perhaps a story, gravely related by Butler, outdoes
them all.  He prefaces it by declaring that “Bees are so wise and
skilful, as not onely to discrie a certaine little God amightie, though
he came among them in the likenesse of a Wafer-cake; but also to build
him an artificial chappell.”  He goes on to relate that “a certaine
simple woman, having some stals of Bees that yeelded not unto hir hir
desired profit, but did consume and die of the murraine; made hir mone to
an other Woman more simple than hir selfe; who gave her counsell to get a
consecrated Host, and put it among them.  According to whose advice she
went to the priest to receive the host: which when she had done, she kept
it in hir mouth, and being come home againe she took it out, and put it
into one of hir hives.  Whereupon the murraine ceased, and the Honie
abounded.  The Woman, therefore, lifting up the Hive at the due time to
take out the Honie, saw there (most strange to be seene) a Chappell built
by the Bees, with an altar in it, the wals adorned by marvellous skill of
Architecture, with windowes conveniently set in their places: also a
doore and a steeple with bells.  And the Host being laid upon the altar,
the Bees making a sweet noise, flew around it.”

This story is only paralleled by another, equally ancient, wherein it is
related that some thieves broke into a church, and stole the silver
casket in which the holy wafers were kept.  They found one wafer in the
box, and this they hid under a hive before making off with the more
intrinsically valuable part of their booty.  In the night, it seems, the
owner of the hive was awakened by the most ravishing strains of music,
coming at set intervals from the direction of his bee-garden.  He went
out with a lantern to ascertain the cause of it, and discovered it to
proceed from the interior of one of his hives.  Full of perturbation at
this miracle, he went and roused the Bishop, and acquainted him with the
extraordinary state of affairs; and the Bishop coming with his retinue
and lifting up the hive, they found that the bees had taken possession of
the consecrated wafer, and placed it in the upper part of their hive,
having first made for it a box of the whitest wax, an exact replica of
the one stolen.  And all around this box there were choirs of bees
singing, and keeping watch over it, as monks do in their chapel.  “With
which story,” adds the narrator prophetically, “I doubt not but some
incredulous people will quarrell.”

In their directions for hiving a swarm, the medieval bee-masters were
always quaintly explicit.  The dressing of the skep which was to receive
the swarm was a particularly elaborate process.  When the skep was new,
you were recommended to scour it out with a handful of sweet herbs, such
as thyme, marjoram, or hyssop; and this was to be followed by a second
dressing of honey and water, or milk and salt.  But the preparation of an
old skep must have been a rather disgusting affair.  You were to put “two
or three handfuls of mault, or pease, or other come in the hive, and let
a Hogge eat thereof.  Meanwhile, doe you so turne the Hive, that the fome
or froth, which the Hogge maketh in eating, may goe all about the Hive.
And then wipe the Hive lightlie with a linnen cloth, and so will the Bees
like this Hive better than the new.”

When the swarm was up, and “busie in their dance,” you were to “play them
a fit of mirth on a Bason, Warming-pan, or Kettle, to make them more
speedily light.”  We are assured that the swarm would fly faster, or
slower, according to the noise made.  If the fit of mirth were in rapid
measure, the bees would fly fast and high; but with a soft leisurely
music, they would go slowly, and soon descend.  This curious custom of
“ringing the bees” is undoubtedly of Roman origin; but whether it was
introduced by Cæsar’s followers, or those of Claudius in the first
century, or whether the old English bee-masters themselves derived it
from their classic reading, is hard to determine.  It is still to be
heard in many country districts, and its exponents seem to retain all the
faith of their forefathers in its efficacy.  Probably, in mediæval times,
when bee-gardens were much more plentiful than they are now, the custom
had at least one undeniable merit: it proclaimed to the various
hive-owners in the vicinity that a swarm was in the air, and that its
rightful owner was on the alert.  In this way, no doubt, dishonest claims
to its possession were largely prevented, or, at least, discouraged.

The question whether the noise made by ringing has any real effect on the
swarming bees is still not absolutely decided.  With the exception of the
old skeppists, not a few of whom still exist in out-of-the-way rural
corners, modern apiculturists have long discarded the custom as a gross
superstition.  But it has recently been suggested that the din made by
old-fashioned bee-keepers when a swarm is up may have a real use after
all.  It is conjectured that the cloud of bees—which at first is nothing
but a chaos of flashing wings, the whole contingent darting and whirling
about indiscriminately over a large area together—is really dispersing in
search of the queen.  The suggestion put forward is that they follow her
by ear, as she is supposed to utter a peculiar piping sound when flying.
The din of the key and pan may, it is said, prevent the bees hearing this
note and following her in her first erratic convolutions, and thus the
swarm is more likely to pitch on a station near home.  The theory is
interesting, but hardly tenable.  Old popular observances of this kind
are seldom based on even the vaguest thread of fact, and it is much more
probable that no effect whatever is produced on the bees by the ringing.

With regard to the right of a bee-keeper to follow his swarm into a
neighbour’s land, it is interesting to have the assurance of one of these
ancient writers that “if they will not be stayed, but, hasting on still,
goe beyond your bounds; the ancient Law of Christendome permitteth you to
pursue them whithersoever, for the recovery of your owne.”  But, the
writer adds, if your swarm goes so fast and so far that you lose sight
and hearing of them, you also lose all right and property in them.  In
this case you have no legal alternative but to leave the bees to
whomsoever may first find them.  In view of recent disputes on this
matter, wherein the law laid down appears to have been both vague and
arbitrary, it is useful to be able to point to so ancient an authority in
vindication of the bee-keeper’s rights.

There is hardly any detail in bee-government which had not its curious
observance or superstition in mediæval times.  One and all seemed to
believe in the old Virgilian notion that bees carried about little stones
to balance their flight during windy weather, and some even thought that
flowers were carried about in the same way.  Red-coloured clothing was
supposed to be particularly offensive to bees, and one is warned not to
venture near the apiary thus attired.  In the hives the old bees and the
young were believed to occupy separate quarters.  In regard to this, it
is a well-attested fact that, during the height of the honey season, the
bees found in the upper stories of a hive are principally young ones who
have not yet flown.

         [Picture: Rev. John Thorley writing his “Melissologia”]

We are told that if any of the bees have not returned to the hive at the
end of the day, the queen goes out to find them and show them the way
back.  No one need be in any fear of overlooking the ruler of the hive,
because she can be known by her “lofty pace and countenance expressing
Majesty, and she hath a white spot in her forehead glistering like a
Diadem.”

An old writer advises that all the hives should have holes bored right
through them to prevent spider-webs.  He was also of opinion that the
bees swarmed because of the queen’s tyranny, and if she followed them,
they put her to death.  He informs us that the drones were honey-bees
which had lost their stings and grown fat.  This was a very old idea,
with which the sceptical Butler dealt in the following fashion: “The
general opinion anent the Drone is that he is made of a honey-bee, that
hath lost hir sting; which is even as likelie as that a dwarfe, having
his guts pulled out, should become a gyant.”  But the bee-masters of the
Middle Ages were ever intolerant of other people’s mistaken ideas, while
supporting with the gravest argument and show of learning equally
benighted superstitions of their own.

A little book published in 1656, and called “The Country Housewife’s
Garden,” is interesting, as it was probably written for cottagers by one
almost in the same humble walk of life, whereas the bee-books generally
of the sixteenth and seventeenth centuries were, for the most part, the
work of men of considerably higher station.

This book, almost alone of its kind, harbours no fine theories on
bee-keeping, but keeps throughout to rule-of-thumb methods.  The writer,
evidently caring little for speculation as to the origin of bees, but
confining his remarks to practical honey-getting, takes up the following
wholesome position: “Much discanting there is of, and about the Master
Bees, and of their degrees, order, and Government: but the truth in this
point is rather imagined, than demonstrated.  There are some conjectures
of it, viz., wee see in the combs diverse greater houses than the rest,
and we commonly hear the night before they cast, sometimes one Bee,
sometimes two or more Bees, give a lowde and severall sound from the
rest, and sometimes Bees of greater bodies than the common sort: but what
of all this?  I leane not on conjectures, but love to set down that I
know to be true, and leave these things to them that love to divine.”
The “greater houses” here mentioned were, no doubt, the large cells in
which the queens are bred.  Just before swarming-time, as many as nine or
ten of these are sometimes to be found in one hive.

The same writer has the inevitable ill word against the drones.  These,
he says, “are, by all probability and judgement, an idle kind of bees,
and wastefull, which have lost their stings, and so being as it were
gelded, become idle and great.  They hate the bees, and cause them cast
the sooner.”

Never did creature come by so bad a name, and so undeservedly, as the
luckless drone with these old scribes.  Another of them speaks of the
drone as “a grosse Hive-Bee without sting, which hath beene alwaies
reputed a greedy lozell (and therefore hee that is quicke at meat and
slow at worke is fitted with this title): for howsoever he brave it with
his round velvet cap, his side gowne, his full paunch, and his lowd
voice; yet he is but an idle companion, living by the sweat of others’
brows.  For he worketh not at all, either at home or abroad, and yet
spendeth as much as two labourers: you shall never finde his maw without
a good drop of the purest nectar.  In the heat of the day he flieth
abroad, aloft, and about, and that with no small noise, as though he
would doe some great act: but it is onely for his pleasure, and to get
him a stomach, and then returns he presently to his cheere.”

But it is among the writings of the old beemen with a taste for the
quack-doctor’s art that some of the quaintest notions are to be found.
We are told that honey, well rubbed into the scalp night and morning, is
a sovereign remedy for baldness, and if it was mixed with a few dead bees
and a little old comb well pounded, it was still more efficacious.  Dead
bees, dried and reduced to a powder, form a principal ingredient in all
sorts of nostrums of the time.  This powder, mixed with water and drunk
every morning, is recommended as an unfailing cleanser to the system.
And if the heads of a large number of bees are collected, burned, and the
ashes compounded with a little honey, it makes an excellent salve for all
sorts of eye disorders.

There was a famous preparation called Oxymel, which was in great vogue in
mediæval times.  It seems to have been nothing more than a mixture of
honey, water, and vinegar; but it was accredited with extraordinary
virtues.  It was an infallible cure for sciatica, gout, and kindred
ailments; and one writer also tells us that it was “good to gargarize
with in a Squinancy.”

But honey and dead bees were not the only products of the hives which
were pressed into medical service.  Wax also was believed to have
exceptional curative powers in all sorts of human ills.  It had the
faculty of curing ulcers, and “if the quantity of a Pease in Wax be
swallowed down of Nurces, it doth dissolve the Milke curdled in the
paps.”  It was also used as an embrocation for stiff joints and aching
muscles.  The supposed curative value of beeswax in its natural state,
however, was as nothing compared to its capabilities when distilled.
This preparation, known as Oil of Wax, and famous at the time all the
world over, seems to have come nearer the ideal of a panacea—a
cure-all—than anything else before or since.  The making of Oil of Wax
seems to have been a very complicated affair.  First the wax had to be
melted, poured into sweet wine, and wrung out in the hands.  This was
done seven times, using fresh wine at each operation.  Then the wax was
placed in a retort with a quantity of red-brick powder, and carefully
distilled.  A yellow oil came over into the receiver, and this was
distilled a second time, when the “Coelestiall or Divine medicine” was
ready.  Miraculous portents seem to have accompanied its preparation, for
we are told that “in the coming forth of this Oile there appeareth in the
Receiver the foure Elements, the Fire, the Aire, the Water, and the
Earth, right marvellous to see.”

The power to stop immediately the falling out of the hair, heal the most
serious wounds in a few days, and cure toothache and pains in the back,
can be reckoned only among its minor virtues.  Much greater properties
were claimed for Oil of Wax, for it not only “killeth worms and cureth
palsy and distempered spleens, but it bringeth forth the dead or living
child.”

One last extract must be given from the same old writer.  It relates to
the generation of bees, and brings us out, perhaps, on the highest
pinnacle of the marvellous.  After a learned dissertation on the method
of breeding bees from a dead ox—assuring us, however, that if we can
procure a dead lion for the purpose, it will be much better, as then the
bees will have a lion-like courage—the writer goes on to explain how bees
may be produced in another way.  We are to save all dead bees, burn them,
sprinkle the ashes with wine, and then leave them exposed to the sun in a
warm place.  In a little while, we are told, all the bees so treated will
come to life again, and we shall then have a new stock ready for hiving.

Dipping into these time-worn records of the Middle Ages, with their
embrowned, scarce legible type and their antiquated phraseology, one
comes at last to realise how very little the old bee-masters actually
understood of the true ways of the honey-bee, or, indeed, of any real
essential in bee-craft.  And yet the production of honey and wax must
have been an industry very largely developed in those days.  Somehow or
other, in spite of archaic theories and useless interference in the work
of their hives, these people must have contrived to supply a market of
whose magnitude we can nowadays form little conception.  The trade in wax
alone must have been a very large one, for, except in the poorest
tenements, this formed the only available source of artificial light.
And honey was in much more universal demand than it is now, because
cane-sugar could hardly have developed into a serious rival as a
sweetening agent among the masses at a time when it stood, perhaps, at
two shillings a pound.

But in speculations of this kind, it must be borne in mind that, although
the men who wrote about bees displayed so picturesque an ignorance in all
matters appertaining to their charges, these formed a very small minority
among the bee-keepers as a whole.  Probably the bulk of the supply in
honey and wax came from bee-gardens, whose owners neither knew nor cared
anything about books, and were concerned only in the practical side of
the work, where their knowledge, hereditary for the most part, amply
sufficed for the part they played in it.

Moreover, it is only in latter-day, scientific apiculture that the work
of the bee-master counts to any great extent.  Nowadays, under the light
of twentieth-century knowledge, this is competent to bring about the
doubling, and even trebling, of the honey-harvest possible under the
ancient methods.  But the old skeppists did, and could do, little more
than look on at the work of their bees, and here and there put a scarce
availing hand to it.  Nearly all the credit for the results achieved in
those days must be given to the bees themselves, who, untold ages before,
had brought to finite perfection their remarkable systems and policies.
In all likelihood the bee-masters, the practical men who owned the hives,
had much the same shrewd faculty of leaving things alone in far-off times
as we observe among the skeppists of the last generation.  In many ways,
what they did at last come to do they did ill, notably in the apparently
insane practice of destroying the bees to obtain the honey.  But even
this was not so foolish a procedure as it appears to-day.  It was a plain
matter of business, according to the lights of the time.  Their process
was to condemn to the sulphur-pit all the lightest and the heaviest of
their stocks.  Experience taught them that the weak colonies stood little
chance of getting through the winter unless they were artificially fed;
while if the bees of the large colonies were preserved, after being
robbed of their stores, they would need the same provision.  It was a
matter of arithmetic.  Artificial feeding was then a much more costly
affair than it is to-day, and the reckoning came out well on the side of
slaughter.  The worst part of the business, so far as modern scientific
bee-breeders are concerned, is that the old system of destruction tended
to preserve only those strains of bees who were inveterate swarmers;
while the steady, industrious stay-at-homes, who accumulated the largest
stores of honey, were invariably exterminated.  This is a fateful legacy
to have passed on, when we consider that one of the chief aims of modern
bee-science is to abolish swarming altogether.  The swarming habit is one
of the greatest obstacles in the way of a large honey yield, and until a
race of non-swarming bees has been evolved by modern breeders there will
always be this element of uncertainty in the honey harvest.

Latter-day beemen, therefore, join the chorus of disapproval of this old,
senseless custom of bee-burning, rather because it has given them the
task of undoing the work of ages before any progress is possible, than
from the generally accepted humanitarian reasons.




CHAPTER IV
AT THE CITY GATES


IN a village in Southern Sussex, close under the green brink of the
Downs, there live two bee-keepers who represent, in their widely
divergent methods and outlook, the extremes of beemanship as still extant
in modern times.

The one dwells in a little ancient thatched cottage, set in the heart of
an old-fashioned English garden, where dome-shaped hives of straw are
dotted about at random amidst a wild growth of the old-fashioned English
flowers.  The other has built himself a trim villa on a hillside, topped
with a sheltering crest of pine-wood; and here he has established a great
modern honey-farm, replete with every device and system of management
known to apiarian scientists throughout the two worlds.

 [Picture: Inverted straw bee-hive, showing natural arrangement of combs]

One might suppose, on leaving the village street on a fine May morning
and coming upon these two settlements in the open country beyond, that
all the romance and old-world flavour of bee-keeping were inevitably to
be found in the ancient bee-garden, where the droning music of the hives
seems to originate in the thicket of blossoming lilac, and red-may, and
veronica, the hives themselves being the last things one noticed in such
a tangle of bright-hued flowers.  To expect sentiment in the other
quarter—a great cindered tract of country, with its long parallel rows of
modern hives, all painted in various colours, its dwelling-house that
might have been transplanted bodily from a well-to-do London suburb, and
its line of outbuildings, with their bustle of business, and coughing
oil-engine, and reverberation of hammer and saw—was to expect something
evidently out-of-date and impossible.  As well look for art in a Ghetto
as to seek reverence for ancient bee-customs in a twentieth-century
trading concern such as this, established to supply the market for honey
just as a Manchester factory turns out calico and corduroy.

Many lovers of country life, peripatetic artists and chance pedestrians
for the most part, came to the village with this notion firmly impressed
upon them, and, visiting the old bee-garden and finding the old beautiful
things there in abundance, went no farther, and became no wiser.  They
wandered round the crooked, red-tiled paths of the garden with its
ancient proprietor; stooped under bowers of living gold and purple; waded
through seas of scarlet poppy and blue forget-me-not and tawny
mignonette; came upon old beehives in all sorts of shady, unpremeditated
corners; and steeped themselves in mediævalism up to the eyes.  The very
song of the bees seemed to belong entirely to past days.  None, surely,
but a hopeless Vandal could put a colony of bees in one of the ugly
square hives, and expect them to go honey-seeking in the old harmonious,
happy way, sanctified of the ages.  And so they never ventured up the
hill to the great bee-farm, but kept to the garden below, and listened by
the hour together to the quaint talk of its white-headed, smock-frocked
owner, or stood valiantly at the foot of the ladder when he climbed up to
dislodge a swarm from the moss-grown apple-boughs, or helped him to scour
the new straw skeps with handfuls of mint and lavender, or beat out
weird, unskilful music with the door-key on the old brass-pan when a
swarm was high in the air.

Much could be learnt, it is true, from quiet days spent in the old
bee-garden, especially in May, before the earliest swarms were ready to
forsake the hives.

The first faculty to be acquired was that of wandering among the bees, or
standing between their straw houses, undismayed at their incessant and
often terrifying approaches.  Whatever confidence one may place in
bee-keepers’ assertions that their bees never sting, it is a bold man who
can preserve entire equanimity when bees are settling continuously on his
hands, his face, his clothing, and a whole flying squadron of them are
shrilling vindictively about his ears.  Nothing will come of it, he
knows, if only he can keep still.  But the tendency to turn and flee, or
at least to beat off these minatory atoms with wildly waving arms, is all
but irresistible for the novice.  It is only their way, he is assured, of
expressing or of satisfying their curiosity; and, this being done, they
fly off harmlessly enough to give a good report of him to the ruling
powers within the hive.  But he knows that this report is sometimes
anything but good.  At least, there are a few luckless individuals in the
world who dare not venture within a dozen yards of a beehive without
being set upon unmercifully, and chased by an angry squad of these tart
virgins for the space of a quarter-mile.  Moreover, in certain states of
the weather—when thunder is about, and the air is tense and still—bees
will often sheath their barbed daggers in any human skin, even that of
their owner, who has gone among them daily all the season unmolested.
There is, therefore, a fateful element of chance in all near watching of
beehives, a sensation of being under fire—fine discipline enough, but,
for the timorous, hardly to be reckoned among the easy joys of existence.

These first deterrents, however, being happily overcome, the watcher is
sure to be caught up, sooner or later, in the sheer fascination of the
thing, and to find himself recklessly, almost breathlessly, looking on at
what is nothing else than a great informing pageant of life.

He stands, as it were, a stranger at the gates of a city, inhabited by
the most interesting, and in some respects the most advanced, people in
the world.  Of the inner life of the city, apart from the deep busy
murmur that surges out to him, he learns nothing, and will learn nothing
until he puts sentimental pride in his pocket, and makes pilgrimage to
the great bee-farm on the hill.  But here, in the meanwhile, is food
enough to satisfy the keenest appetite for the marvellous.  In and out
through the yawning entrance-gate of the city, under the hot May
sunshine, there are thousands of busy people coming and going.  The broad
threshold of the hive is completely hidden under opposing streams, the
one setting out towards the fragrant fields and hedgerows, the other
tumbling and seething in, almost every bee dragging after her some kind
of mysterious treasure.

The outgoing bees start on their journey in two different fashions.  Some
emerge from the hive and rise at once on the wing, lancing straight off
into the sunshine; and these are foragers, who have already made several
journeys afield since the sun broke, hot and rosy, over the eastward
hill.  But others, essaying their first excursion for the day, creep out
of the murmurous darkness of the hive, and come with a little impetuous
rush to the edge of the alighting-board.  Here they pause a moment to
flutter their wings and rub their great eyes free of the hive-twilight.
And then they lift into the air, hover an instant with their heads
towards their dwelling, taking careful stock of it, sweep up into the
blue, and volley away with the rest towards the distant hill-side, white
with its bridal wreath of clover-bloom.

The homing bees move much more sedately.  They come sailing in like
bronze argosies laden to the water’s edge.  Those bearing full sacs of
clover-juice for the honey-making seldom carry an outside load of pollen
as well.  They have all to do in bringing their distended bodies to a
safe anchorage on the entrance-board, and charge headlong into the hive,
possessed of only one idea—to hand their garnered sweets over to the
first house-bee they chance upon, and then to hurry out in search of
another load.  The pollen-bearers are impelled by the same white-hot
energy; but their cargoes are infinitely more cumbersome, and demand a
more leisurely pace.  Some with panniers, heaped up with a deep
orange-coloured material, must rest awhile on the threshold before
gathering energy enough to drag their glowing burdens through the city
gate.  Others just fail to make the harbour, and sink down on to the
grass below, to wait for the same freshet of strength that is finally to
bring them into the security of the populous haven.  Scores of them do
not try for harbour at first tack, but, coming safely into the calm
waters of the garden, rest awhile on the nearest leaf or blossom, panting
and tremulous, until they are able to wear sail for the last reach home.

There is infinite diversity in the loads of these pollen-carrying bees.
Hardly a colour, or shade of colour, in the rainbow fails to pass during
every moment across the thronging way.  Every bee carries a half-globe of
this substance, beautifully rounded and shaped, on each of her two
hind-legs.  It is possible, by marking the colour of her burden, to tell
with certainty what flower she has been plundering on each of her trips.
This bright orange, which makes always the largest and heaviest bales in
the stream of merchandise, is from the dandelions.  From the
gorse-flowers come loads of deep rich brown almost as weighty.  The
charlock, that mingles its useless, wanton beauty with every farm-crop,
yields the bee interminable gold.  White clover, red clover, sainfoin,
all load up the little hive coolies with different shades of russet.
From the apple-orchards come bursting panniers of pale yellow; the
blackberry-blossom yields pollen of a delicate greenish-white.  When
summer comes, and the poppies make scarlet undertones amidst the wheat
and barley, these winged merchant-women stream homeward with their
pollen-baskets laden with funereal black.

But, if you watch a hive at work on any bright spring or summer morning,
you will see single bees occasionally pass with loads whose source has
never yet been fathomed.  The lean, glistening, rufous stuff that is
continually borne through the hustling crowd is resin gathered from
poplar or pine, and used to glue the straw hive down to its base-board,
or to stop up draughty crevices and useless corners, or, diluted into
varnish, to paint the honeycombs with an acid-proof, preservative film.
But now and then comes a bee with a load whose colour shines up like a
danger-signal in darkness.  Brilliant scarlet, or soft rose-crimson, or
pale lavender, or gleaming white—who shall say in what far, forgotten
nook of the country-side she has been adventuring, or what rare blossom
she has chanced upon in the wilderness, and, despoiling it of its maiden
treasure greedily, has quickened into duplication the beauty that was its
reason for life?

Yet the greatest wonder about all this pollen-gathering is that each
separate load has been taken entirely from one species of flower.  The
little half-spheres are packed into the pollen-cells indiscriminately,
orange on brown, pale yellow mingled with green, or buff, or grey.  But
each pair of panniers, representing a single journey, contains the
pollen-dust of one kind of blossom alone.  Going out into an English lane
or meadow to watch the bees at work, the first conviction borne in upon
an observer is that the bees are darting about from flower to flower
without other thought than to load up from any and every capable blossom
that stands in their way.  But closer scrutiny reveals a curious plan and
order in this, as in everything else that the honey-bee undertakes.
Tracing an individual bee in her progress along the flowery verge of the
lane, you will soon see that she visits only one species of blossom.  If
she starts on hawthorn, it will be hawthorn all the way.  If her load of
willowherb-nectar or pollen is not yet a full one, she will overpass a
score of tansy-knots or waving jungles of meadow-sweet, just as inviting
and resourceful, apparently, to reach the one scanty patch of purple at
the end of the lane.

Why she should be at such pains to keep the pollen separate as she
gathers it, only to get it inextricably mingled with every other kind in
the storehouse at home, is a problem that none but a bee can solve.  But
all the honey-bee’s reasons and motives in life are made up of a curious
blend of cold-drawn sense and sentiment; and it may be inferred that need
and fancy have an equal influence in guiding her in this, as in
everything else she does, from her cradle-cell to her grave.  Not
altogether without seriousness, it may be hazarded that quite as probable
a reason for her way of pollen-gathering is that she deems a certain
shade of colour makes a more becoming flying-robe, as that she keeps each
load of pollen pure, unblended, because of some imperious, economic need
of the hive.  The factor of sex, in all observation of the ways of the
honey-bee, is no more to be considered a negligible one than it is in the
critical contemplation of the human species of hive.

All this incessant coming and going of the busy foragers is alluring
enough to the looker-on, but there is evidence of many other activities
equally interesting.  The work of collecting nectar and pollen is
obviously only a part of the duties of this self-immolated spinster-race.
Here and there in the seething, hurrying crowd there are bees who do not
move with the rest, but, anchored securely in the full force of the
living current, with heads lowered and turned towards the hive, are
engaged in fanning their wings, and this so swiftly that nothing of the
wing but a little grey mist can be seen.  Looking more carefully, you
will make out that these bees are arranged in nearly regular rows, one
behind the other, in open order, so that the conflicting tides of
foragers can pass uninterruptedly between.  If the watcher is bold enough
to bring his ear down to the level of the hive, he will make out a steady
hissing noise that rings clear above all the din and turmoil made by the
incessant travellers to and fro.  These rows of fanners are seen to
stretch from the hive-door right to the edge of the footplate, but
principally on one side; and still closer observation will reveal the
fact that there is a regular system of relief among them.  Though the
general volume of sound never abates one jot, every few minutes one or
another of these stationary bees moves away, her place being immediately
taken by another, who settles down to the common task in line with the
rest.  The reason for all this is plain enough: the fanners are engaged
in ventilating the hive, drawing a current of vitiated air through the
entrance on one side, which flanks, but does not oppose, a corresponding
current of pure air sucked in on the other.

All through the warm days of spring and summer this fanning squadron is
constantly at work; nor does it cease with the darkness.  Chill nights
find the ranks weakened and reduced to perhaps only a few bees, or even
to none at all when a cold snap of weather intervenes.  But in the
dog-days, or, as the ancients used to say, when Sirius, the honey-star,
is shining, the deep sibilant note of these fanners rises, in a populous
apiary, almost to the voice-strength of a gale of wind.  To come out then
under the stars of a summer night, and stand listening in the tense,
fragrant darkness to this mighty note, is to get an impression of
bee-life unattainable at any other season.  In the daytime the sound is
intermingled, overwhelmed, by the chorus of the flying bees.  But now all
are safely at home.  Each hive is packed from floor to roof with tens of
thousands of breathing, heat-producing creatures: the necessity for
ventilation is quadrupled, and, far and wide in the bee-garden, the
fanning armies are setting to their work with a will.

                    [Picture: An old Sussex Bee-house]

The freshman at this fascinating branch of nature-study, brought out into
the quiet night to hear such gargantuan music, is always strangely
affected by it, some natures incredibly so.  In all the great placid void
of darkened hill and dale around him, in the whole blue arch overhead,
alive with the flinching silver of the stars, there is no sound but a
chance trill of a nightingale, the bark of a shepherd’s dog on the
distant upland, or, now and then, the droning song of a beetle passing
invisibly by.  All the world seems at rest, save these mysterious people
in the hives; and with them the sound of labour is only redoubled.
Bending down to the nearest hive in the darkness, the note comes up to
one like the angry roar of the sea.  A light brought cautiously to bear
upon it, discloses the alighting-board covered with rows of bees,
working, as it were, for their lives; while other bees continually wander
in and out of the entrance—the sentries that guard it night and day, just
as soldiers guarded the gates of human cities in olden times.  The novice
at bee-craft, even the most staid and matter-of-fact, is invariably
plunged into marvelling silence at the sight.  But if the night be
exceptionally hot and oppressive, and the fanning army unusually large,
the bee-master with an eye for dramatic effect generally finishes the
tiro’s wonderment by showing him an old trick.  He lowers the candle
until the flame is just behind the squadron of ventilating bees, and at
once all is darkness: the current of air drawn out of the hive has proved
strong enough to extinguish the light.

It has been said that there are guard-bees who watch the hive-door day
and night.  To the unskilled human eye one bee looks very like another,
and it is difficult to understand how, in the many thousands that pass,
the guards manage to detect an intruder so unerringly, and to eject her
with such unceremonious promptitude as is always shown.  Probably it is
not by sight alone that these occasional interlopers are singled out.
The sense of smell in the honey-bee is extraordinarily acute, and this,
no doubt, assists the guards in their difficult work.  It is well known
that a queen-bee must possess a very distinct odour, as her mere presence
abroad, even when shut up in a box, will attract the drones from all
quarters.  In all likelihood the peculiar aroma from each queen-bee
impregnates the whole colony, and thus the guard-bees are able at once to
distinguish their own kin from that of alien stocks.

Still watching the outside life of the hive in the old bee-garden, many
other interesting things come to light.  In such an establishment, even
if it be only an old-fashioned straw skep, perhaps more than twenty
thousand individuals are located; and obviously some regular system of
cleaning and scavenging is indispensable.  This work can be seen now,
going on uninterruptedly in the midst of all the other busy enterprises.
Every moment bees come labouring out, bearing particles of refuse, which
they throw over the edge of the foot-board, and at once shoulder their
way back for another load.  Other bees appear, carrying the bodies of
comrades who have died in the hive; and every now and then one comes
struggling through the crowd, bearing high above her a strange and
ghastly thing, perfect replica of herself, but white throughout, save for
its black beady eyes.  This is the unborn bee, dead in its cradle-cell.
Infant mortality is an evil not yet overcome even by the doughty
honey-bee, and many are carried out thus, especially in early spring.
Watching these undertakers of the hive in their gruesome but necessary
work, a singular fact can be noted.  While all other debris is merely
cast over the brink of the entrance-board, where it accumulates day by
day on the grass below, these dead larvæ are never disposed of thus.
They are carried right away, their bearers taking wing and flying
straight off over the hedgerow, to drop them at harmless distance from
the neighbourhood of the hive.

There is still another kind of work going briskly forward round the gates
of the bee-city.  Certain among these stay-at-home bees seem to exercise
a sort of common overseership.  They help those weighed down with too
heavy a cargo to reach the city gates.  If a lump of pollen is dropped in
the general scuffle, these bees seize it and take it into the hive.
Sometimes a bee comes eddying downward, smothered from head to foot with
pollen, like a golden miller, and she is immediately pounced upon by
these superintendents, and combed free of her incommodious treasure.
Others see to the grooming of the young bees, about to essay their first
flight.  The youngster sits up, protruding her tongue to its fullest
extent, while half a dozen bees gather round her, licking and stroking
her on every side.  At last her toilette is done, and she is liberated,
when, with a little flutter of her wings, she lifts high into the blue
air and sunshine and makes off with the rest to the clover-fields,
glittering afar off in the joyous midday light.

For insensibly the hours have worn on—it is noon—and the tense thronging
life, the deep rich labour-song, of the bee-garden seem to have reached
their height.  But suddenly a greater noise than ever arises on all
sides: a steady stream of bees, larger and bulkier than the rest, is
pouring out of every hive.  The drones, the lazy brothers of these
laborious vestals, have roused at last from their sleep, and are coming
abroad for their daily flight.  In twos and threes, in whole battalions,
they hustle out, and begin their noontide gambols about the hive, filling
the air with a gay, roistering song.  In a little while they will be all
gone to their revels, and the bee-garden will seem, by comparison,
strangely quiet.  But now the sudden accession of energy is unmistakable.
With the awakening of the drones there seems to be a new spirit abroad.
The air is no longer filled to overflowing with busy foragers.  Many of
these have joined the dance round the hives, so that each bee-dwelling is
the centre of a singing, gambolling crowd, moved rather by a spirit of
play, almost of idleness.  But this brief moment of relaxation soon
passes.  The drones betake themselves to their marital pleasuring in the
fields.  The noisy midday symphony dies down to the old steady monotone
of work.  And the watcher at the gates of the bee-city turns to retrace
his steps down the flower-garlanded way of the old pleasance, satiated
with wonders, yet not satisfied, his curiosity only quickened a
thousandfold for that which has been inexorably held from him, a glimpse
of what is happening behind those baffling walls of straw.

Wending slowly homeward, and pondering, he asks himself many questions.
What is the reason, the final outcome, of all this earnest, well-directed
labour?  What is done with the pollen that has been carried in all the
morning long?  Where there is obviously so much system, and unanimity,
and ingenious division of endeavour, there cannot fail to be a supreme
and governing intelligence to allot the part that each must play.  This
story of a queen—of a single bee, larger than all the rest, to whom all
pay allegiance, and who spends her whole life in the dim labyrinth of the
hive, like the Pope in the Vatican—is it a truth, or only a figment of
the ignorant, bucolic brain?  If this queen exist, if every hive have
indeed its absolute monarch, who directs the whole complex life and
policy of the bee-city, where in the scale of reasoning creatures must
she be placed?

And then, if he be wise, the student will learn at last to give the
picturesque old bee-garden its true appraisement.  Ancient things
conserve their beauty, and win the love of the right kind of lovers, more
and more with every century that glides by.  Only their usefulness, their
import in the tide of human knowledge and progress, has gone with the
years.  It is so with the bee-garden under its Maytide robe of green
leaves and rainbow blossoms.  It is beautiful in its glad appearances,
its echo of old voices, its odour of the sanctity in ancient ways and
days.  But it can tell us nothing of all we want to know.  It can only
ask us riddles to which we have no answers.  For these we must set aside
old fanciful scruples; turn our backs, once for all, on its enchantment
and its sweetness; bend our steps unswervingly towards the great modern
bee-farm on the hill.




CHAPTER V
THE COMMONWEALTH OF THE HIVE


A DOCTOR DRYASDUST will manage to impart to the truths he meddles with a
disastrous air of dulness and stagnation; but to walk in a fools’
paradise of beautiful, artistic error is to lay oneself open to an
infinitely worse fate.  There never was a truth in Nature that was dull
or uninteresting, except in its human presentment.  There never was a
pretty worthless fiction that did not show its dross and tinsel when
brought out into the searching light of day.  Romance, the spirit of
poetry, have largely changed their venue of recent years.  The
unconscionable delver among old things, old thoughts, old conventions, on
the strand of Time, has tarried so long in his one little florid corner
that he is in some danger of being caught by the tide.  He must soon
either mend his pace or swim for it.  Human regard is turning more and
more towards those who deal in living verities—the men who search the
stars, who win new powers out of the common air, who find at last the
authentic teachings in the old worn texts of the stones and brooks.
These are the true poets, romancists, tellers of wondrous tales; and
these will hold the crowd—which is never far astray in its
intuitions—when all the singers of sick fancies and the harpers on frayed
golden strings have gone off in melancholy dudgeon to their own place.

The old story—which has held such a long and honoured position in school
text-books, and in the writings of those who tell of Nature’s wonders
from the commanding watch-tower of the study fire—the old story of the
queen-bee ruling her thirty or forty thousand dutiful subjects, and
guiding them unerringly in all their marvellous exploits and enterprises,
must go now with the rest.  For the truth, as modern observers have
unquestionably established it, is that the queen-bee is no ruler in the
hive, but even a more obedient subject than any.  The real instigators
and contrivers of everything that takes place within the hive are the
worker-bees themselves.  The queen has neither part nor lot in the
direction of the common polity; nor has she any power, mental or
physical, to help in the carrying out of public works.  Her sole duty is
that of motherhood, and even in this she derives all initiative from the
sovereign worker-bees.  She is little more than an ingenious piece of
mechanism, and carefully guarded and cherished accordingly.  She has
certain propensities, and certain elemental passions, which she can
always be counted on to exercise in certain well-defined and limited
ways.  But as an intelligent, originating force she counts for nothing.
The mind in the hive is the collective mind of the whole colony, apart
from the queen and drones—an hereditary, communal intellect evolved
through the ages, the sum and total of all bee experience since the world
of bees began.

If, however, modern science compels us to divest the mother-bee of all
her regal state and quality, and thus destroy one of the prettiest
delusions of ancient times, it is only to take up a story of real life
more alluring and romantic still.  In the light of new understanding the
old facts take on a mystery and excite a wonderment greater than ever
before.  If we found the life of the hive an enthralling study when we
supposed it to originate from one winged atom endowed with acute and
commanding abilities, how much more fascinating must it prove when we
come to see that all this complex system of government is instituted and
kept together by the harmonious working of tens of thousands of reasoning
beings?

Reasoning—it is a big word, a double-edged thing that requires careful
handling.  We have been so long accustomed to use it only in regard to
our own magnificent mental processes that it savours almost of the
ridiculous to bring it to bear upon such a tiny et-cetera in the brute
creation as the honey-bee.  And yet, the deeper we go in the study of the
bee and all her works, the more difficult it becomes to find a word that
shall more fittingly meet the case.  Instinct will not do.  Instinct
implies a dead perfection of motive, born of omniscience, working through
unthinking, unvarying organisms to an equally perfect end.  But in
neither project nor performance can the honey-bee be said invariably to
achieve, or even to aim at, perfection.  It will be seen hereafter that
her motives, her methods, the results she brings about, all show
frequent, undeniable error or deviation.  She attempts to carry through a
sound enterprise, but abandons it on finding unforeseen difficulties in
the way.  She will persevere blindly in an obviously foolish piece of
business, and fail to see her mistake until both energy and resources are
at an end.  Sudden emergencies may find her ready with the saving stroke
of last ingenuity, or merely plunge her into listless despair.  Courage,
industry, economy, wise forethought, or still wiser afterthought, are all
common traits in her nature.  But she may develop idleness, unthrift,
slovenliness, or even downright dishonesty, if chance or circumstance
indicate the way.

And what are all these but the defects or attributes of reason?  If bees
and men, each admittedly rooted in divinity, be prone to the like
failings and inconsequences, who shall discriminate between them,
dividing arbitrarily natural cause and effect?

Watching bees at work for the first time through the glass panels of an
observation hive, or in the almost equally informing modern hive with
movable combs, this question continually arises, and there seems only one
answer for it.  There is something curiously human-like in their
movements over the crowded combs, and the old comparison of a beehive to
a city of men is never out of mind.  There are the incessant hurryings to
and fro; chance meetings of friends at odd street-corners; altercations
where we can almost hear the surly complaint and tart reply; busy masons
and tilers and warehouse-hands at work everywhere: a hundred different
enterprises going forward in every thronging thoroughfare or narrow
side-lane, from the great main entrance to the remotest drone-haunted
corner of the hive.

You will see the huge, full-bodied queen labouring over the combs from
cell to cell, with a circle of attendants ever about her.  In the highest
stories of the hive the honey-makers are at work, pouring the
new-garnered sweets into the vats, or sealing over with impervious wax
the mature honey.  Where the nurseries are established, in the central
and warmest region of the hive, the nurse-bees are hurrying incessantly
over the combs, looking into each cell to mark the progress of the larvæ;
giving each its due ration of bee-milk; or, when the time arrives,
walling up the cell with a covering that shall insure its privacy, but
freely admit the air.  Here and there the young bees have awakened from
their transforming slumber, and are clamouring at the stoppings of their
prenatal tombs, gnawing their way out vigorously, or thrusting forth red,
glistening, ravenous tongues, eager to end their long fast.  Where these
raw youngsters have at last won their way into existence, they can be
seen assiduously grooming themselves, or searching the neighbouring comb
for honey, while the nurse-bees are busy cleaning out the cells, just
vacated, to make them ready for the queen when she comes by on her next
egg laying round.

And all these operations are going forward simultaneously on an
incredibly large scale.  Certain amazing scraps of information are given
to the wondering on-looker, which he hears, but can, at this stage in his
progress, seldom rightly estimate.  He is told that the queen is the only
mother-bee in the colony, large as it is; that, in the prime of her
maternity, she will lay as many as 3,000 eggs a day; and that she has the
power to produce either male or female eggs, or none at all, at will.  He
is told that, except when she leads forth the swarm, she goes out of the
hive only once in her life, and this is her wedding-trip.  On this one
occasion she has traffic with the drone somewhere incredibly high up in
the blue air and sunshine of the summer’s day; and that immediate death
is her suitor’s invariable portion; that she returns at once to the hive,
and thereafter for the rest of her life, which may endure for years, she
passes her time in immaculate widowhood, yet retaining her fertility to
the end.

            [Picture: Comb-frame from modern hive, with Queen]

She is pointed out to the gaping novice as she travels her unceasing
round of the brood-combs, and her various attributes are explained to
him.  He is shown how much larger she is than the worker-bee; how her
bodily structure differs in a dozen important ways; how her instincts and
habits resemble those of the common worker hardly in a single particular.
Finally he is told something at which the most polite credulity may well
demur.  Although the mother-bee is to all appearances of a totally
different race, the egg from which she was raised was identical with that
which produces the little worker.  Her bodily size, the change in the
number and shape of her organs, her mental differences, are all due to
treatment and diet alone.  There is no reason why she should not have
been an ordinary neuter working-bee, nor why any one of the thirty or
forty thousand little workers in a hive should not have become a great
queen-bee, the sole mother of an entire colony, save for the edict of the
communal mind.  More wonderful still, the drones, the male bees—the
brothers, never the fathers, of their own hive, as has been so often
stated—owe the fact of their sex entirely to the will or whim of the hive
authorities, working through the docile agency of the queen.  Until the
moment before the egg is laid, the question of the sex of the resulting
bee is held in abeyance.  This big lusty drone, with exuberant
masculinity obvious in every posture and act; his totally different
organism; his incapacity for anything else than the fulfilment of the one
office required of him, for he cannot even entirely feed himself; his
habit of spending his life either in a comfortable lethargy of repletion
at home, or in amorous knight-errantry abroad—this drone might have been
a little plodding worker-bee, with shrunken yet elaborated body and
curiously developed brain, whose one idea in life is to get through the
largest amount of work before death claims her, and who is armed with a
formidable poisoned sting, while the drone has none.

It is useless at this stage to tell the learner that all these vital
differences—miracles, indeed, in the ordinary meaning of the word—are
brought about by the leading powers of the hive in certain simple, easily
explainable ways.  He has lost, for the moment, all sight of and interest
in the details, however extraordinary, in the perception that has dawned
on him of the vastness of the entire plan.  Here is a community that, to
all appearances, has solved every problem relating to the well-being and
progress of a crowded, highly organised society.  Questions that are now
vexing socialistic philosophers in the human world, or are looming dark
in the immediate future—problems of numerical increase in relation to
food-supply, the balance of the sexes, communal or individual ownership
in property, due qualification for parenthood, the hegemony of might or
right—all seem to have been happily settled long ago in this remarkable
bee-commonwealth.  In itself a prosperous, well-conducted hive appears to
offer a living example, a perfect object-lesson of what Socialism,
carried out to its last and sternest conclusions, must mean to human and
apiarian communities alike.  Here is a number of individuals—counting
anything from ten thousand to fifty or sixty thousand, according to their
condition and the time of year—living heathily and comfortably in the
space of a few cubic feet.  The principle, all for the greatest good of
the greatest number, is elevated into a prime maxim, to which every one
must bow.  The fiction of royalty is maintained in harmony with the
perfect republican spirit.  The females are supreme in everything, the
males in nothing.  Growth of population is accelerated or retarded,
according to estimations of the immediate or future supply of food.  The
proportion of the sexes is varied at will.  The rule, that those who
cannot work must not live, is applied with relentless consistency.  All
the garnered wealth of the State is held in common for the common good.
When the settlement becomes too populous, and the boundaries cannot be
extended, a large part of its inhabitants are forced to emigrate, taking
with them only so much of the state property as they can carry in their
haversacks, and relinquishing all claim to the rest.  The governing
females have apparently agreed among themselves that only one of their
number shall exercise the privilege of motherhood; and when her fertility
declines, she is deposed, and a new mother-bee, specially raised for the
purpose, installed in her place.

All these, and a host of other facts as to bee-life, are crowded into the
bewildered brain of the tiro until its capacity is exhausted, and he can
take no more.  He begins to see, at length, that he is approaching a
great matter too fast, and from the wrong direction.  Like a scholar who,
resolving on a new and difficult branch of study, commences at the end of
his treatise instead of at the beginning, he finds himself in the midst
of terms and equations of which he knows nothing.  All this desultory
peering into hive-windows, and listening to scraps of astounding
information, is nothing but opening the book of bee-life here and there
at odd disjointed pages, getting a swift impression of certain lurid,
kaleidoscopic details, but no grounding in the consecutive science of the
facts.  There is nothing for it—if he be resolved to know the life of the
honey-bee truly—but to turn back to the first page of the volume, and
steadily work his way through to the end—if end there be.

                                * * * * *

All know the English honey-bee—the Black Bee, as she is called, partly to
distinguish her from her foreign rivals, and partly, it would seem,
because she is not black at all, but a rich brown—but all do not know her
origin.  Probably she came to us from the tropics by easy stages, swarm
out-flying swarm, until the most adventurous crossed the English Channel
in remote ages, when it was only a narrow race of water, or even before
Great Britain was detached from the mainland.

It was the black bee, and not the motley-coloured Italian or other
varieties, who came to us thus, for the same reason, probably, that the
Celts came—because they were a hardy race, loving, and being more fitted
for the bracing northern atmosphere than the heat and languor of the
south.  Modern bee-breeders who are trying so hard to acclimatise in
Britain the golden-girdled or silver-fringed bee-races of other lands,
might well ponder this fact.  No keener controversy rages to-day among
English bee-masters than this one of the relative merits of native and
foreign stocks.  But assuredly Nature has not erred in this respect.
South Down sheep can be reared in any county, but nowhere so fine as on
the Sussex Downs.  The like principle holds good with the English bee.
The ages have evolved her from her tropic beginnings to make her what she
is—a doughty, essentially British creature, thriving against all odds of
fickle climate, when her more tender sisters from the south are hard put
to it for a living.  She has held her own against them, and more than her
own.  In bumper seasons, such as we get all too rarely, when, in sober
truth, the land is flowing with honey, there is little to choose between
the rival honey-makers.  But through good and bad, early and late, for
steady, dogged industry, invincible hardihood, tangible results, the
English black bee has out-distanced all competitors.  Thousands of years
have gone to her making, and thousands more may conceivably fit the
yellow-skirted Ligurian for British work.  But labour for so remote a
posterity were altruism meeter for angels than for men.

In her old primæval fastnesses the honey-bee is little likely to have
troubled herself with hive-making, but to have hung her combs to some
convenient branch in the forest, much as the bees in India do to-day.
The habit of seeking some hollow tree or cleft in the rock grew upon her
probably as she advanced northward, and some nightly or seasonal shelter
became more and more an imperious need.  The present-day customs of wild
creatures give some inkling of their ancestral ways, but it is in their
occasional aberrations from these customs that we get the truest
indications of what their original state must have been.  Lost swarms of
bees, if they fail to pitch upon some better site, will often build in
the open, either suspending their waxen houses from some horizontal
branch, or making them in the heart of a thick bush.

The ways of the honey-bee are full of such deviations, due, perhaps, to
the working of old ancestral memory rousing dimly in the midst of modern
needs.  The issue of a swarm may be nothing else than the survival of an
old process, vital enough in its day, but, under the present civilised
conditions of bee-life, lacking the whet of entire necessity.  For, in
all respects, the life of the bee, ancient as it is, is an evolved
civilisation, and not a surviving, aboriginal state.  It is conceivable
that the foxes have their holes, and the birds their nests, much after
the same fashion as in the days when Adam invented love-making.  But the
twentieth-century honey-bee is not of this kind.  The communal habit
itself may even have been a comparatively late introduction in her
progress.  It is possible to get some idea of the path she won for
herself through the ages by studying the ways of creatures now living,
but immeasurably less advanced than the bee.  There are distant
connections of hers—lonely little wood-wasps and others—which never
associate with their kind, but get through the short summer hours in
solitude, and die with the waning season, leaving the perpetuation of
their species to the children they never see.  The common wasp is nearer
the honey-bee in development, but still infinitely far behind.  The
fecundated queen-wasp comes out of her winter hiding-place, fashions a
cell or two in some hole in the ground, and deposits her first eggs, thus
laying the foundation of a colony which, populous enough in the season,
must nevertheless perish with the next winter chills.

In the primæval tropics the honey-bees may have lived in separate
families, each with its teeming mother, its indolent, lie-abed father—the
Turveydrop of creation—and its bevy of youngsters, every one going out,
when grown, to establish a home for itself.  The modern bee-city, with
its complicated systems and laws, and its innumerable multitudes, may
have originated only when change of habitat and climate brought about the
necessity for a new order of things.  Living in perpetual warmth, in a
land where blossom followed blossom in unending succession, there would
be no need for such co-operation.  The one little family, snugging close
in its moss-roofed corner, could sustain its own temperature; and where
there was unceasing array of nectar-producing flowers, foresight would
have been folly: the winter larder would have been left to take care of
itself.

But as the young bees, leaving their homes, and flying ever northward,
came first into temperate zones, and then into the fringe of Arctic
influences, the conditions gradually changed.  The perpetual
sipping-garden was left behind; and a season came in each year—short at
first, but inevitably lengthening—when there were no flowers.  Hard
necessity must have taught the bee, then, first to gather together with
her kind for warmth during the cold season; and then, as this got longer
and longer, to make some food-provision for winter days that would eke
out endurance until the spring sun again wooed the earth into
flower-giving.  Thus the first communal bee-nests must have been evolved
from the universal need of the race: the first common storehouses
instituted: a host of unforeseen difficulties and side-issues
encountered, and means for dealing with them contrived.  The spirit of
invention must have been busy then with the race, and taxed to the limit,
of her resources.  For never did Pandora open celestial casket upon earth
with more redoubtable consequences, than when the Great Artificer set up
the honey-bee as an examplar of city-building to the nomadic world of
men.

From the crowding together of the separate bee-families for mutual
protection against the elements, to a complete and permanent fusion of
life and interests, must have been only a step, as Nature works.  But
then there must have been stirring times—social upheavals, educative
disasters, a cataclysmic war of sex.  Bee-life must have been shaken to
its very foundations.  When and how the woman-bee first got the upper
hand in the direction of affairs, it is unimportant to determine.  But it
is certain that she got it, and has kept it ever since.  The population
problem must have been the great, overwhelming one.  With hundreds of
prolific mothers in the hive, each having enough to do at home in rearing
her own children, and a crowd of lazy, irresponsible drones who could do
nothing but dance in the sunshine or go a-wooing, how were the daily
needs of the hive to be satisfied, leaving out of account the provision
that must be made for coming winter days?  It was clearly a case of
reform or annihilation; and it may be conceived that the woman-bees, in
default of masculine initiative, took the reins into their own hands.

It is a prophetic story.  First they discovered their latent powers.  The
harmless ovipositor revealed itself as a prime weapon of offence.  Thus
the army was with the revolutionaries, and the rest was easy.  A great,
far-reaching scheme was set afoot.  Motherhood was to be a privilege of
the few and the fittest; work the compulsory lot of the mass.  Hard times
had already bred a lean, unfertile gang among them, and it was discovered
that famine rations in the nursery meant a wholesale increase in these
natural spinsters of the race.  Henceforth the little sex-atrophied
worker-bee was multiplied in the hive, while the fully nurtured mothers
were gradually reduced to a few—at last to one alone.  It was a triumph
of collective self-sacrifice for the well-being and high persistence of
the race.

All this may be imagined as having taken place in infinitely remote
times, long before man succeeded in distinguishing himself from the apes.
In the honey-bee of to-day, and her life in the modern hive, we get a
sort of quintessence of the ages; a creature developed in mind and body
by her unique conditions, these conditions again imposing upon her unique
systems of life.  Like Ruskin’s Venetian, she must live nobly or perish.
Much more is required of her than the role of domestic and political
economist.  To make the modern beehive a possibility there must be
architects, mathematicians, and chemists within its walls.  Sanitary
science must have its skilled exponents, or the hive would change into a
death-trap within a few hours.  There must be land-surveyors ready to
explore the country, just before the issue of the swarms, to determine
for them their new location.  There must be overseers, gang-forewomen,
everywhere to superintend every work in progress throughout the hive.
Above all, there must be a supreme central power, a farseeing
intelligence, to divine the imminent common need, and to set the forces
of the State to work, in right time and order, to provide for it.  If all
these cannot be proved to exist in a hive of bees to-day, at least the
necessity for them is undeniable; and as undeniable, the achieved
results.




CHAPTER VI
EARLY WORK IN THE BEE-CITY


THE “turn of the days,” when the winter sun has passed its nadir of
feebleness and just made its earliest wan recovery in the skies, marks
the true beginning of the honey-bee’s year.  Then the first few eggs are
laid in the heart of the brood-nest; the drowsy cluster begins to show an
interest in life; the water-carriers bestir themselves, watching for a
bright warm morning that they may sally forth to ply their trade.

Dangerous work it is at this season, yet most necessary.  Without water
the rearing of the young bees is impossible on any but the smallest
scale.  Water is needed at every stage of their development, and, lacking
it, the progress of the colony must be fatally checked.  Even the mature
bees will starve and die in the midst of plenty, if their honey-stores
are candied, and no water is available to dissolve the inassimilable
sweets.  The hive that shows honey crystals thrown down on the floor, and
littering the entrance, is sure to be in desperate case.  The bees are
tearing open every store-cell, casting away the solidified honey as
refuse, to get at the moister portion below.  If the cold spell does not
break, or the bee-master is unready with his artificial supplies, the
colony must perish.  So the water-bearers watch for the sunshine, and its
first warm glance brings them out to rifle the nearest dewdrops, or track
down by its bubbling music the hidden woodland stream.  Many die at this
work in the early months of the year, chilled by their load on the
homeward journey, or snapped up by hungry birds.  But at every cost the
future life of the colony must be assured, though, of all the
hive-people, none but the queen-mother will be alive to see it in its
summer fulness.

We are accustomed to think of a hive of bees as a permanent institution,
Death playing his old, unceasing, busy part, but young Life more than
outplaying him, just as the way is in a city-hive of men.  The analogy
holds good, but in bee-life the changes are infinitely more rapid.  The
life of the worker-bee extends, at most, to six months or so; and in the
busy season she may die, worn out by labour, in as many weeks.  The
reapers of last year’s honey-harvest were dead by the autumn.  The
late-born bees, that went into winter quarters with polished thorax and
ragged wings, survived only long enough to nurture their immediate
successors; and these, again, will live but to bring to maturity the
young spring-broods.  Not a bee among them will ever again go
honey-gathering.  Except for the long-lived queen-mother, and the old
hive and its furniture, each colony with every year becomes a totally new
thing.

Hibernation, in the true sense of the word, has no part in bee-life.  The
queen-wasp and countless other creatures hibernate, passing the cold
months in a torpor of sleep until the enduring warmth of another year
lures them back to active existence.  But the honey-bees have a better
way: they gather together in a dense, all but motionless cluster in the
heart of the hive, with their precious queen in their midst and their
food-stores above them.  At this time honey is their only necessary food,
and very little of this suffices to keep up the needful temperature of
the colony.  When they are out and about at their work, or busy within
the hive, the nitrogenous pollen must be added to their daily ration of
nectar to build up wasted tissues; but now honey, the nectar
concentrated, the heat-producer, is all they want.  The bees of the
cluster nearest to the combs broach the full cells beneath them, and the
honey is passed through the crowd, each bee getting its scanty dole.

                   [Picture: Winter in the Bee-Garden]

Economy is now reduced to a fine art.  None knows when a fresh supply may
be available, although no chance will be lost to replenish the larder at
the first sign of returning warmth.  But now the barest minimum of food
is taken, and as the nearest cells become emptied of their contents, the
cluster moves a step upward.  Thus there is a system of slow browsing
over the combs, until the dense flock of bees has reached the highest
limit of the hive, when new grazing-ground must be taken.  But the
movement of the cluster is exceedingly slow, perhaps the slowest thing in
the animate world.  All recognise that existence depends on the stores
being eked out to their uttermost.  It is a scientific damping-down of
the fires of life—a carefully thought-out and perfected plan for
preserving the greatest possible number of worker-bees alive on the
smallest practicable amount of food, so that the largest possible army of
nurse-bees and foragers may be at hand in the springtime to raise the
young bees that are to represent the future colony.

But there is no hibernation.  It is doubtful even if bees ever sleep,
either in their season of greatest activity or in the coldest depths of
winter.  At all times a slight rap on the hive will awaken an immediate
timorous outcry within.  Sturdy knocking will soon bring the guard-bees
to the entrance to find out the cause of the disturbance, and many bees
lose their lives from this vigilant habit alone.  On frosty days the tits
may often be seen perched on the entrance-board of a hive, beating out a
noisy tattoo, and snapping up every bee that emerges; and many other
small birds have discovered the same never-failing source of a meal.

The fact that, with a healthy stock of bees, the interior of a hive
always preserves its clean condition, is usually a great puzzle to the
novice.  In the summer, when the bees are passing continually in and out,
this is not so vast a matter for wonder.  But in winter-time, when the
colony is confined to the hive often for weeks together, it is remarkable
that neither the combs nor floor of the hive are ever soiled by excreta.
This is a difficulty that the sanitary department in the hive has
successfully coped with long ago.  It must have been one of the earliest
problems that presented itself when the honey-bee first evolved the
communal habit.  The Ancients believed that all the excreta of the hive
were deposited by the bees in certain privy-cells, and thence removed at
intervals by the scavenging authorities.  There is nothing in this
notion, absurd as it is, outside the scope of bee-ingenuity; on the
contrary, such a crude device would be little likely to commend itself to
the hive-people, as it would be ridiculously inadequate to the case.  How
great must be the problem of the preservation of cleanliness in a hive,
can only be understood when the whole conditions are considered together,
and that from a human standpoint.  Putting the figures unwarrantably low,
what measure of success could the greatest genius that ever lived among
sanitary scientists ever hope to achieve, if he were given the task of
keeping in cleanly condition, perfect ventilation, and even temperature,
a building where 10,000 individuals were crowded together storey above
storey—a building hermetically sealed throughout except for one small
opening at the lowest level, which must serve for all purposes of
entrance and exit to its denizens, as well as sole conduit for the
removal of the foul air and introduction of the pure?  The task would be
gigantic enough in the summer-time, when a large proportion of the
inhabitants were away at work during a greater part of the day; but in
winter, when all were continuously at home for weeks together, what
conceivable device, or combination of devices, could prevent the building
soon developing into first a quagmire and then a charnel-house, to which
the Black Hole of Calcutta would be a model sanitary retreat?

Yet the difference between such a building and a beehive is only one of
degree.  The same conditions are involved, and the same evils must be
combated.  Relatively, the problem is the same in each.  In the case of
the beehive, the necessity for this close system of life has been very
gradually imposed on its inhabitants; and age-long custom, working on the
individual, has at length produced a race marvellously adapted to its
special needs.  Probably the habit of retention of fæces while in the
hive was at first a voluntary one.  This, carried on from generation to
generation, would react on the physical organism until use became second
nature, and finally the present condition was reached.  It is a fact that
the bee is now incapable of voiding its excreta within the hive, or when
at rest.  The muscles involved can come into action only during, or
immediately after, vigorous flight.  In the winter, when long spells of
cold occur, not a bee leaves the hive perhaps for weeks together; but an
hour’s warm sunshine will infallibly bring the whole company out in a
little eddying crowd about the hive, and then the necessary action of
nature can readily be seen.  These cleansing flights occur on all
practicable occasions, and fulfil a double purpose; for when the cluster
forms again, it will be between combs where the stores are unexploited,
and the old, steady, upward feeding-march begins again in a new place.
In extraordinary seasons, when the cold weather is much prolonged, the
population of a hive may die of starvation within reach of plenty, no
opportunity for these flights having presented itself, and the cluster
therefore not having left its original station.  And here the bee is
plainly the victim of her own advanced acumen.  Instinct would never have
led her into such a foolish plight; but reason, being liable to err, errs
here egregiously.

The comparison of a modern beehive with a building similar in
construction, and as densely crowded with human beings, brings the whole
problem to a sharp definition.  In such a building, unless a
through-current of air could be established, the preservation of life
must soon become impossible.  Yet the bees have triumphantly overcome all
difficulties.  Whether in winter or summer, the air within the hive is
almost as pure as that in the open, while the temperature can be
regulated at will.  For the ordinary purposes of the hive—honey-brewing,
and the hatching of the young brood—it is kept uniformly at 80° to 85°.
When the wax-makers are at work, it rises suddenly to 95° or so, while at
the time of the swarming-fever it is often allowed to go even higher.  In
the hottest days of summer, however, unless the emigration-furore
possesses the colony, the interior of a well-made hive seldom shows a
temperature of more than 80°.  And all this is brought about in a very
simple fashion.

The sanitary expert, of merely human stock, could attack the problem in
only one way.  He must have a through-current of air, impelled either
mechanically or automatically; and he must have heating-apparatus acting
within the building itself, or warming the incoming draught of air.  But
the bees work on totally different principles.  They will have nothing to
do with the through-current system of ventilation.  If the ingenious
bee-master pierce air-holes in the walls of a hive, the bees will spend
the night in carefully stopping them up again.  In the old bee-garden we
saw the fanning-army drawing out the impure air.  These bees had their
heads pointing towards the entrance; but, inside the hive, there was
another army of fanners, facing the opposite way, and thus helping to
drive the same sidelong current.  Throughout nearly the whole interior of
the hive on hot days fanning-bees can be seen, all helping to keep up
this movement.  The result is that the pure air, being sucked in at one
side of the entrance, flows round the hive and travels out at the other
side, much as a rope goes over a pulley-block.  The swiftest current of
air keeps to the walls and roof of the hive, the air in the centre being
changed more slowly.  Thus the honeycombs, which are always in the upper
stories, lie in the full stream, and the moisture, which the maturing
honey is continually giving off, is carried rapidly away; while the
brood-combs, lying in the lower, central part, are ventilated more
slowly, the air being thoroughly warmed before it reaches them.  The
larger the fanning-army is, the more swiftly flows the air, and the
faster the heat of the hive is carried off.  In this way the bees can
regulate the hive-temperature to the requirements of the moment, putting
more numerous gangs to work in the hottest season, or stopping the
fanners altogether in mid-winter, when the natural, buoyant
heat-exhalation from the cluster is sufficient to keep up the gentle
circulation which then is alone needed.

Sometimes, when the colony is unusually large, the fanning-party will be
divided into two detachments, one at each side of the entrance, leaving
the centre for the inflow of air.  In this case a double-loop system of
ventilation appears to be formed.




CHAPTER VII
THE GENESIS OF THE QUEEN


IT has been said that the ways of the honey-bee are nearly all subject to
variation—that in bee-life there are few hard-and-fast, undeviating laws.
The rule, of one queen-mother only to each hive, appears to be more
absolute than any other, yet it is not without its exceptions.  Well
authenticated instances are on record where two queens have existed
amicably in the same hive, each laying her daily quota of eggs unmolested
by the other, and, apparently, with the full approval of the
hive-authorities.

It is now also certain that a skilful bee-master can accustom his bees to
the presence of more than one queen.  Recent experiments in America on
this head, although convincing enough as far as they go, need the test of
time before their practical value to apiculture can be rightly estimated.
To multiply its domestic deities may prove anything but a blessing to the
harmony and welfare of a hive.  But the fact has been well established
that the old rule, of one queen at a time, may be upset—whether
permanently, and for the ultimate advantage of honey-making, time alone
can tell.

                 [Picture: Drone-brood and worker-broods]

A single queen, when young and vigorous and of good blood, is able to
keep an entire hive filled with brood throughout the short
honey-gathering season.  The brood-nest of a modern frame-bar hive has a
comb-surface of over 2,000 square inches, giving about 50,000 cells
available for the breeding of young worker-bees.  This represents, at
times of greatest prosperity, an enormous floating population; but if
several queens can be permanently established in one hive, and the hives
enlarged to permit each her fullest scope, the figures will soon begin to
stretch out into infinity.  Two facts are well known to experienced
bee-keepers—that a large stock gathers more honey than two small stocks
containing between them the same number of individuals; and that, when
the honey-crop is in full yield, there are seldom enough bees to harvest
it.  The whole art of latter-day bee-keeping consists in bringing up the
numerical strength of each colony to its fullest in time for the great
main nectar-flow.  Yet, in a good district and in a good season, when
huge areas of clover or sainfoin come into full blossom at the same time,
and the nectar must be gathered or lost within the space of a fortnight
or so, the most populous apiary is seldom equal to the task.  Probably,
in exceptional seasons, half the English honey-crop is lost for want of
bees to gather it.  If, therefore, the new system of plurality of queens
both justifies and establishes itself, the near future may see a
revolution in all ideas relating to beemanship.  All that can be said for
certain at present is that as many as five queens have been induced to
occupy the same hive in peace and quiet together; but whether this
portentous state of affairs can remain a lasting one is still to be
proved.

A curious and, to the expert, a startling outcome of these efforts to
break down an old and almost universal custom in bee-life, is that the
successful establishment of several mother-bees in a single hive appears
to lessen the swarming impulse.  Hives so treated do not send out a swarm
so far as is known.  One of the most disappointing experiences in
bee-craft is to see prosperous stocks breaking themselves up into several
hopelessly weak detachments just before the great honey-flow, when
strength of numbers is the one vital thing; and if plurality of queens
will prevent this vexatious evil, the old time-honoured custom is sure to
go.

The student of bee-life, watching the year’s work in the hive from its
earliest beginnings, and marking its steady, cautious development, will
readily see how the ancient idea of the mother-bee’s absolute monarchy
gained its vogue.  The deception of appearances is all but complete.
Right in the heart of the winter-cluster he sees the queen bestirring
herself to lay the first eggs, and the bees around her slowly awakening
to the duty before them.  With the passing of the weeks, he sees the
brood-area steadily enlarging; the hitherto close-packed throng of
workers gradually extending itself over a larger space of comb; the
water-fetchers increasingly busy; the pollen-gathering bees already at
work in the crocus-borders of the garden, where the year’s first gold and
white and purple is gaily flaunting in the sun.  He notes that the
progress of the colony within the warm hive does not go by the calendar,
but checks with each return of cold, and forges ahead only when the
spring seems to be coming in right good earnest.  He sees, even now, when
February is waning and the hazel-catkins fill the bare woodland with a
shimmer of emerald, that the colony still husbands its stores, eking them
out with a long-sighted parsimony that shall be more than justified when
the inevitable cold break comes in the flowery midst of the English May.
It is impossible to overlook the evidence of a wise, directing mind
through it all; and where should this be seated but in the brain of the
single large bee, courted and fed and groomed unceasingly by the
attendant host around her—she who is the teeming mother of past tens of
thousands, and who carries in her body the seed of all the generations to
come?

Yet the truth is that the queen-bee is the very reverse of a monarch,
both by nature and inclination.  She possesses only the merest rudiment
of intelligence.  She has a magnificent body, great docility, certain
almost unrestrainable impulse and passions, a yielding, womanish love of
the yoke; but she is incapable of action other than that arising from her
bodily promptings.  Her brain is much smaller than that of the worker.
In a dozen different ways she is inferior to the common worker-bees, who
rule her absolutely, mapping out her entire daily life and using her for
the good of the colony, just as a delicate, costly piece of mechanism is
used by human craftsmen to produce some necessary article of trade.

In a word, the queen is the sole surviving representative of the
aboriginal female honey-bee.  The aborted females, the workers, are
almost as much a product of civilisation as the human race itself.

Every step of the way now, in a study of the life of the bee, is hedged
about with wonders.  It is seen that the common worker-bee is raised in a
cell allowing her only the barest minimum of space for development, while
the queen has an apartment twice as long as she can possibly need.  The
worker-cells are so designed that as many a possible may be contained in
a given area, and their construction involve the least possible amount of
material.  Therefore these cells are made in the form of a hexagon, this
being the only shape approaching the cylindrical—the ideal form—of which
a number will fit together over a plane surface without leaving useless
spaces in between.  Moreover, the cells needing to be closed at the
bottom, half the material required for this purpose is saved by the
device of placing the sheets of combined hexagons back to back, so that
one base will serve for two cells.  But it is not only in the
construction of the cradles of the worker-bees that rigid economy is
practised.  From the moment that the egg hatches until the young grub
changes into the chrysalis state, it is given only the smallest quantity
of food that will support life and allow necessary development.

In the case of the young queen-larva, however, a very different policy is
instituted from the beginning.  Not only is she given nursery-quarters
allowing every facility for growth, but she is loaded with a specially
rich kind of food night and day, until she actually swims in it.  The
nurse-bees are constantly pouring this glistening white substance into
the cell for the whole five days of her larval existence, and the effect
of this generous diet is obvious from the first in her more rapid growth,
as compared with the worker-bee.  A further advantage still is that the
young queen has perfectly free access to the air at all stages of her
development.  The worker-cell is but sparsely ventilated, and that only
through the narrow top, all its six sides and base being absolutely
impervious.  But the cradle-cell of the queen is not only made of a
porous material throughout, but it is commonly placed at the edge of the
comb, where it stand out in the full current of ventilation, the air
percolating the whole substance of its walls in addition to entering
freely at the large cell-mouth.  Thus the main cause of the extraordinary
difference in the development of the queen-bee and the worker is that of
treatment; the one being given unlimited rich food and oxygen and room to
grow in, the other receiving only meagre workhouse diet, restricted
quarters, and little air to breathe.

Yet, making every allowance for the stimulating or retarding effect of
these agencies on the young female grub, we are still hardly any nearer
to solution of the mystery.  We are compelled to believe that the egg
which produces the worker is identical in its nature with that from which
is evolved the queen-bee, because a simple experiment will at once dispel
all doubt on the matter.  If the egg deposited in the queen-cell be
removed and an egg taken from any one of the thousand of worker-cells in
a hive be put in its place, the worker-egg will always produce a fully
developed and accoutred queen-bee.  On the other hand, if an egg be taken
from a queen-cell and placed in a worker-cell, it will as infallibly
hatch out into a common undersized worker.  It would be sufficient tax on
the credibility if the differences of queen and worker were only those of
degree.  If the queen were nothing but a large-sized worker-bee, in whom
certain organs—which were atrophied in the worker—had received their full
development, it would be a fact within comprehension; but the queen
differs from the worker not only in size and the capability of her
organism, but also on several important points of structure.  And how can
mere food and air and circumstance produce structural change?  The worker
has many bodily appliances, special members ingeniously adapted to her
daily tasks, of which the queen is wholly destitute; while the physical
organism of the queen varies from that of the worker in several important
degrees.

Some of these must be enumerated.  The abdomen of the worker is
comparatively short and rounded: that of the queen is larger and longer,
and comes to a fairly sharp point.  The jaws of the queen are notched on
their inner cutting edge: the worker’s jaws are smooth like the edge of a
knife.  The tongue of the worker has a spatula at its extremity, and is
furnished with sensitive hairs: the tongue of the queen is shorter, the
spatula is smaller, while the hairs show greater length.  The worker-bee
has a complicated system of wax-secreting discs under the horny plates of
her abdomen: in the queen these are absent, nor can the most elementary
trace of them be discovered.  In their nerve-systems the two show
difference, the queen possessing only four abdominal ganglia, while the
worker has five.  The queen’s sting is curved, and longer than the
worker’s: the sting of the worker-bee is perfectly straight.  On their
hind-legs the workers have a curious contrivance which bee-keepers have
named the pollen-basket.  It is a hollowing of the thigh, the cavity
being surrounded with stiff hairs; and within this the pollen is packed
and carried home to the hive.  In the queen both the cavity and the hairs
are absent.  Her colour also is generally different from that of the
worker-bee, her legs, in particular, being a much redder brown.

Here is a problem for our great biologists—a problem, however, at which
the plain, every-day man may well flinch.  For we seem to have come face
to face with new principles of organic life, facts incompatible with the
accepted ideas of the inevitable relation between cause and effect.  The
irresistible tendency at this stage is to hark back; to repeat the
experiment of the transposed eggs, and see whether no vital, initial
circumstance has been overlooked.  But the result is always the same.
Nor can the most careful microscopical dissection of the eggs themselves
reveal any differences.  In this mystery of the structural variance
between queen and worker, it would seem that we are forced to accept one
of three alternatives.  Either the egg contains two distinct germs of
life, one developing only under the stress of hard times, the other only
to the call of luxury.  Or we must go back to mediæval notions, and
believe that the worker-bees give or withhold some vital principle of
their own during nurturing operations.  Or we must give up the problem,
and decide that creation works on lines very different from those on
which we have hitherto grounded our faith.

The difficulty is further complicated by the fact that this change of
nature does not take place until relatively late in the life of the bee.
The egg is three days in hatching.  But the young larva is at least three
more days old before nature has made the irrevocable step along either of
the divergent ways.  For the experiment of transposition can be made with
exactly the same result if undertaken with female bee-larvæ not more than
three days old, instead of the unhatched eggs.  Indeed, this is an
operation that the nurse-bees themselves perform, on occasion.  If a hive
loses its queen, and it happens that all the eggs in the worker-cells are
hatched out, the bees will breed another queen from any one of the
worker-larva available.  This is generally successful when the young grub
has not passed the three days’ limit.  But, even when all the larvæ of
the hive are older than this, the bees will still attempt the task,
knowing well that, without a queen, the colony must perish.  In this
case, however, the resulting queen will be defective in various ways.
Probably she will never be capable of fertilisation, and therefore the
breed of worker-bees will be cut off at its source.  Unless the
bee-master supplies the colony with a new queen, properly fecundated, the
hive will gradually fill up with drones, the old worker-bees will die
off, and the stock must ultimately become extinct.

When once the study of the inner life of the honey-bee has been
undertaken, the watcher will soon realise that he has embarked on a
stranger voyage than he ever contemplated, even in his most daring
moments.  In the old bee-garden there was a serenity, a quiet enduring
bliss of ignorance, that chimed in well with his slothful, holiday mood.
The sunshine, the flowers, the song of the wind in the tree-tops, and the
drowsy song of the hives; the voice of the old white-headed cottager
weaving in his listener’s ear the old, comfortable arabesque of error;
the sudden, jubilant uproar of a swarm, filling the blue sky with music
and the flash of unnumbered wings; the night-quiet, with its deep
underground bee-murmur, its dim half-moon peering over the hill-top, the
shadowy bent figure of the old beeman listening at hive-doors for the
battle-cry of rival queens, that should mean trouble on the morrow—it all
comes back to the watcher now as a haven he has left inconsiderately, for
a voyage over unknown, stormy seas.  For now, with the inner life of the
hive going on unmasked before his very eyes, wonder succeeds wonder
almost without a break; and each new fact that reveals itself is more
perturbing, because more destructive of old, hallowed convention, than
any that has gone before.

The hive that has lost its mother-bee, and failed to provide her with a
fully developed, fertile successor, is seen to be rapidly declining in
its worker-population, while the horde of drones is increasing at a
greater rate than ever.  But where do these drones come from, if the very
fount of bee-life has been dried up at its source by the loss of a
fertilised queen?  The question brings the student to what is perhaps the
most remarkable fact in the whole great book of natural history.

We are not concerned, for the moment, with theological matters; nor will
the thread of the story of the honey-bee be laid down, however briefly,
for an excursion into the pulpit.  Yet here is something that may well
give wherewithal for thought.  For nearly two thousand years the Doctrine
of the Virgin Birth has been the centre of a bitter human controversy.
Its liegemen uphold it as a main article of faith, eternally exalted from
the odious need of proof; its temperate opposers sadly and quietly set it
aside as a natural impossibility.  On one side the charge is want of
faith; on the other of blind credulity.  And yet no one seems to have
thought of looking into paths of creation other than human, to see if no
parallel exists that may help both sides, and send the swords to sheath
before a common mystery.  The honey-bee is small among the fowls, but
here she looms large in the world, a portentous symbol.  It is a fact,
now incontestably proved, that the virgin queen-bee is capable of
reproducing her kind, yet only the male of the species.  If she is born
late in the year, when no drones exist, and her fertilisation is
therefore impossible, or if some imperfection of wing prevents her going
out for her mating-flight, she will still set busily to work at her one
function of egg-laying; and these eggs will all hatch out into male bees.
The same thing occurs in the case of the queenless hive, which, having
neither worker-egg nor worker-grub, whose age is under the three days’
limit, yet tries to raise a new queen from a larva perhaps four or even
five days old.  The queen thus created is queen only in name.  She may
have her ovaries completely developed, but otherwise she will be
congenitally destitute.  She will have neither the will nor power to
receive the drone; and the eggs that she lays so industriously only add
to the crowd of useless males that will soon be the sole representatives
of the doomed household.

                 [Picture: Queen-bee in breeding season]

Following the progress of a bee-colony through the mounting days of
spring, we see, with every week that passes, a larger area of comb
occupied by the young worker-brood; while about the middle of April the
queen pays her first visit to the drone-combs, laying a single egg in
each cell, as with the rest.  It is commonly supposed that the queen is
always surrounded by an adulatory retinue, each attendant bee keeping her
head respectfully towards her sovereign, and backing before her as she
progresses over the combs.  Something of this sort is constantly seen
during breeding-time, but at other seasons the queen ordinarily receives
little attention, passing to and fro in the hive with no more ceremony
than is bestowed on any other of the bees.  The mediæval writers were
aware that the queen had these attendants, and believed them always to be
twelve in number, representing the twelve Apostles.  A little
observation, however, will soon make it clear that the bees which
surround the queen on her egg-laying journeys are neither devotees nor
courtiers.  They are actually her guides, her keepers.  The queen’s
movements are all prompted by the incessant strokings and pushings and
gentle touches of the antennæ that she receives from these.  Thus they
allow her free passage over the combs, but stop her at each vacant cell,
gathering close about her, evidently with the most absorbing anxiety and
interest in the operation.  First, she peers into the cell, examining it
carefully.  Then she rears; the bees give way before her; she takes a
step or two onward until the end of her body is over the cell.  And then
she thrusts her abdomen deep into it, pauses a moment, mounts again upon
the comb, and the attendant bees at once resume charge of her, and
manœuvre her towards the next empty cell.  This process never seems
hurried, and yet in the height of the breeding season it must go on at an
extraordinary pace.  It is well attested that a good queen will thus
furnish as many as two thousand to three thousand cells in a day, which
gives an average of two eggs a minute, even supposing her to keep at the
work without pause for the whole twenty-four hours.

The cells designed to contain the worker-brood measure one-fifth of an
inch across the mouth; drone cells are larger, having a diameter of a
quarter-inch, as well as greater depth.  The queen may pass from one
species of comb to the other, but she seldom makes a mistake.  The egg
deposited in the worker-cell hatches out a female; that which is laid in
the larger cell becomes a drone, or male bee.  Obviously the deposition
of the different kinds of eggs is well under the control of the queen.
It will be also seen that not only does the mother bee lay either male or
female eggs at will, but their number also is subject to her
discrimination.  From the time when she begins ovipositing, until she
reaches her period of greatest activity in early summer, the increase of
the colony is not regular, but goes by fits and starts according to the
weather, or the amount of incoming food.  If the new honey is steadily
mounting up in the storehouse, and pollen is plentiful, the work of
brood-raising will go freely ahead; but if unseasonable cold stops the
work of the foragers, this will immediately affect the output of the
queen, and under exceptionally adverse conditions egg-laying may be
entirely arrested.  This may also take place in the height of the season,
and in full favour of sunshine and plenty, if the hive is a small one,
and the limit of its capacity has been reached.  The combs will then be
full of either honey or brood, and the queen must wait until laying space
can be cleared for her.  That she is able to do this—that her powers can
be augmented or restrained, according to the needs of the colony, and
that the proportion of the sexes in the hive can be varied at will to
suit like contingencies—can only be understood when the details of her
life-history have been passed under review.

In the normal, prosperous colony, which we are now studying, the queen
will be in her prime, and under natural conditions will remain at the
head of affairs until she goes out with the first swarm in May or June.
A queen-bee is at the zenith of her fecundity in the second year of her
life.  After that, her egg-laying powers steadily decline, although she
may live to be four, or even five, years old.  But the authorities in a
hive rarely allow a mother-bee to retain her position after she has shown
signs of waning energy.  Preparations are at once set on foot for the
raising of another queen.

A very old queen will have lost her power to lay worker-eggs, and will
have become nothing but a drone-breeder.  But the bees are seldom caught
napping in this way.  Long before this happens the building of the royal
cells will have commenced in the hive.  A queen-cell has been likened, by
various writers, to an acorn, and when half completed it bears a very
close resemblance, both in size and shape, to an inverted acorn-cup.
This is commonly hung mouth downwards at the side or base of one of the
central brood-combs, but it may be placed right in the middle of the
comb, in which case the cells around it are cut away to give it air and
space.  Whether the old queen herself deposits the egg in the royal
cell—thus unwittingly supplying the means for her own future
dethronement—or whether the worker-bees transfer to it an egg or grub
from a common cell, is not yet finally ascertained.  As, however, the
mere sight of a royal cell usually excites the queen to fury, the chances
are that she is never allowed to approach it at any time, and the egg
would then be placed there by the worker-bees.  But, in the great
majority of cases, it is probable that new queens are raised by enlarging
an already existing worker-cell, in which an egg has been previously
deposited.  As far as is known, this is always the case when a young grub
is used for the purpose instead of an egg.  It is possible, also, that
the queen is physically incapable of laying in a royal cell an egg that
will produce a female bee; but this curious point will be touched upon at
a later stage.

                         [Picture: A Queen-cell]

The old trite saying among beemen, that bees never do anything
invariably, receives constant illustration in any near study of the ways
of the honey-bee.  It has been seen that a colony deprived of its queen,
and having no worker-egg or grub less than three days old wherewith to
make good its deficiency, is commonly doomed to early extinction.  But,
on rare occasions, colonies supposed to be in this plight will make an
unexpected and inexplicable recovery.  After a period of the doldrums,
extending for three weeks or more, a sudden renewed activity and
exhilaration is observable in the hive.  The pollen-bearers, who have
been hitherto almost idle, resume their busy work; and, on the hive being
opened, all the evidences of the presence of a fertile, laying
queen-mother are again to be seen.  In many instances in which a new
lease of life has thus been vouchsafed to a colony under what seems an
inexorable ban, no doubt appearances have been deceptive.  The bees may
have discovered in their midst a worker-larva not yet too far advanced
for promotion to queenship, and thus have achieved their salvation at the
eleventh hour.  But, in at least one case, the testimony against the
possibility of this seems complete.  A nucleus stock, containing only
three or four small combs and only about five hundred bees, was deprived
of its queen.  Ten days later every queen-cell that had been formed in
the interval was destroyed, leaving in the hive not a single egg or bee
in the larval state.  Nevertheless, on the hive being opened after a
further period of eighteen days, one new queen-cell containing an egg was
discovered.  And this egg duly hatched out into a fine, well-developed
queen-bee.  Assuming the facts to be true, and they seem to be
incontrovertible, there is only one inference to be drawn from this: some
enterprising bee of the colony must have gone to another hive and either
begged, borrowed, or stolen a worker-egg.  Apiarian scientists very
rightly hesitate to ascribe to the honey-bee surpassing ingenuity of this
kind on the testimony of a single case, however well authenticated.  But
other instances are on record nearly as indubitable, and as it is an
unquestioned fact that worker-bees will carry eggs about from comb to
comb within the space of their own hive, it does not seem wholly
incredible that they may visit other hives in the immediate
neighbourhood, especially when impelled to extra resourcefulness by so
vital a need.  The whole question is interesting in more ways than one,
as it seems to bear very trenchantly on the problem of “Reason versus
Instinct,” now busy in the thoughts of most modern naturalists.

In whatever way the egg for the queen-cell may be furnished by the stock
intending to raise a new mother-bee, the first sign of life is always the
same—a tiny, white, elongated speck, glued on end to the base, or what
must rather be called the roof, of the inverted cell-cup.  In this state
it remains about three days, when the larva hatches out, and at once the
special treatment accorded to the young queen begins.  She is loaded with
rich provender from the first moment of her existence, living literally
up to the eyes in the white, shining, jelly-like substance that the
nurse-bees are continually regurgitating and pouring into the cells.
This superfeeding process is continued for about five days, when the
larva has reached its full growth and the cell its greatest dimensions.
The larva then stops feeding to spin itself a silken shroud before
changing into the pupa state, and the bees seal up the door of the cell.
In its completed state the cell loses its resemblance to an acorn, and is
rather to be likened to a fir-cone.  In the case of the common workers
and drones, the cells are made of pure wax, only the capping being of
mingled wax and pollen; but the queen cell is constructed throughout of
this porous material.

The fully grown queen-bee is ready, and more than anxious to leave her
cradle-cell in about fifteen or sixteen days after the laying of the egg.
The bees, however, generally give her a first lesson in obedience even at
this early point in her career.  It is a critical time in the history of
the hive, and much thought and care have been bestowed on the complicated
business in hand.  In the first place, it would never have done to allow
the whole future welfare of the colony to depend on a single life alone.
Therefore not one queen has been raised, but several.  As many as five or
six queens may be ready to hatch out in different parts of the
brood-nest, and none of them will be permitted to break from her cell
until the appointed time arrives.  For each the cradle now becomes a
prison.  A small hole is bored in the cell-wall, through which the
impatient captive is fed, pending the day when she is to be allowed her
liberty; and close guard and watch is kept over each cell to save it from
the violence of the old queen, who is becoming hourly more restless and
suspicious.

The complete subjection of the mother-bee to the ruling worker-class in
the hive receives here a striking confirmation.  She is a true exemplar
of a prevailing kind of femininity—comely of person, untutored in mind,
an inveterate stay-at-home, a prolific mother; and now there awakens in
her the sounding chord of jealousy.  Left free to act on her own
impulses, she would soon bring about a speedy end to all the careful,
long-sighted preparations within the hive.  She would tear open each
royal cell, and with one thrust of the curved, cruel scimitar that
queen-bees use only on their equals in rank, its occupant would be
ruthlessly despatched, and her own supremacy reinstated.  But an
impassable barrier stops the way—the collective will of the hive.  The
violent delight of killing has once been hers; she will never know it
again.  Now her own fate is in the balance.  It may be death, or a new
life in a new home: all depends on the deliberate decree of those who
have made her, and who now use or discard her, for their own purposes.
If it be late spring, and the condition of the stock warrant it, this
governing spirit may decide for colonisation, and the old queen may be
disposed of by sending her off with a swarm.  But other counsels may
prevail.  The times may be unripe, or the weather inopportune.  And then
Fate, in the shape of a merciless application of principles, will descend
upon her, and her own wise children will ruthlessly put her to death.

This State-execution of the queen, at the first sign of waning fertility,
is a peculiarly pathetic as well as a tragic phase of bee-life.  The
stern, soured amazons of the hive must have their systems and conventions
in everything they undertake; and they cannot even bring about the
supersession of the old queen without due circumstance and ceremonial.
Given that it would be against the best interests of the common weal that
she should retain her life after the loss of her queenhood, one swift
stroke would immediately determine the matter, and the law—that there
shall be no useless members in the bee-republic—would have its due
fulfilment.  But old tradition rules that the queen shall suffer no
violence from the weapons of the common herd.  She is to die, but her
death must be brought about in another way.  And so the fawning
executioners gather round her, locking her in an embrace that tightens
with every moment, until the breath is literally hugged out of her body.
All her life has been spent in the midst of caresses, and now she is to
die of them, close held to the last in that silent, terrible grip.




CHAPTER VIII
THE BRIDE-WIDOW


IN the heat and glow of the fine June morning you may see her, the young
virgin queen, making ready for her nuptial flight.

At first she is all hesitancy; wandering to and fro amidst the crowd on
the hive-threshold; coquetting with the sunshine; loath to return to the
dim, pent, murmurous twilight she has forsaken, yet hardly daring to
launch herself on wings that are still untried.

For three long days and nights since her release from the prison-cell she
has been a curiously solitary figure in the busy throng within the hive.
Instead of the enthusiastic, welcoming world she expected, she finds none
but unregarding strangers about her.  Not a drone glances her way, and
the worker-bees go upon their business in seeming unconcern at her
presence.  They do not even trouble themselves to feed her, and she is
left to forage for herself as best she may.  A conspiracy of indifference
is on the clan—all part of a deep design for her education, if she only
knew it, but singularly damping to the ardours, and great ideas of
destiny, that gather within her day by day.  At length the call comes for
which all are secretly waiting, and obeying irresistibly, she presses out
into the light.

As she stands hesitating, the hot June sun falls upon her, laving her in
molten gold.  The blue sky beckons her upward.  All the world of colour
and incense and life calls her to her wooing, and she must needs obey.
With a little glad flutter of the wings, she breaks at last from the
scrambling company about her, and soars up into the light.

Warily now she hovers, taking careful stock of her home and its
surroundings.  Then round and round, in ever widening and lifting
circles, each sweep upward giving her a broader view of the world that
lies beyond.  And then away into the blue sky so swiftly that no human
eye can follow; yet only for a short flight.  She is back again now,
almost before you have missed her, and hurrying, frightened at her own
audacity, into the old safe gloom of the hive.

Thus she dallies, to and fro between the sunshine and the darkness, each
time adventuring a little farther into the blue playground of the upper
air, until at length the inevitable comes to pass.  A great drone—one of
the roistering crowd that fills the bee-garden with its hoarse noontide
music—spies her, and gives instant chase.  At sight of him she wheels,
and darts away into the sunshine at lightning speed.  Yet the first drone
has hardly stretched a wing before another is after him, and still
another.  Thick and fast from all points they gather for the race, until
the fleeing queen has drawn a whole bevy of them, streaming like a little
grey cloud behind her.  This much you can see as you strain your eyes in
their track; but in a moment quarry and huntsmen have vanished together,
volleying, as it seemed, straight up into the farthermost skies.

From her birth to the day when that terrible, living cordon closes about
her, almost the whole life of the queen-bee can be followed step by step.
Only this one moment of her bridal stands unrevealed, and perhaps for
ever unrevealable, to human eyes.  You can picture to yourself the wild
chevy-chase through the clear June air and sunshine; you can give, in
fancy, the prize to the strongest and the fleetest; but all you will know
for certain is that in a little while the queen returns to the hive,
sobered and solitary, trailing behind her infallible evidence of her
impregnation and the death of the victorious drone.  She has been the
bride of a moment; now she is to be the widow of a lifetime.
Henceforward her days are to be spent in the twilight cloisters of the
hive, flying abroad so rarely that many an old experienced beeman will
say she comes forth only once a year when she leads a swarm.  But in her
body now she carries the seed from which will spring up a whole nation.
Before her marriage-flight she was the least considered of all the
colony; now she is welcomed home with public ovation; lauded, fed, and
fondled; set up in the high place, a living symbol of the tens of
thousands unborn.  As in olden, savage times, the royal festivals had
their human sacrifices, so this paramount day in the perfected communism
of the bee-people must vent its rejoicing in slaughter.  But it is not
tribute of common slaves that is now to redden the State-shambles, nor
will the work fall to the common executioner’s knife.  There are captive
queens in the citadel—a royal sacrifice ready to hand, and a royal blade
hungering for the task.  Once the queen has proved her intrinsic
motherhood, and the first few worker-eggs have been laid in the comb, the
guards will stand away from the royal prison-cells and let her wreak her
will upon them.  It is all very ghastly in a miniature way, yet very
queenly, as old traditions of human queenhood go.  She gives over her
nursery-work gladly enough for a moment, and flies to the slaughter,
tearing down the prison-doors, and putting each clamorous captive
fiercely to the sword.

Apart from this tragic element of sororicide, quickly over and soon
forgotten in the general rejoicing, there is true romance in the early
life-story of the Queen of the Bees—bridehood, wifehood, widowhood,
following hard upon each other, all in the space of a single hour.  But
in the details of her common everyday life that succeed this tense
period, above all in the wonderful structure of her body and its
functions, there is greater romance still.  That she has but a single
commerce with the drone, and thereafter is exalted to perpetual
fecundity; that, through her, sons and daughters can be given to the hive
in just the proportion needed for the good of the State, or that increase
of population can be wholly arrested at will, are facts to be accredited
only after sure knowledge.  And to understand how these results are
brought about, it is necessary to learn something of the anatomy, as well
as the manner of fecundation, of the mother-bee.

In the first place, as fertilisation of the one sex by the other is
usually regarded, the queen-bee is not fertilised at all.  The vital
essence of the drone does not penetrate the ovaries of the queen, but
passes immediately after coition into a receptacle specially provided for
it, where it is stored, and its effectiveness preserved, during nearly
the whole lifetime of the queen.  It has been shown that the virgin queen
is able to lay eggs from which only drones, or male bees, originate.  The
fecundated queen, however, can lay both male and female eggs, and she has
the power of depositing either kind when and wherever she wills.  The
whole thing, amazing as it is, and far-reaching in its results, has, like
many other extraordinary devices in nature, a simple explanation.  The
gland wherein is stored the male life-essence, can be opened or closed at
the will of the mother-bee, or rather, as will be shown, according to
circumstances that for the moment involuntarily but inexorably guide her.
When she is brought to the large drone-cell, this gland remains shut, and
the egg escapes without contact with its contents.  But at the narrow
worker-cells the gland in the oviduct is opened, and the egg, in passing,
absorbs some of its containing germs.  Thus only the female bee is born
of the union of the two parents; the male bee is the offspring of mother
alone.

Of this primal incident, the parthenogenesis, or birth of the fully
equipped male from the virgin female, little more can be said than that
it is a well-ascertained fact of nature, exemplified in several other
insects beside the honey-bee.  But while we are witnessing the part
played in the hive by the fecundated queen, with her elaborate organism,
much is to be noted; and here we really get the master-key to a right
understanding of the whole system of bee-government.  It would be an
anomaly if the highest, most important functions of the State had been
entrusted solely to the queen, whose feeble intelligence renders her, of
all others, least likely to execute them properly; and we find, in fact,
that no such reliance is placed on her.  The worker-bees, who take her in
charge on her return from her mating-flight, henceforth originate her
every act and impulse.  It has already been seen how she is led from cell
to cell over the combs; how she is caused to lay, in earliest spring,
only a few eggs a day, while in the summer she may produce several
thousand; and how her output may be checked or augmented at any point
between.  Now we are to realise how it is all brought about; or, at
least, bring conjecture as near to certainty as may be with so difficult
a theme.

During the first two days of her life as a perfect insect, we saw the
young virgin queen mingling with the throng in the hive almost unnoticed,
and left to seek her own food from the common store like the rest.  But
now that her fecundation has been achieved, she has a whole suite of
chamber-women, whose principal duty is to attend to her nourishment.
From their mouths they feed her, giving her, in all probability, the same
rich substance that was administered to her when but a larva in the cell.
This bee-milk consists mainly of honey and pollen pre-digested, but it
has been proved that its composition can be altered at will by the
ministering bees.  Additions to it are made, either separately, or
combined in varying proportions, from three or four distinct glands, each
of which exudes a liquid differing in nature from that of the rest.  The
particular kind of nourishment given to a queen who is to be urged on in
the work of egg-laying, has the effect of stimulating her ovaries.  The
more food of this kind she receives, the greater will be her prolificacy.
On the other hand, a diminishing allowance will mean a corresponding
decrease in her egg-laying powers; while, if this rich diet be withheld
altogether, and she is forced to help herself from the honey-cells, the
development of these eggs may cease entirely, as it actually does in the
coldest time of the year.  Thus the bees play upon her, producing just
the music needed for their purposes.  As the days lengthen, and the
spring sun gets higher and warmer, they gradually waken her docile nature
to its one paramount task.  In the flaming weeks of summer she sits at an
unending banquet.  And when autumn comes, with its chilly nights and
steadily failing sun-glow, the generous fare is slowly withdrawn; her
retinue thins and disperses; at length she becomes a solitary, unmarked
wanderer again, sipping, with the commonest worker, at the plain
household sweets.

How the proportion of the sexes is so unerringly regulated by the
hive-authorities through their influence on the mother-bee, is not so
readily explained; nor can it be at present more than shrewd conjecture,
a backward reckoning from effect to cause.  Probably the opening or
closing of the fertilising gland, which decides the sex of the egg, is
automatic, the attitude of the mother-bee during oviposition determining
its action.  When she enters the narrow worker-cells, her body is
necessarily straightened, and this may produce pressure on the
fecundating gland, resulting in the impregnation of the egg.  But in the
wider drone-cell no such constricted posture is needful, and the egg may
therefore pass untouched by the fructifying germ.  If this version of the
matter be accepted, the natural inference is that either the mother-bee
is incapable of laying female eggs in the cells specially constructed for
raising queens—these being the largest of all,—or that there is something
in the peculiar curve of the cell-cup which compels her to straighten her
body in the act, and so brings about the same posture as with the narrow
worker-cells.

This theory, although at present the most plausible, has received, it is
true, little confirmation in fact.  No one, apparently, has ever seen the
mother-bee lay in a queen-cell, nor has the transportation thither of a
worker-egg by the bees actually been witnessed.  To cling to the old idea
of the supremacy of the queen-bee, giving her the power and ability of a
despotic, all-wise sovereign, would, of course, set this and many other
vexed questions at rest.  Nothing, however marvellous, would be too much
to expect of her.  But the farther the student of bee-life goes in his
absorbing subject, the more impossible the old notion seems.  Proof comes
to him with every hour that the mother-bee is virtually a servant, and
never a ruler in the hive; and just as assured testimony reaches him of
the universal potency of the worker-bees.  All else that takes place
within the hive is brought about by their collective will and agency; and
it would be strange indeed if this vital matter of progeneration were not
subject to the same controlling force.




CHAPTER IX
THE SOVEREIGN WORKER-BEE


WATCHING the inner life of the hive in the season of its full activity,
it is not the untiring spirit of industry pervading the whole
bee-commonwealth that most excites the student’s wonder, but rather the
fact that this ceaseless diligence finds so many outlets—that so many
different kinds of necessary work are going forward at one and the same
time.

Between the brood-combs the nurses are feeding the young larvæ, or
clearing out the empty cells, or sealing over the full-grown nymphs for
their pre-natal slumber.  Hard by, the sowers are at their vital work,
driving their living seed-barrow, the queen, over the combs.  Elsewhere
the wax-makers hang in a silent, densely packed cluster.  Overhead, the
new honey-combs are growing; the masons building up the cell-walls, while
the engineers devise means and ends, calculate strains, put in a strut
here, a stay there, or flying buttress from one comb to another, or cut
new passageways where the traffic seems too congested for the old
thoroughfares of the hive.

On all sides the scavenging bees go to and fro, picking up every particle
of refuse, and carrying it safely away.  Winged undertakers drive their
trade in the midst of the throng, bearing the corpses of their comrades,
old and young, towards the entrance, and flying away with them into the
sunlight of the young spring day.  There is the ventilating army outside
the city gates, skilfully organised in relays, so that, day and night, a
constant circulation of air is maintained.  There are the guard-bees
close by, watching all in-comers and out-goers.  There is a sort of
General Purposes Committee ready outside the threshold with a helping
hand for all: succouring the overladen, grooming down any in need of such
assistance, gathering up fallen treasure, or, as it would seem, taking
careful note of the weather for their next official report.  And all
through the hours of sunshine, in unnumbered thousands, the foragers are
charging to and fro, some bringing nectar, some staggering in under
mighty loads of pollen, others with full water-sacs, still more dragging
behind them lumps of the curious cement called by the ancients Propolis,
and used for so many different purposes in the daily work of the hive.

    [Picture: The honey-bee (enlarged) from life: and as some ancient
                        draughtsmen depicted them]

And it all goes on with the regularity of a well ordered human
settlement.  There is complexity, yet no confusion; there is speed
without hurry Each busy gang of labourers has apparently a distinct and
definite task allotted to it by the central hive-authority; co-operation
and progress are, to all appearances, deified cause and effect in all the
affairs of the hive.

It is easy—nay, inevitable—in any close study of bee-life with the help
of the modern observation-hive, to overset the ancient idea of absolute
bee-monarchy under a single king or queen.  But it is not so easy to
determine how the general government of the colony is actually carried
on.  Innumerable small consultations on minor matters are seen to take
place on every side during each moment of the busy day; but nothing like
general communication is ever visible.  And yet, how are the great
national movements, such as the despatch of a swarm or the supersedure of
an old queen, brought about; how are the various common crises of the
State met, and provided for?  The only rational inference seems to be
that each worker is in herself the perfect evolved presentment of
republicanism, in whom all imaginable difficulties in collective life
have their best solution, tried and proved through the ages, and resorted
to unerringly as a matter of course.  Thus a common need is felt, and met
instantaneously by a common, recognised expedient.  The judgment of one
is necessarily the judgment of all.  Every problem of daily life, however
intricate, is solved by the one device, brought to the fine point of
perfection through the experience of countless generations, and applied
by each individual to the common want, just as hunger impels all mankind
to eat.

Such a condition of affairs, even in a community of human beings, would
imply a very high state of mental, if not of moral, development in the
individual.  It would mean entire negation of self in the interest of the
common good.  Even with all the forces of heredity at work, it would need
stern ascetic training for the young, and for the transgressing adult a
swift and merciless retribution, if the last dream of communism—the
abolition of all law and penalty, and the establishment of a natural
autonomy of well-doing—were ever to be realised in fact.  And yet some
such state of things appears to exist in the bee-commonwealth: the
individual worker-bee seems to be the product of some such system carried
on through an indefinite space of time.  Order is preserved, public works
go diligently forward, the clock of the national progress keeps time to
the second, not because there is a central wisdom-force to plan, to
govern, to awe recalcitrants, but because every worker-bee is herself the
State in miniature, all propensities alien to the pure collective spirit
having been long ago bred out of her by the sheer necessities of her
case.

The worker-bee, as we see her in the hive to-day, although evolution must
have been busy through the ages determining her present mind-power and
bodily conformation, is nevertheless as much a product of direct artifice
as she is of original nature.  We have seen how the egg containing the
feminine germ, if given full scope and opportunity, develops into what
may be taken as the complete aboriginal type of female bee, differing
from the worker in a dozen essential ways.  The queen also is probably,
in one respect at least—her amazing fecundity—a deliberate creation of
the hive-people, as her over-production is brought about by
over-stimulation to meet an artificial state of affairs.  Left to
herself, under pristine conditions, she would certainly lay on a much
more moderate scale.  But the worker-bee owes her unique structure and
mental constitution almost entirely to the intervention of her nurses
from the moment of the hatching of the egg.  Careful experiment has
proved that the queen-larva and the worker-larva are identical up to the
third day of their life in the cell, except that the queen has made more
rapid growth owing to more generous and more ample fare.  After the third
day, the genital system of each larva will begin to develop, if this rich
nitrogenous diet is maintained.  In the case of the queen, this
pre-digested food, well called bee-milk, is lavished on the favoured grub
up to the last moment of its larval existence, no other food being given.
But in the case of the worker-grub, not only has its supply of bee-milk
been restricted in both quantity and quality from the day of its birth,
but now—just before the development of the ovaries might be expected—an
important change is made.  The allowance of bee milk is greatly reduced,
while plain honey is given in addition, but on the same parsimonious
scale, to the end of its five days’ larval life.

What other influences, if any, are brought to bear on the young
worker-bee at this portentous stage of her career, it is impossible to
say.  But at least the change in the food is well ascertained, and the
results—whether of this alone, or in combination with other treatment—are
more than astounding.  Not only is the development of the sex-organs so
completely arrested that hardly a trace of them can be discovered in the
adult worker-bee, but, from that moment, the larva seems to become an
essentially different creature, reflecting more and more the attributes
of her nurses, and showing wider and wider departure from those of the
mother-bee.  As soon as the worker changes into the pupa state, organs
appear of which the queen has not the faintest rudiments.  She receives
her special equipment for field-work in a pair of baskets for carrying
pollen.  Her tongue is lengthened, so that it may reach the nectar hidden
deep down in the clover-bells.  She is to become a builder, and therefore
is provided with half a dozen crucibles wherein to prepare the wax.  Her
useless ovipositor is changed into a weapon: it is straightened,
shortened; the barbs upon it are multiplied and strengthened; a gland,
with which it is furnished, and which, in the queen, contains an all but
harmless fluid, is now filled with an active poison.  Above all, she
develops a brain-power far in excess of that of the normal female bee,
her mother; and she acquires a whole new set of impulses and aspirations
from beginning to end.

While the queen-bee’s natural element is the obscurity of the hive, and
she would seem both to hate and fear the sunshine, the worker is
essentially an outdoor creature, revelling in the light and air.  While
the queen, though obedient to the destiny that has made her
over-fruitful, displays nevertheless not the slightest joy of motherhood
nor interest in her children, the worker, doomed to eternal spinsterhood,
yet constitutes herself the true mother and nurse and instructress of all
the young in the hive.  And the price exacted for the authority and power
which she usurps, or was usurped for her by those remote ancestors of
hers who first invented the sexless honey-bee, must be paid in the
hardest coin—that of life itself.  Instead of the years that nature
allotted to her kind in the beginning, she is to endure hardly as many
months.  Destiny, and her own vaulting ambitions, have given her too
arduous a part to play.  Her stunted, yet over-elaborated body and
over-developed brain, cannot long hold out against the wear and tear of
the life she is born to.  At best a few months see her dead at her work,
or using the last pulsations of her worn-out, ragged wings to carry her
away to the traditional burial-place of the hive; or her end may be to
fall under the stroke of the State executioners.  For the old-age problem
has long ago discovered its effective solution in the bee-republic.
Justice that is capable of being tempered with mercy carries its own mark
of imperfection indelibly upon it.  When the principle of all for the
common good has been driven to its last resort in logic, mercy to the
individual can only be another name for robbing Peter to pay Paul.  In
bee-communism the sole title to life is utility, and so the old worn-out,
useless workers must go.

The development of the worker-egg through its various stages of growth,
until the perfectly formed insect emerges from the cell, makes a curious
study.  The egg itself is remarkable, for it is covered with an hexagonal
pattern.  The large compound eyes of the fully grown bee also show this
form.  Each eye consists of about four thousand separate lenses, and each
lens is a regular hexagon.  Wonder has often been expressed at the
ingenuity of the comb-builders in making the cells six-sided, and thus
crowding into a given space more compartments than could be secured by
the same amount of material wrought into any other shape.  The ancient
writers explained this choice of the hexagonal cell by the supposed fact
that the six legs of the bee were simultaneously employed in
comb-building, each leg constructing its own portion of the cell.  A more
modern idea is that the particular shape of the cell is accidental, or
rather the outcome of compelling circumstance, mutual pressure causing
the cells to assume the hexagonal form.

Now, it is quite true that soaked peas in a bottle will take this shape
in swelling, but the analogy will not hold good in respect of
comb-building.  In the work of the bees there is no pressure or
constriction of any kind.  Each cell is made separately, being joined on
to those above it; and the comb expands steadily downward and sideways
through an empty space until the desired limit is reached.  A much more
probable explanation of the hexagonal form of the cell is that it was
arrived at by experience.  The first combs may have been built with round
cells, the interstices being filled in with wax.  But the bee, who is an
expert in the science of economy, would quickly see the disadvantage of
this plan.  And with the hexagonal principle, an old familiar thing in
the hive—witness the pattern on the egg-surfaces, and the compound
eye-construction—it would not be long before she hit upon the better,
more scientific way.

There is, however, another reason, and almost as potent a one, for the
adoption of the six-sided cell both for brood-raising and the storing of
honey.  It must be remembered that the present system of vertical walls
parallel and close together, made up of numberless small horizontal
chambers placed back to back, is not an ideal arrangement either for the
raising of the young or the storing of food.  Yet it is the best possible
contrivance under the circumstances, which are forced upon the bee by the
necessity of leading a close, crowded, communal life.  Air is a prime
need for all operations in the hive, but for none more than the
development of the young bees.  When a queen is to be raised, a full
supply of fresh air is given her, but only at the expense of valuable
space.  With the common kind, of which perhaps ten or fifteen thousand
may be maturing in the brood-nest at one and the same time, it is
obviously impossible to make any such concession.  The young worker- or
drone-larva must secure what air it can through the narrow cell-top.
Now, the bee breathes at all stages of its career not through the mouth,
but by means of air-holes or spiracles in the sides of its body.  If the
cell were round, the larva, when fairly grown, would fill the space, and
the air would reach the spiracles only with difficulty.  But, no matter
what the size of the young grub may be, the angles of the hexagon cell
are never quite filled.  They form half a dozen by-passes for the air,
arranged on all sides, and extending right to the base of the cell; and
thus the larva has the full benefit of the available air-supply, even
though it be necessarily scanty.

With the store-combs the six angles of the cell fulfil an equally
important office.  The ideal honey-cell would be one with its mouth
opening upwards, so that it could be filled in an ordinary rational way.
But under the strict economical principles ruling in the hive such an
arrangement would be impracticable.  The honey-vats must be stacked one
over the other in a horizontal position, and therefore must be chargeable
from the end.  All cells in the comb have a slight upward tilt, but not
enough to retain the fluid contents if the cell were a round one.  The
effect of the angles in the hexagon is to increase the retentive property
of the cell, and experience has taught the bees how to supplement this
natural holding power of the angles by just that slight cant of the cell
which is necessary to prevent the nectar running out.

The worker-bee, during her period of larval life, at first lies coiled up
at the bottom of the cell, but as her size increases she takes up a
position lengthways, with her head towards the cell-mouth.  This,
however, is not a constant attitude, for she seems at intervals to make a
series of slow gyrations or somersaults, probably to facilitate the
casting of her skin, which she accomplishes several times during her five
days’ life as a grub.  At the end of this time the nurse-bees stop the
feeding process and seal up the cell.  Now the larva sets to work, first
to spin herself a silken shroud before entering on her long sleep as a
chrysalis, and then to change her skin for the last time.  In the case of
the worker these fine-wrought sleeping-clothes envelop her whole body,
forming a continuous cocoon.  But the queen-larva weaves herself only a
scanty sort of cloak, covering her head and thorax, but leaving her
nether portions bare.  The theory usually advanced in explanation of this
is, that when the surplus queens are slaughtered in their cells by the
accepted mother-bee after her fertilisation, the fell work is rendered
easier by the absence of the tough material of the cocoon over the parts
generally attacked.  It seems to be well substantiated that in a battle
of queens the stings are not used haphazard, as with the workers, but
each queen tries to thrust her weapon into one of her enemy’s spiracles
or breathing-holes, of which she possesses fourteen, seven on each side.
And a stroke dealt in this way appears to be always fatal.

But, in all likelihood, the true reason why the queen sleeps in a short
gown made of tough, coarse fibre must be looked for somewhere back in the
old ancestral history of the honey-bee.  It is probably safe to consider
the complete worker cocoon as a comparatively recent introduction,
evolved to meet some necessity arising since the bee-people became a
civilised race.  But what its true origin was appears to be out of the
reach of all conjecture.  A curious fact is that these cocoons are never
removed from the cell.  They remain fixed to its sides throughout, and
though the cell is otherwise carefully cleaned after the young bee has
vacated it, the cocoon is never interfered with, but continues as a
permanent lining to the cell.  The same thing occurs with all successive
generations, each bee leaving her swaddling-clothes behind her, until so
great an accumulation occurs that the cell becomes too small for breeding
any but a puny, undersized race.  With wild bees, where the nest has been
constructed in a tree-hollow, and there is usually plenty of surplus
room, the old brood-combs may be eventually abandoned and fresh ones
built farther on.  Thus the stock generally shifts its station from year
to year.  These natural bee-nests, or bee-bikes, as country people call
them, often reach a great age.  Sometimes a swarm will get under the
rafters in a house-roof, and may be left undisturbed for generations.  In
one case bees were traditionally supposed to have inhabited a blind loft
in a farmhouse continuously for forty or fifty years.  A legend rife in
the village credited them with having stored many tons of honey, but when
the stock was sulphured little more than a vast accumulation of comb was
discovered.  This comb was of all ages, from a few weeks old to an
unconjecturable number of years.  Much of it was perfectly black, and the
cells choked up with pupa cocoons.

The fact that egg-laying is continued in these combs where others are not
available, even though the capacity of the cells has been greatly
reduced, seems to cast an added doubt on the theory that the size of the
cell is responsible for the fertilisation or non-fertilisation of the egg
as it is deposited by the queen.  Very old drone-comb is sometimes found
in use for breeding purposes where the cells have become no larger than
those used for normal worker-brood.  And yet the queen continues to lay
in them unimpregnated eggs.  The whole question is still hedged round
with difficulties.

The young worker-bee, at the end of about three weeks from its first
inception, breaks from its chrysalis-skin, and begins to gnaw its way
through the cell-cover.  The pollen, which is combined with the wax to
form this capping, discharges a double office.  It makes the wax porous
for the admittance of air, and it renders the cell-cover edible, thus
causing the young bee to effect its own release through the promptings of
its appetite.  The new-born worker, although fully grown, is a weak,
greyish-hued, flaccid creature for some time after it leaves its cradle.
Its earliest impulse seems to be to groom itself, and then to wander
about on a tour of inspection of its as yet narrow world of gloom and
noise and bustle.  For the first day or two it does little else than
crawl about unnoticed in the busy throng, gradually gaining strength and
rigidity of limb.

 [Picture: Brood-comb, showing eggs, larvæ in different stages of growth,
           sealed cells, and young bees cutting their way out]

On the second day it may be seen dipping into the open honey-vats and
pollen-bins, of which a few are always scattered here and there among the
brood-cells.  After this it seems to waken in earnest to its duties and
responsibilities, and takes its place among the nurse-bees, setting to
work with the rest in the stupendous task of feeding the larvæ.

In the ordinary course, the young worker-bee will not leave the hive for
about a fortnight after its emergence from the cell.  In the interval,
however, it has a whole policy of life to study, and several trades to
learn.  All the indoor work of the hive appears to be done by the young
bees during these first weeks of their existence.  On them the whole care
and sustenance of the young brood depend.  They produce the wax, and
build the combs; they look after the order and cleanliness of the hive;
they are the brewers of the honey, and the keepers of the stores; they
feed the queen-bee on her ceaseless rounds, and also give the drones
their daily rations of bee-milk, for it is certain that the male bees
depend very largely on the workers in this way, drawing only a part of
their diet from the common stores.  The old bees are the foragers; but it
is probable they are met by the younger ones soon after their return to
the hive, and their burden of nectar, being regurgitated, is transferred
to the pouches of the young bees, by whom it is carried to the
store-combs in the upper regions of the hive.  At least, if the
storage-chamber of a hive be opened during the busy part of the day,
hardly any old bees will be seen among the crowd, which is industriously
filling the cells with the new-gathered sweets.

It is not until the beginning of the second week of their life that the
young bees make their first essay in the open air, and then it is only
for a few minutes during the hottest part of the day.  This sudden midday
uproar is a familiar experience to the bee-keeper during the late spring
and summer; and although the drones at first contribute largely to the
chorus, they soon fly away, while the singing cloud of bees which remains
enveloping every hive at this time, is entirely composed of the young
house-bees taking their daily brief allowance of exercise and air.

It is found that the glands necessary for the production of the
brood-food, as also the wax-generating organs, are largely developed in
bees only a few weeks old, while, after their first month of life is
over, these organs are greatly reduced.  The bee generally begins outdoor
work as a forager soon after she has reached the age of fourteen days.
It is, however, probably a week or two longer before she attempts the
more serious business of nectar-gathering.  Nearly all the pollen-bearers
are bees in their first young strength and vigour, and therefore
peculiarly adapted to the carrying of heavy burdens.  But as soon as the
worker-bee has settled down to the great paramount task of honey-getting,
she seems to leave the pollen alone.  Thus, in a normal colony, the life
of the honey-bee, short as it is, is carefully planned out from beginning
to end, each period having its special task for which the age of the bee
is peculiarly fitted.  Yet this rule is no more absolute than any other
of the ways of the hive.  Where the community is short-handed, and there
are not enough mature workers to gather stores, the young bees will be
turned out to forage at a much earlier date in their career.  In the same
way, if a hive has been without a queen for some time, and therefore few
young bees are available to care for the brood when the new mother-bee
has at last established herself, many of the old workers will stay at
home and busy themselves with the nursery-work, which in the ordinary
course they would have long since relinquished.

There are many such instances of ingenious makeshift, or special
adaptation, in the ways of the honey-bee.  She is a creature full of
resource on emergencies, but it is in the provision of desperate remedies
for really desperate ills that she shines at her brightest.  The prime
disaster in bee-life is the loss of a queen at a time when it is
impossible to appoint a successor.  The standard of intelligence, as well
as that of character, varies among bees almost as much as it does among
men.  Some colonies will work harder and for longer hours than the rest.
Others will ease off when they have put by what they consider a
sufficiency of stores, and an idle spirit spreads visibly among them.  In
a few cases there is a distinct moral twist in the national character,
and the bees take to robbing their neighbours’ larders instead of working
to furnish their own.

Permanent queenlessness is a calamity which affects different colonies in
different ways.  With some it means complete despair, a cessation of all
enterprise or interest in life.  Work is stopped; the guards are
withdrawn from the gate; the community seems to give up in a body, and to
await extinction with no more hope than a batch of criminals in the
condemned cell.  But with others the common disaster is but a signal for
a universal quickening of wits, a furbishing-up of all possible and
impossible resources.  To bees of this temper we should look for such
episodes as the egg-purloining to supply a queen-cell, which has been
already dealt with.  But for supreme ingenuity, even though it be the
forlornest of forlorn hopes, perhaps there is nothing to equal a device
sometimes resorted to in this last emergency.

Looking through a hive which is not only without a queen, but which is
without any means of raising one, certain mysterious eggs are
unexpectedly discovered.  These eggs are obviously quite newly laid, but
not in the orthodox way.  A normal queen works consistently from cell to
cell, over a fairly regular patch of comb, and deposits only one egg in
each cell; but these eggs in the queenless hive have been laid in a
curiously haphazard way.  The eggs are straggled over the comb.  Two or
three cells have been furnished at one spot and a few more at another,
without the slightest attempt at the usual order and system.  Moreover,
some cells contain single eggs, but others two, or even three, apiece.
It looks as if some demented mother-bee from another hive had caught her
keepers napping, and had made surreptitious excursion into the queenless
stock.  But the most careful search through the hive will reveal no
queen, nor is one to be found.  The explanation of the vagary is that one
of the workers has, in some extraordinary way, succeeded in rousing her
atrophied nature, and has become capable of laying eggs.  Yet the doom of
the colony is not delayed by this, but rather hastened; for these eggs
will produce only drones, and thus still more useless mouths to feed.  In
one well-authenticated case, the bees of a queenless colony built a
queen-cell, and actually transplanted to it one of these eggs laid by a
fertile worker, a dead drone being afterwards found in the cell.

How the laying worker is produced under the spur of the national crisis
can only be a matter for speculation, but probably the youngest bee of
the colony is plied with the special food usually given to queens, and
thus her generative faculties are, to a certain extent, developed.




CHAPTER X
A ROMANCE OF ANATOMY


THE modern commercial bee-keeper—the man who keeps his bees in hives of
the most approved construction, all alike in colour and shape, and all in
straight rows—is too prone to look only on the practical side of his
work, and to regard with a certain ill-concealed contempt anything that
does not directly promote what is, in his view, the one and only object
of apiculture, that of honey-getting.

But with the bee-keeper who is also a bee-lover, the tendency is all the
other way.  To live in the very spirit of wonder, as he must who has once
dipped down below the surface of hive-life, is to saddle but a slow,
ambling jade for the race in material prosperity.  In a bee-garden the
habit of rumination comes on one like creeping paralysis, gradually but
irresistibly.  It is one thing, on a fine June morning, to start away
from the house, pipe in mouth and busily trundling the honey-barrow,
intent on a long day’s work among the hives; it is quite another thing to
keep industriously to the task hour after hour, when the sun has fixed
his slothful golden grip upon you, and the drowsy song of the bees has
worked its will on heart and mind.

Good resolutions have a way of petering out, reasonably enough, under
these inviting circumstances.  The honey-barrow makes the most
comfortable seat in the world, and can be pulled up just where the shade
of the linden-trees is thickest.  Moreover, the blue smoke of tobacco,
drifting lazily up through the sunshine, adds just that touch of
deliberation needed in a scene where all is unmitigated, almost desperate
toil; while what difference can it make if one alone be idle in the
hundred thousand?  And so, as often as not, the creaking wheel comes
permanently to rest under the lindens; the honey is left to the
honey-makers; the thoughts follow the bees into their hives, or may-be
wend away over seas to the great plantations, where the dry weed filling
the pipe-bowl was once a green leaf in an ocean of green, flecked over
with blossom, and sung over by bees, whose ancestors might have come from
this very nook in old England, where it is now all ending in smoke and
quiet thought.

But, especially on rainy days, when there is much to do indoors—preparing
the section-racks, discharging the honey from the full combs that, empty,
they may be returned to the hives for refilling on the morrow, and what
not—the tendency to set aside obvious, humdrum duties in beemanship has a
still more capable ally.

The beeman with a microscope has given the seven-leagued boots to his
conscience; he will never catch up with it again in a whole life’s march.
If the daily work in the hive, as seen with the naked eye, is a
fascinating, duty-dispersing study, a microscopic acquaintance with the
hive-worker herself, and the details of her extraordinary equipment, lets
one into a whole new world of fact and thought.

It is only under a strong glass that the true place of the honey-bee in
the scale of creation can be entirely estimated.  Her work is evident to
the most casual eye, but of the worker herself we get only a vague idea
of a dim-hued, crystal-winged atom running a perpetual race with the wind
and sunshine, or forming an all but undistinguishable speck in the
seething, heaving multitudes within the hive.

But here, on the stage of the microscope, the honey-bee is revealed as a
totally new creature; and, by little and little, a story unfolds itself
about her which, in its way, is a perfect epic of life.  No one can study
the perplexities of hive-life for long without a conviction that a
creature executing such varied and elaborate works must, of necessity, be
herself highly developed in body and mind.  But it seldom happens, even
with the veriest tiro, that the expectation comes anywhere near the
reality in such an examination of the common worker-bee.  The unaided eye
sees a creature, fashioned simply enough to all appearances—a brown,
attenuated body, two pairs of wings, the usual six legs common to all
insects, and a couple of bent horns, like threshels, that continuously
waver to and fro.  But under the glass this simplicity at once vanishes.
From the tip of her antennæ to the barbed end of her sting, there is
nothing about the honey-bee that is not made on the most bewilderingly,
complicated plan.

Watching a hive at work on a busy day in summer, the attention is first
drawn to the pollen-gatherers, labouring in by the thousand with the big,
oval, brightly-coloured masses fixed to their hindmost legs; and it is
first to the pollen-carrying organism that the glass is now naturally
directed.  The six legs, which looked all very much alike to the naked
eye, are seen to be in three pairs, and the construction of each pair
differs very markedly from that of its fellows.  So far from their being
simple legs, each has no fewer than nine jointed parts, and nearly every
part carries a special piece of mechanism necessary and vital in the
daily work of the bee.  Whole treatises might be written on the functions
of the human hand, yet the hand is a very simple contrivance compared
with the legs of the honey-bee.  The pollen-carrying device is on the
thigh of the hind leg.  The thigh is broadened out and hollowed, and
round this oblong cavity is a fringe of incurving bristles which look as
if they would hold anything.  But before the pollen can be packed in
these baskets it must be collected and kneaded together.  Practically the
whole body of the bee is used in pollen-gathering.  Under the low power
of the microscope it is seen that hardly any part of the trunk or limb is
without its dense covering of hairs; but with the high objective these
hairs cease to be hairs, and are changed into actual feathers, delicate
herring-bone implements, which sweep up the pollen as the bee dives into
the flower-cup for the nectar that lies below.

Nearly every joint of each leg is furnished with a comb of bristles, with
which this pollen-dust is scraped off and transferred to the
carrying-basket after being moistened by the tongue; while the hind-legs
have each a complete, perfectly-fashioned curry-comb.  Here the leg is
widened and flattened, and covered on one side with nine or ten rows of
short, strong spines, with which the bee scrapes her body just as a groom
curry-combs a horse.  At ordinary times she will carefully pack her load
of pollen into its proper receptacles before returning to the hive, so
that it shall be all ready for transference to the cells.  At the
cell-mouth she pushes each lump off by means of her other legs, leaving
it to be rammed down into the cell by the store-keepers.  No distinction
is made here, every kind and colour of pollen being indiscriminately
stored in the same cell; and when the cell is full, a thin layer of honey
is smeared over all, to preserve it from the air.  When, however, time
presses, the bee will not stop to knead up the load, but will carry it
home as it is, arriving in the hive smothered completely from head to
foot as with gold-dust.  Then the house-bees gather round her, soon
scraping her free of her encumbrance, and she starts off again for
another load.

The fact that insects can walk on both upper and under surfaces
apparently with equal ease, is none the less remarkable because we see it
going on every day of our lives.  Yet the fly, crawling up the
window-glass, or running about on the ceiling, owes his power of
topsy-turvy perambulation to a very ingenious device.  This is well
illustrated in the foot of a bee.  She has a pair of short, strong double
claws, which will take her securely over all but the smoothest and
shiniest surfaces; and it is with these claws that bees form themselves
into dense clusters and knots and cables within the hive, holding
hand-to-hand, as it were, in all directions.  But when there is nothing
for the claw to hold by, another part of the foot comes into play.  This
is a soft, flexible pad, which is always covered by a thick, oily
exudation.  In walking, the bee puts her feet down three at a time, the
pads adhering instantly they come into contact with the smooth surface.
At the next step the other three pads come into play, while the first
three are stripped off.  But each foot is capable of attaching and
detaching itself independently of its fellows.  In this case the
stripping is accomplished by downward pressure of the claws of the same
foot.

On each of her fore-legs the bee has an appliance which fulfils a very
important office.  It is a semicircular notch with a fringe of strong
hairs, and when the leg is bent up, this notch engages with a curious
projection on the next upper joint, forming an eyelet roughly circular in
shape.  With this exact and special tool she cleans her antennæ, and this
is done at short intervals throughout the whole active time of her life,
much as, in the operation of winking, the human eye is kept cleansed.
The tongue also is freed from adhering grains of pollen by this device.

The question, How does a bee gather the flower-juices to make her honey?
is met by certain popular naturalists with the assurance that she sucks
them through a tube.  This is so easy a generalisation that it amounts
very nearly to positive error.  The tongue of the bee is not a tube, as
the word is usually understood.  And she laps up the nectar as often as
she sucks it.  It depends entirely on the quantity to be dealt with; and
a little careful dissection of the mouth-parts of the bee, by means of
the microscope and a pair of long needles, will soon make the whole
matter clear.

She is no beauty—the honey-bee, seen at such close quarters; unending
toil, and a perverted, baffled nature, do not tend to loveliness in any
of her sex.  But her positive and almost terrifying ugliness, when looked
at so disadvantageously, is soon forgotten as one comes to realise her
abounding possession of that other kind of beauty—the beauty of utility.

To the naked eye her tongue is a bright brown, shining piece, protruding
from her mouth, and hanging down with much the same appearance as an
elephant’s trunk.  Under the microscope it is soon seen that this is not
a tongue in the proper sense, but a continuation of the under-lip.  It
consists of six or seven different parts capable of being fitted together
lengthways.  There is a central part, longer than the rest, with a hairy
spatula at its end, and when the other parts are closed about this, the
whole virtually forms a tube within a tube.  The spatula does the lapping
when only minute quantities of fluid have to be taken up, and these pass
into the mouth more by capillary attraction than by actual sucking; but
when there is a brimming cup of nectar to be emptied, the whole mechanism
of the tongue is brought into play.  The longitudinal strips are placed
together edge to edge, and the liquid is drawn out of the flower-cup by
the action of the tongue-muscles in much the same way as water is lifted
by a pump.

Now that we have the head of the bee under observation, many curious
things about it can be ascertained.  The strong, curved jaws, working
sideways, are doubly interesting as the main implements used in the
preparation of the wax, and largely in the comb-building.  But the eyes
and the long, flail-like antenna rivet attention first.  Whether the bee
was made for her life, or the life—imposed on her by inexorable
conditions—made the bee what she is to-day, the extraordinary adaptation
of her physique to her environment is beyond all question.  The great
compound eyes, with their thousands of facets each pointing in a slightly
different direction, are obviously made for wide and distant outlooks.
It is with these eyes that the bee finds her way out and home over miles
of country.  In the worker the compound eyes occupy the whole sides of
the head, but in the drone they are much larger, and meet entirely at the
top.  Thus, dallying in the sunshine, he is able the while to keep the
whole arc of the sky under scrutiny, ready at an instant’s notice to take
up the love-challenge of the young queens.

But these large multiple eyes of the bee are of little use to her at
close quarters, or in the deep twilight of the hive.  For indoor use, and
for near vision, she has three other eyes, containing a single lens each,
and set in her forehead just above her antennæ.  The popular belief, that
the honey-bee carries on her busy life, and elaborate enterprises in
complete darkness, is mainly a fallacy.  Probably there is always some
light, even in the remotest recesses of the hive—enough, at least, for
the eyes of the bee, if not for our own vision.

The bee, however, would seem to depend very little on sight alone in the
prosecution of her various tasks.  There is little doubt that she
possesses all the other four senses in a marked degree.  Both the tongue
and the lips have certain highly developed structures upon them which can
be nothing else than organs of taste; while the most superficial
acquaintance with the life of the hive must convince anyone that the bee
possesses the senses of smell and hearing, and that very acutely.  Where
the seat of these two faculties lies is at present doubtful, and the
exact functions of the antennæ are still a matter of conjecture.  But it
is at least certain that these latter perform vital office in every act
or enterprise of the bee.  It is obvious that the antennæ are very
delicate organs of touch, but it is equally obvious that they are much
more than this.  It has been ascertained that they carry no less than six
totally different kinds of instruments, each of which must have its
distinct use.

Observation of the ways of the honey-bee has been carried on for
thousands of years.  More books have been written about the bee than
perhaps of all other creatures put together.  And yet our knowledge of
her powers and organisation must still be reckoned in its infancy.  The
microscopists have dissected her antenna and isolated all their various
parts, but of the particular functions of these little or nothing is
known at present.  There are certain hairs, evenly distributed over the
whole surface, which are presumably instruments of touch.  But there are
other hairs, or fine cones, which are hollow, enclosing a delicate
nerve-fibre; hairs set loosely in a cavity; hairs curved and ringed, and
of different lengths.  Then there are mysterious pits and depressions,
either open or covered with incredibly thin membranes, enshrining
nerve-ends only just visible with the highest objectives.  And the whole
is linked up in an intricate nervous system that baffles every art and
patience of research; while, when all has been investigated and
described, no one is really any the wiser.

The antenna are certainly touch-organs, and, in all likelihood, it is by
their means that the bee hears and smells.  Yet this only exhausts a few
of their manifest possibilities.  It is quite clear that we must admit
the honey-bee to possess other senses than the five we know of; and—for a
guess—some of these mysterious implements on her antenna may be
thought-transmitters and -receivers on the wireless plan.  The wonderful
unanimity of action among bees may be due to the fact that they can
exchange ideas through the air, as men have now at last come to do.  The
faculty of speech, hitherto held up as man’s insignia of lordship over
the rest of creation, may be indeed a crude, archaic thing, compared with
the mind-language of the honey-bees.

There is another conceivable function which the antennæ of bees may
perform—that of unerring and instant estimation of short distances.  They
may be delicate measuring instruments, not mechanically applied in the
way of a foot-rule or metric scale, but registering dimensions
inherently, as our ears record intensity of sound.  This would go far to
explain how honeycomb is built, how the cells are made all of the same
shape and size, although hundreds of the mason-bees are at work on the
structure, not only at the same moment, but in succession, each bee
coming and going in the murmurous gloom of the hive, and beginning
instantly and unhesitatingly at the point where her predecessor broke
off.  As the central division of the comb grew, expanding in all
directions downward, and the cells were built out horizontally at the
same time, the bee would know by her sense of dimension when the limit of
each side in the hexagonal cell-base was reached, and would know the
proper angle to turn off at in the laying of the next foundation-line.

Anyone who has watched the flight of the bee must have been struck by its
sheer facility and freedom no less than by its speed.  It is quite
evident that the bee is not only an accomplished aërial navigator, but
that she sustains and propels herself through the air with very little
effort.  Obviously her equipment for flight must be a thoroughly
efficient one, and yet at first glance it is not quite clear how she
manages so well.  The student of the flight-problem, taking his ideas and
conception of first principles from the flight of birds, is accustomed to
believe that there are at least two vital indispensable elements in the
process—a pair of wings or combination of aëroplane and propellers that
will sustain as well as drive, and some sort of steering-apparatus like
the bird’s tail.  Yet, as far as a first general inspection carries us,
the bee appears to have no rudder-mechanism at all, but to depend on her
four wings for every purpose.  The wings of the bird have a variable
action.  They can be used together or separately, and are as capable of
eccentric adjustment, both in themselves and in relation to one another,
as a pair of human arms.  But the bee’s wings have none of this
adaptability.  They have but the one motion, up and down; and they work
symmetrically, each wing keeping time with its fellow.  Yet the bee
steers herself perfectly well in a hundred different evolutions,
accomplishing all that the bird attains with his more complicated
apparatus for flight.

The whole problem is bound up with another problem; and the two,
difficult of solution apart, easily resolve one another when taken in
conjunction.  Insects are so called because their bodies are in two
parts, entirely divided except for an extremely slender connecting joint.
We are so accustomed to accept this arrangement as a common fact in
nature that we seldom stop to consider its real significance.  It is not
easy to see how such a construction can be anything else than a drawback
to any living creature.  But in the hive-bee the whole arrangement seems
to amount to what must be called an ideal inconvenience, seeing that her
honey-sac and complicated organs for producing the larval food are in her
abdomen, with no way to them but through this fine joint.  Clearly there
is some weighty reason for it, out-balancing all other considerations, or
it would not exist; and when we come to study it in connection with the
honey-bee’s peculiar system of flight, we soon arrive at the true
solution.

It has been said that the wings of the bee have a perfectly symmetrical
action, and that they have a single fixed direction, moving up and down,
always at right-angles with the line of the thorax.  Under the microscope
each of the four wings is seen as a transparent, impervious membrane,
intersected with fine ribs.  The front wing, however, has a much stronger
and stiffer rib running the entire length of its upper edge, and it is on
this main rib that almost the entire force of the flight-muscles is
concentrated.  If you look farther, you will see that the under wing has
a row of fine hooks along its top edge, while the lower edge of the upper
wing is flanged or folded back.  In flight the hooks on one wing engage
with the flange on the other, and thus the wings on each side are
automatically locked together, forming one continuous air-resisting
surface.  This combined wing is very flexible throughout, except at its
upper edge, where it is stiffened by the main rib.  In action,
therefore,—the force being applied practically to the edge alone, which
resists the air while the rest of the wing bends to it—the result is that
the whole wing becomes an oscillating, inclined plane, whose inclination,
forward on the down-stroke, is still forward on the up-stroke, because
the plane-inclination reverses itself automatically.

From this it will be understood how the flexible wings of the bee are
used in straightforward flight; but, seeing that the wings themselves are
incapable of independent or irregular action, it is not yet clear how the
bee contrives to steer herself, rising or descending, or turning
sideways, just as the mood seizes her.  It is here that the reason for
the peculiar construction of her body becomes plain.  The fine link which
unites her abdomen to her thorax is really an universal joint, actuated
by a series of powerful cross-muscles, and the bee steers herself through
the air by using the weight of the lower half of her body as a
counterpoise.  By swinging her heavy abdomen forward or backward, or from
side to side, she changes her centre of gravity, and the line of force of
her aëroplanes, at one and the same time.  Actually her body keeps its
vertical position, being her heaviest part, and it is the lighter
wing-supporting thorax which is deflected.  But the result is the same,
and every variety and direction of flight is accomplished by the bee on
what seems a far more simple plan than that evidenced in the flight of
birds.

One of the most difficult things to account for in the life of the
honey-bee is the fact that the temperature of the hive can be varied at
the will of its occupants.  The system of mechanical ventilation will, of
course, explain how the hive is kept cool in the greatest heats of
summer, but it does not explain the sudden accessions of heat to which it
is liable from time to time.  These occur principally when the wax is
being generated.  Under the bronze armour-plates of her body the
worker-bee has six shallow, but broad depressions, beneath which the
wax-glands are placed.  Perfect rest and a high temperature seem to be
necessary for the stimulation of these glands, and the wax-makers consume
a large quantity of sweet-food during the process.  It is generally
stated that bees fill themselves from the stores of mature honey before
uniting in the cluster; but it is more probable that the food consumed
during wax-making is principally the nectar, almost as gathered from the
flowers.  This view is confirmed by certain experiments which were
undertaken to decide the amount of food assimilated during the production
of a given weight of wax.  When the bees had access only to honey, it was
found that five or six pounds were needed during the time that one pound
of wax was produced.  But if the bees were fed on a plain syrup of
cane-sugar, more wax was generated.  The chemical composition of fresh
nectar is almost identical with that of sugar from the sugar-cane, but
mature honey contains practically no cane-sugar at all.  It is very
doubtful, therefore, if the economic bee would deplete her hard-won
stores of honey for a purpose that could be better accomplished in
another and cheaper way.  And it should also be borne in mind that the
natural time for comb-building coincides with the season when nectar is
in greatest plenty.

These sudden variations in temperature appear to be brought about by a
wholesale increase in the rate of respiration among the bees; and there
is nothing that excites the wonder of the student of hive-life more than
the breathing-apparatus of the bee, as seen under the microscope.
Practically her whole physical system is directly supplied with air,
drawn in through her many spiracles.  As far as scientists have been able
to determine, there is not a fibre or nerve in her entire body that is
not reached by the minute ramifications of the air-ducts, in direct
communication with the great main breathing-vessels in the bee’s abdomen.
Respiration appears to be largely voluntary with the honey-bee.  She
breathes only when the necessity for it arises, and will sometimes arrest
the action entirely for three or four minutes together.  But when the
wax-making is going forward, or swarming-time is near at hand, the quick,
vibratory movement of respiration is visible everywhere in the throng of
bees, and the temperature of the hive climbs up often to a dozen degrees
above its normal point.

The breathing system of the honey-bee is closely connected with her
sound-organs.  Anyone asked to describe the note made by a bee would
probably say that she hums or buzzes, and there would be an end to most
ideas on the matter.  But to the beeman this is a pitifully inadequate
statement of the truth.  The bee comprises in herself not one, but a
whole choir of voices, and she has a compass of at least an octave and a
half.  Every one of her fourteen spiracles, and each of her wings, is
capable of producing sound; and these sounds can be endlessly varied in
quality, intensity, and pitch.  It is no exaggeration to say that the
honey-bee is as accomplished a musician as any bird; but as each
individual voice is for the most part lost in the general symphony of the
hive, it is difficult to get a complete idea of her capabilities as a
soloist.

The voice-apparatus in the spiracles is one of the most intricate things
in the whole anatomy of the bee.  It has a multiplicity of parts, and is
obviously designed to convey a great variety of sounds.  The wings also
produce tones that run up or down in the scale, according to their rate
of oscillation; and from them comes the sibilant note usually called
buzzing.  Listening to the hive-music at any season of the year, it is
impossible to resist the thought that bees not only hold individual
communication by means of these infinitely varied sounds, but that the
general note given out by the multitude unerringly expresses the state of
affairs within the hive for the time being.  A prosperous stock voices
its busy contentment in a way impossible to misunderstand.  It is a deep,
blithe, resonant sound, like the steady running of well-oiled machinery,
each wheel adding its own whirring melody to the general theme.  Weak or
famishing colonies give out a wavering, intermittent note, the very voice
of complaint and fear for the future.  When a hive has lost its queen, a
capable bee-master should have no difficulty in divining the trouble by
listening at the hive-entrance.  A queenless stock is all clamour and the
hubbub of divided counsels.  The ordinary rich reverberation of labour
stops, and a sound of panic goes to and fro in the hive unceasingly.  If
a hive be quietly opened, and its queen removed with little disturbance,
it may be some time before the bees discover their loss.  Some colonies
experimented with in this way realise their deprivation immediately, and
the hue-and-cry begins at once.  But one of the most curious facts in
bee-life is the variation in intelligence, and alertness of perception,
between the different hives.  A steady-going, dull race may be a
considerable time before it perceives the absence of its queen.  The
common note of work goes on unchanged until the fact dawns on it.  And
then the peculiar shrill outcry commences, overpowering all other sounds
until reason again asserts itself in the colony, and the bees set about
the work of raising another queen.

The voice of the drone is deeper and hoarser than that of the worker-bee,
by reason of his larger body; and his noisier buzzing is explained by his
greater length and breadth of wing.  The queen also has a deeper, more
husky voice during flight; but she has, in addition, a peculiar cry of
her own, an old familiar sound to bee-keepers all the world over.  It is
heard principally just before the swarming of the hive.  Certain old
skeppists profess to be able to foretell the date on which a swarm will
issue by studying the cry of the queen.  On quiet nights, just before the
swarming-season commences, it may frequently be heard above the general
murmur of the hive by bending the ear down to the entrance.  It is a
shrill piping sound, repeated over and over again, and often answered by
other and fainter notes.  How it is produced is not certainly known, but
probably it is caused by the wings or legs being sharply rubbed together,
much as a cricket or grasshopper utters its cry.  The louder note is made
by the old queen, and there is no doubt of its import.  Jealousy and the
lust of battle are on her, and she is trying to get at the young
princesses in their cells.  The cry is one of baffled fury as she strives
with the guards about the cells, and the answering notes come from the
imprisoned queens who are just as eager for the fray.  The old skeppists
are never far out in their reckoning.  When this state of affairs has
begun, the crisis is imminent; and the morrow is sure to see the
emigrating party setting off for its new home, carrying the old queen
irresistibly with it.

It has been said that the nurse-bees, who have the entire charge and care
of the young brood, feed the larvæ from their mouths with a thick white
fluid, which is aptly called bee-milk.  All the time the nurses are
engaged on this work, they are themselves hearty eaters of both honey and
pollen; so that at first sight it appears as if the bee had the power of
instantaneous digestion, feeding herself at one moment, and, at the next,
regurgitating this food, changed into a totally different substance, to
feed the young grubs.  Moreover, there is another wonderful thing
regarding this bee-milk.  It has been proved by careful analysis that its
composition varies considerably.  The male, female, and queen-larvæ are
all fed with it, but its constitution differs, not only with each kind of
larva, but according to the age the larva has reached.  The bee must
therefore have her whole system of digestion under full voluntary
control.  How she manages this critical part of her work can only be
understood by the aid of a good microscope.

           [Picture: The bee nursery; tending the young brood]

Perhaps there is nothing more wonderful, in the whole wonderful anatomy
of the bee, than her digestive organism and its contributory system of
glands, each of which has its special and important use.  When she draws
up the nectar from the flowers, it passes at once into the first of her
two stomachs, which is simply and solely a reservoir.  Here it can remain
indefinitely at the will of the bee; or it can be thrown up and poured
into the comb-cells, to be brewed into honey; or it can be allowed to
pass through a valve at the base of the reservoir into the bee’s second
and lower stomach, where digestion takes place and the honey and pollen
are formed into chyle.  But, by one of the most ingenious devices in
nature, this second stomach is also capable of returning its contents to
the mouth, and the chyle is there changed into bee-milk for the
nourishment of the larvæ.

The worker-bee has, in all, four distinct glands, each secreting a fluid
with properties different from the other three.  These glands are all
situated in the mouth.  Two of them have a common opening in the upper
side of the root of the tongue; and as the bee sucks, their combined
secretions mingle with the flower juices automatically, and the first
step in the change of the nectar into honey takes place.  The third gland
is in the roof of the mouth, and it is the secretion from this gland
which acts on the regurgitated chyle, and changes it into brood-food.
The fourth gland is double.  These twin-glands have their openings at the
base of the jaws, and the action of chewing is necessary to excite their
secretion.

The valve between the upper, or honey-stomach, and the lower, or
chyle-stomach, has an extensible neck, and the bee can, at will, raise
this telescopic piece through the interior of the honey-sac until the
valve is pressed against the opening into the gullet.  Thus the contents
of the lower stomach can be driven into the mouth without coming into
contact with the stored sweets in the reservoir, and this pre-digested
matter is always ready at an instant’s notice for the use of the larva,
or for the nourishment of drones or queen.

It has been said that the nursery-work of the hive is undertaken
exclusively by the young bees during the first fortnight or so of their
lives.  After this time they make their first foraging expedition,
beginning with pollen-gathering, and relinquishing this in turn for the
collection of nectar when they have arrived at full maturity.  The mature
workers take no part in the feeding of the larvæ, except on very rare
emergencies.  In relation to this, it is a curious fact that the gland in
the roof of the mouth, which acts on the chyle, forming it into
brood-food, is in full development only during the first weeks of the
worker-bee’s career.  After that its activity swiftly declines, until, in
old workers, it becomes largely atrophied.

The digestive gland-system of the honey-bee, although it has been fairly
well explored by the scientific naturalists, is still much of a mystery,
and this especially with regard to the glands attached to the jaws.  The
secretion from these glands—obviously a very powerful acid—is mainly used
to convert the raw wax from its hard, brittle character into the soft,
ductile material of which the combs are made.  It is probably used to
some extent, also, in the preparation of the brood-food, in conjunction
with the gland in the roof of the mouth.  It mingles with the pollen when
this is masticated, and no doubt it has various other uses; but no one
seems as yet to have discovered why these two glands should be so
enormously developed in the queen, who takes no part in the nursery-work
or comb-building.  The whole question will naturally have little more
than a passing interest for the general reader; but, to the bee-keeper
with a microscope, it takes a prominent place among the debatable things
in hive-life.  If the difference between the queen-bee and the
worker-bee—a difference of organic structure as well as mere
development—is really brought about by variation in the quality and
quantity of the food supplied to the larva, then the action of these
glands cannot be over-estimated in importance, and cannot be studied too
deeply: they form the very spring and fount of life.  Yet is it certain
that the influence brought to bear on the young grubs by the nurse-bees
is wholly restricted to the matter of food?  The worker-bee has several
curious organs and gland-systems in various parts of her body, in
addition to those already enumerated, to which no rational use has yet
been assigned.  The more we study her extraordinary equipment, the less
justification there appears to be for dogmatising about her, limiting or
particularising the function of any one gland or implement in the whole
unending array.  The old adage, that there is nothing invariable about
the honey-bee, is like to be as true with regard to her physiology as it
is with her habits of life; and, for all we can tell, to-morrow’s
knowledge may render obsolete much of the carefully garnered knowledge of
to-day.

If the story of the honey-bee’s anatomy has everywhere some of the
elements of romance about it—in its unexpected incidents, its adventurous
colour, its shadow of a great design—this spirit suffers no abatement
when we come, in a last view of it, to consider her as one carrying arms,
one bearing such a weapon of offence as never came into human mind to
fashion.  The long curved scimitar of the queen, which she cherishes so
carefully that nothing will induce her to strike with it except when it
is to be turned against a royal foe, is otherwise little else than a
harmless piece of domestic furniture.  But the sting of the valorous
worker-bee, seen under a microscope, is a positively terrifying engine of
destruction.  Popular science generally describes it as a sheath
containing a barbed and poisonous dart; and the trite comparison is
always made of the bee’s sting with the finest sewing-needle, the latter
being likened to a rough bar of iron.  The idea of a sheath is pure
fiction, as a little painstaking examination will soon reveal.

The bee’s sting is made up of three separate lances, each with a barbed
edge, and each capable of being thrust forward independently of the
others.  The central and broader lance has a hollow face, furnished at
each side with a rail, or beading, which runs its whole length.  On the
back of each of the other two lances there is a longitudinal groove, and
into these grooves fit the raised beadings of the central lancet.  Thus
the sting is like a sword with three blades—united, but sliding upon one
another—the barbed points of which continue to advance alternately into
the wound, going ever deeper and deeper of their own malice aforethought
after the initial thrust is made.  It is a device of war, compared to
which the explosive bullet is but a clumsy brutality.  Yet this is not
all.  To make its death-dealing powers doubly sure, this thorough-minded
amazon must fill the haft of her triple blade with a subtle poison, and
so contrive its sliding mechanism that the same impulse, which drives the
points successively forward, drenches the whole weapon with a fatal
juice.

The tendency to be unduly scientific, to meet these things with exact and
unimaginative interest, receives its final quietus here.  For he who
realises the whole deadly efficacy of the honey-bee’s sting cannot
logically pass it by as a mere remarkable provision of nature, praising
God for it complacently, but must concede it a much wider significance.
This complicated weapon of the stunted, sex-perverted worker-bee owes its
existence as much to deliberate art as to nature, or those who watch the
Omnipotent in hive-life are strangely and perversely led astray.  In the
queen-mother, whose physical organism may be said to be comparatively
unchanged from its aboriginal type, we see the part corresponding to the
worker’s sting, essentially another creation.  The queen’s ovipositor is
longer; it is curved; the barbs upon it are small and insignificant; the
fluid in the secreting-gland is no poison at all, but a thick opaque
substance, whose true use is probably to glue the eggs safely to the
bottoms of the cells.  She is also provided with a pair of blunt
instruments covered with sensitive hairs, which serve, with the
ovipositor, to guide the egg securely to its destination.  The worker-bee
has these feelers on either side of her sting, but she has perverted them
to a very different office, that of seeking out the vulnerable parts of
her enemy.  And what a drastic change her will, or that of her
foster-mothers, has wrought in the whole contrivance!  She has bartered
the privilege of motherhood and years of life for a few short months and
a share in the communal sovereignty.  She must be ready to further the
well-being of the hive by the art of war as well as by the arts of peace.
Therefore she has deliberately helped in fashioning the ploughshares into
cannon.  A little change in her food as a nursling, an infinitesimal
leaking from a gland that takes the full power of the strongest glass to
see,—and, with all the other multitudinous changes of form and character,
this last miracle comes quietly into being.  The egg-depositing shaft
grows short and straight; its moderate indentations become cruel jagged
barbs designed to hold as well as to kill; the harmless, egg-fastening
gluten is quickened into a virulent poison; and the death-dealing thing
is ready and ripe for service against all honey-lovers, the hereditary
foes of the hive.




CHAPTER XI
THE MYSTERY OF THE SWARM


THE old “swarm in May,” beloved of ancient beemen, is rapidly becoming a
thing of the past.  Modern hives and modern methods, although they have
not as yet achieved their main intent of abolishing natural swarming
altogether, yet tend to bring this extraordinary ebullition of hive-life
to its fulfilment later and later in each year.  Far from being a virtue,
as of old, an early swarm, or indeed any swarm at all, is now accounted a
misfortune, even a downright disgrace, in scientific beemanship.  And yet
the bees, though easy to discourage, are hard to teach.  In spite of
roomy hives and a watchful bee-master ready to give them an unbroken
succession of young and fertile queens, and a whole houseful of new
furniture at a moment’s notice, still the bees go on playing this mad
game of wholesale truantry, and still the bee-keeper must stand looking
hopelessly on from the midst of his elaborate appliances, while his
property sings about his ears, or wings away into the upper skies,
irrevocable as last year’s mill-water.

                        [Picture: A swarm in May]

Beemen call it the swarming fever; and fever it is in very truth.  The
reasons for it have long ago been crystallised into exact and accepted
phrases.  An overcrowded condition of the hive; the desire of the bees to
get rid of a failing queen; the excitement of the queen herself at the
menace of coming rivals; the natural instinct of colonies to increase and
multiply—anything but the one all-sufficient and obvious reason, that
bees swarm because they suddenly and intensely desire it.

The story of the Sioux Indian,—won for civilisation from boyhood,
over-educated and overrefined, decorated with a high college-degree and
adorning a great pulpit, and then casting it all to the four winds,
stripping and painting himself, and raging away with his kind on the
war-trail,—has a near parallel in the behaviour of bees at swarming-time.
Instinct could never be a party to such an inconsequent, outrageous,
brilliantly reckless, joyous proceeding.  But it is ever in the way of
reason to be splendidly unreasonable at times, and here the honey-bee
shows herself the true child of her origins.  From a stern, self-elected
destiny-maker, callously pressing to the forefront of life over all
obstacles of heart and hearth, she changes back, for the nonce, into the
aboriginal bee-woman, thoughtless, pleasure-loving, improvident, spending
the garnered treasure of laborious days in the one mad moment’s frolic.

For it is impossible to regard the incident of the swarm as only one more
link in the chain of sober, calculating bee-wisdom.  It is obviously a
lapse, a general falling away from the all-wise, public polity.  For a
single hour in her drudging, joyless, perfect life, the worker-bee
battens down all the virtues, and rages forth like the Sioux Indian to
swill at the stream of forbidden love and laughter, unmindful of the
cost.  Just when the common self-abnegation is yielding its rich
first-fruits of prosperity, and the hive is overflowing with its wealth
of citizens and possessions, this fever comes among them, and spreads
like a prairie fire.  By all laws of prudence it is now, of all times,
that every child of the Mother-State should stand by her mightily, to
uphold her in the high place won for her by unending toil and innumerable
lives.  But old ancestral memory wakens, calling irresistibly.  Nature,
in the beginning of time, made the honey-bee to inhabit a tropic land,
where there was no need for pent, cold-withstanding houses, nor any use
in laying up provender for days of dearth, because the land flowed with
perpetual honey.  Bee-life in those far-off ages was all dancing in the
sunshine, and the bee-woman had little to do but to fly to the nearest
brimming flower-cup when her nurslings wanted food, But a cooling world,
the ever northward trend of her race, and then the folly of her own
wisdom—intellect turning upon itself—all combined to lose for her the old
slothful paradise of plenty.  The drone, reasoning inversely by the
wisdom of his folly, made a better compromise with fate.  He held to his
life of ease and his gratuitous pleasures at all cost, and let his mate
go her way undeterred, blinding his eyes to the new necessities.  Work
and responsibility gradually soured and sharpened and hardened the one,
while dependence on his womenkind as insidiously changed the other into a
creature of idleness and the senses.  And when he came at last to realise
the outcome of it all, it was too late.  The matriarchal commonwealth was
established, hedged round securely with a myriad poisoned blades.  To
live a drone had been his heart’s desire, and now dronehood, mere
seminality, was allotted to him as a retribution.  The things for which
man lifts his unregarded prayer all his life through, might very well
prove his fittest punishment, granted to him in the Hereafter: so little
can man or drone distinguish between the enduring things of life and
death.

But of all intolerable fates, that must be least bearable, to have wisely
willed and beautifully fashioned our own eternity; and then, being only
human, or at least reasonable, to find its goodness really smooth-going,
colour-fast, impregnable at all points, with never a bright break or flaw
to vary the monotony of well-doing.  No wonder the honey-bee swarms,
breaks helter-skelter out of her prison-bounds of order, commendable
toil, chill, maidenly propriety; and goes rioting away for one short hour
of joyousness and madcap frolic, such as her primæval sisters looked to
as the common day’s lot, when there were no hives, and motherhood was not
the sole prerogative of one in thirty thousand, and when the sun burned
high and cheerily in heaven from end to end of the tropic year.  It is
easy to be wise, and temperately scientific, in accounting for this
feverish impulse of the worker-bees, allotting it a sound and circumspect
part in the furtherance of the general polity.  But is it not, in the
main, Nature—the atrophied sexual spirit—awakening, or at least stirring
a little in her age-long sleep?  In the sultry August evenings the young
queens of the ant-hills pour out in unnumbered thousands to meet the
males, and people the ruddy sunshine with the glint of their wings.  This
is swarming in its truest sense.  The wingless, workful, underground
existence follows, but the love-flight of the ants, while it lasts, is
none the less a real, intensely joyous thing.  And surely the
swarming-fever that so strangely and inopportunely seizes upon hive-life,
is at one with it in nature and spirit, although its original purpose and
value have been long ago lost in the ages.

                        [Picture: A mammoth swarm]

The one in the whole multitude who alone has the full inheritance of her
sex, the queen-bee, seems often at the fountain-head of the revolution.
Sometimes, undoubtedly, it is she who first develops this longing,
feverish unrest, and by little and little communicates it to the whole
colony.  Here the variability of bee-nature comes sharply into evidence.
Some hives will show this restless spirit for many days before the swarm
issues, while with others the great upheaval seems, as far as the mass of
bees is concerned, to be a sudden unpremeditated thing occurring in the
midst of the universal content and industry.  The preparations for
raising new queens are always taken in hand betimes, but probably this is
the work of the far-seeing, sober old bees of the hive, with whom
communism has become a settled and accepted calamity.  The bees who will
ultimately constitute the swarm may be supposed to nourish their secret
desires from the first moment the queen shows signs of mutability; to
neglect all their old tasks, first in heart and then in reality; and
finally—when the queen’s mood has reached its culminating point, and her
work in the hive is in virtual abeyance—to throw down plummet and trowel
and hod, and rush forth in a wild, hilarious company, urged by a longing
that they are as powerless to resist as to understand.

In the study of bee-life one comes upon many questions, but seldom
answers to fit all.  If the queen’s fecundation takes place only once in
her life, and nature intends this to suffice for her whole fruitful
period, it is not easy to see why she should go out with the swarm at
all.  That she is not the inveterate recluse as generally believed, and
that she does occasionally make short flights in the open during her
laying career, is well proved.  The desire, therefore, to see the light
again after a long incarceration cannot be urged as her reason for going
off with the swarm.  A much more plausible notion is that the sexual
spirit is again roused in the queen, just as it seems to be roused for
the first time in the worker-bee; and that, with all, the journey is
undertaken as a mating-flight, a faint re-echo of a racial custom long
extinct, bearing the closest analogy to the marriage-swarm from the
ant-hill.  It must be borne in mind that, although the queen-bee is
undoubtedly rendered capable of producing her kind of both sexes during
several years, as the result of a single fertilisation, it cannot be
incontestably held that she never again meets the drone under any
circumstances.  There is nothing in her physical organism to prevent a
second coition, although with the drone this is impossible, for more
reasons than the all-sufficient one—that he dies in his marriage-hour.

In the old bee-gardens, where the “swarm in May” is still a living,
present thing, it is pleasant to sit with the proprietor under the rosy
shade of apple-boughs waiting for the swarms to issue, and “talking
bees,” which is the most nerve-soothing, soul-refreshing occupation in
the world.  There never was a bee-keeper, new style or old style, too
busy to talk, provided that you met him with understanding, and were as
impatient as he of digressions from the all-important theme.  One soon
gets tired of imparting information as to the wonders of hive-life to the
ignorant and plainly apprehensive stranger, and none sooner than he of
the old school.  In the quietest apiary of pure-bred English bees there
are always a few individuals of crotchety nature, who will search you out
in the shady orchard seat, and, as like as not, knife you on the least
provocation.  If you are a beeman, you treat these vindictive approaches
with unconcern.  You go on listening to the old man’s talk, while the bee
shrills away at your eyelids, or creeps into your ear and out again.  If
you keep quiet, she will soon relinquish the dull sport, and wing
harmlessly away; and the thread of the master’s discourse is not
interrupted.  But the uninformed stranger is a nuisance at these
solitudes for two.  He flinches and shudders; makes little irritating
retreats; beats about wildly with his hands; or, if he is made of the
sternest metal, he sits rigidly upright when he should be reclining at
his ease, and turns such a painfully polite, though distracted, ear to
his informant, that the stream of talk is sure to dry up incontinently,
and he feels as little welcome as ghostly Banquo at the feast.

When you have once lived among hives it is a sore thing to be without
their music.  On warm days, winter and summer alike, there is always this
drowsy, dreamy song in the air; and dancing without the fiddlers is no
more depressing an occupation than, to a beeman, is loitering in a garden
of mere silent vegetables and flowers.  Sitting now under the bower of
apple-blossoms and watching for the swarms, the full sweet note from the
hives comes over to you like the very voice of serene content.  It
pervades the sunshine.  It gently qualifies the slow wind in the
tree-tops.  It lifts and falls like the lilt of a far-off summer sea.
This is the labour-song: the song of the swarm is very different.  To the
trained ear the cæsura that presently comes in the midst of the music is
as clear as a pistol-shot, though you may detect no change.  The old
bee-keeper stops short in his wandering tale about famous honey-years of
half a lifetime back, seizes key and pan, and hurries across the garden.
It is the old green hive again, he tells you, as you press hard upon his
heels—it is always the old green hive that has swarmed the earliest every
May for years back.  And forthwith the key and pan begin their clattering
ding-dong melody.

                       [Picture: Hiving the swarm]

Old-fashioned bee-keeping is not always a matter of straw.  Box-hives,
without, of course, the modern inside furniture, have been in use nearly
as long as the straw skep; and the hives in the garden are of this
ancient pattern.  The old green hive is keeping well up to its
reputation.  Already it is the centre of a swirling crowd of bees, and,
as you look, a dense black stream of them is pouring out of the entrance
so fast and furiously that it is almost impossible to distinguish what
they are.  And the old wild trek-song is growing louder and deeper with
every moment, a rich vibrant tenor note unlike any other sound in nature.
There is no doubt at all of its import, as you stand in the wing-darkened
sunshine, caught up in the excitement of it all, and feeling much as if
you were facing a tearing sou’-west gale.  Every bee of the twenty or
thirty thousand volleying madly to and fro overhead, is singing her
bravest and loudest.  There is only one meaning to the whole gargantuan
chorus.  It is sheer jubilation melodised: a wild, glad song of freedom,
as though not a bee amongst them had ever before set eyes on the sunshine
and the wealth of an English May.

The great door-key, a ponderous, antiquated piece of metal, beats out its
clanging note, and the swarm lifts higher and higher into the blue.
Gradually the sombre mist of bees draws closer together, looking now like
a little dark cloud strayed from a forgotten summer storm.  Now it sails
slowly northward, and lightens, as the sunlight is caught by the beating
wings as in a net of silver; and now it veers away into the very eye of
the sun, and changes into black, revolving tracery again; whirring wheels
within wheels of insect-life, spinning-wheels making thread to weave the
garments of a whole nation, and humming as never spinning-wheels hummed
before.

But the beginning of the end is nigh; the time of singing is nearly over.
The old beeman stops his weird tom-tomming, throws down key and pan, and
points to the topmost branch of a young apple-sapling.  You see a little
black knot of bees clinging to it no larger than a pigeon’s egg.  A
moment later, and it has grown to the size of a double fist, and another
moment sees it twice this size again, as the flying bees stream towards
it from all directions.  Now it is as big as a quart measure, and the
branch is slowly bending down under its weight.  In an incredibly short
space of time the whole swarm has joined the cluster; they hang together
in a long, brown, glistening, cigar-shaped mass, well-nigh touching the
ground, and the wild, merry music is over for good.

Gently swaying in the sunlight, lifeless and inert but for a few restless
bees that hum about it, the sight of a settled swarm has an almost
uncanny effect on most observers.  A little before, the whole garden was
filled with its deafening, joyous hubbub; now a strange silence has
fallen, and it is impossible to dissociate from its present state the
idea of an abject depression and disillusionment, as though the whole
thing had been but a mad escapade, of which the bees were now heartily
ashamed.  If we may conceive the issue of a swarm to be a freak of
ancestral memory, the sudden irresistible impulse to follow an old racial
habit, long obsolete, it is not difficult to account for the obvious
change of mind that has now come over the absconding host.  Packed within
the hive in a feverish, surging multitude, disabilities were not
self-evident as they are now, tried in the light of day.

    “Violent delights have violent ends,
    And, in their triumph, die.”

And now there is the morrow to be thought of: life to be rendered
possible in all odds of weather; a home to be made; the queen-mother to
be sheltered—she, the one remaining possession of the crowd, beggared
now, but so rich a moment before.  There is hard work ahead, enough to
sober the giddiest among them.  The madness has gone as quickly as it
came, and now the honey-bee is to show herself a reasoning creature, if
never before.

It is believed by most bee-keepers that a swarm selects the site of its
future dwelling some time before the expedition starts, in many cases
several days earlier.  An old trick among cottagers is to place out empty
hives in their gardens, and these not uncommonly attract errant swarms.
A few bees are seen cruising about, and subjecting the hives to a close
scrutiny.  These pioneer bees disappear, and after a variable time, from
a few minutes to a few hours, or even days, a whole army of bees suddenly
descends from the sky and takes possession of the new home.  When the
interval between the appearance of the scouts and the arrival of the main
body, is only a short one, the reconnoitring bees have been manifestly
sent out by the clustered swarm; but in the case of long periods
elapsing, the scouts must have been sent in search of the new location
before the swarm issued.  Probably, although the bulk of the party is
imbued with this reckless spirit alone, thinking and caring for nothing
else but the escape and the frolic, many of the older and wiser bees
undertake the matter in a temperate, businesslike way, as they would go
about any other important hive-operation.  In one sense, therefore, the
old notion of there being “subordinate lieutenants, captains, and
governours” in a hive may not be so very far from the truth.  That these
scouts are actually sent out to find a suitable site for the new colony,
either before the swarm leaves or while it is clustered in the open, is a
well-established fact, so that some of the bees at least must keep their
wits about them throughout the general chaos.

And with these wiser virgins must be reckoned the queen, in spite of the
fact that she joins in the public excitement and restlessness.  For some
days before the great emigration her work of egg-laying is largely
arrested, and this retentive action renders her so heavy and bulky that
often she can scarcely get on the wing.  The object of this is that she
may be all the more ready for laying when the new home is established.
It is also well ascertained that all swarming bees have their honey-sacs
well filled, and this loading up for the journey takes place just before
the signal for departure is given.  There is great variation in the
behaviour of the different stocks in a bee-garden during the swarming
season, and many close observers are unable to detect any sure signs that
a particular hive is going to swarm.  But it appears fairly well
established that, when a swarm is imminent, nearly all the bees of that
stock remain at home, even when all other hives in the garden are in full
foraging activity.  Such a hive gives out a peculiar throbbing note,
which suggests the noise made by a powerful locomotive brought to a
standstill, but with full steam up, and impatient to be gone.  Just
before the issue of the swarm there is often a curious lull in this
pent-up, forceful sound, and probably this is the moment when the
travellers are lading themselves up for the march.  Immediately after—and
here it is difficult not to believe that a definite, authoritative signal
for the movement is given—a sudden stir and tumult begins in the centre
of the crowded hive, much like that caused by a heavy stone cast into
water.  This radiates swiftly in all directions until it reaches the bees
near the entrance, and then the general rush for the daylight starts.
Where a hive is much overcrowded there will already be a cluster of bees
numbering many thousands packed tightly together on the alighting-board,
and sometimes covering the whole face of the hive.  But this mass melts
away directly the swarming begins, the waiting bees taking wing all but
simultaneously with the others.

It was anciently believed that the queen led the swarm, but this view is
not borne out by modern observation.  As often as not half the bees are
on the wing before she makes her appearance, and sometimes she is among
the very latest to leave, or she may decide at the last moment not to go
at all.  In this case the bees do not cluster, but after a few minutes’
wild tarantelle in the sunshine they all troop back to the hive.

When once the swarming-party has gone off, the old hive seems to settle
down to its ordinary occupations as though nothing out of the way had
happened.  The congested state of affairs no longer exists, but otherwise
the work of the hive is proceeding in the usual way.  The bees left
behind are mainly young workers who have not yet commenced foraging, but
there is always a fair sprinkling of old workers and drones.  Generally
the hive is queenless for the time being, the new queen not having yet
broken from her cell.  There may be four or five queen-cells in various
stages of development, or rarely as many as a dozen.  Sometimes, however,
the first of the queens will be already hatched and wandering over the
combs, meeting, as usual at this stage of her career, perfect
indifference from all she encounters.  But hives have been known to send
off a swarm when the preparations for raising a new queen have been
scarcely begun.  So variable is the honey-bee in all her ways.

                        [Picture: The swarm hived]

If the objects of swarming were merely to relieve the congestion in the
hive, and to change the mother-bee, the whole thing should now be at an
end.  But the swarming impulse is rooted in far deeper soil than mere
expediency.  With some strains of bees the fever seems to die out after
the one attack, and the stock settles down quietly to work for the rest
of the season.  But more often than not this first taste of adventure
serves only to whet the national appetite for more.  About nine days
after the first swarm leaves another swarm often follows, and this may be
succeeded by a third or even a fourth at a few days’ interval, resulting
in some cases in the almost complete extinction of the stock.  The old
skeppists called the second swarm a “cast,” the third was a “colt,” and
the fourth a “filly.”  It is difficult to understand how, in a community
where individual interest is so ruthlessly sacrificed to the general
good, this self-destructive policy should be permitted.  But taking the
view that swarming is in the main a vague and incomplete resurrection of
a long obsolete habit in bee-life, a workable theory at once suggests
itself.  Under primæval conditions the continued life of the
mother-colony may have been unnecessary.  Its purpose may have been fully
served when a number of young queens and drones had been raised, and the
whole had swarmed out together, each to form a new settlement.  It must
be remembered that the bee-hive, persisting indefinitely from year to
year, is really quite a modern creation, and became practicable only with
the invention of the movable comb-frame, which allowed the bee-master to
effect the renewal of combs.  It has been seen that the brood-combs get
gradually choked up with the pupa-cocoons, which each bee leaves behind
it.  These webs are so incredibly thin that a dozen of them make little
appreciable difference to the capacity of the cell, and combs have been
known to remain in use for brood-raising as long as twenty years.  But
eventually they must become useless; and then, as bees do not, or cannot,
remove old combs to make way for new, the community must leave for a new
home, or gradually die out.  Thus the age of the old hives was definitely
limited.

Modern beemanship has wrought many other changes in the life of the
honey-bee in addition to creating the permanent hive-city.  The number of
bees in a single strong stock, housed in a modern frame hive, is probably
three times as great as that of a wild colony.  The work of the
bee-master affects almost every aspect of bee-life, enlarging the scale
and the scope of all that the bees attempt.  The result of this is seen
not only in an increased population and more extensive works, but in a
change in the very systems of life.  Plans that work very well on a small
scale do not always succeed on a large.  The sanitary problems of a city
are necessarily very different from those of a village, in principle as
well as in degree.  And probably much of the ingenuity of system and
device observable in modern hive-life is directly due to human agency,
the new conditions introduced by the bee-master serving to educate the
bees to greater effort and resource.

The behaviour of these after-swarms offers a curious contrast to that of
the first one.  If it were possible to point to one fixed and invariable
law in bee-life, it would be to the fact that a prime swarm will leave
the hive only on a fine, warm day, and generally about noon.  But casts
and colts and fillies seem to take no count of time or weather, issuing
just as the mood besets them, early or late, and caring nothing,
apparently, for the conditions abroad.  It is even on record that once a
second swarm came off at midnight, when the moon was at the full and the
weather very clear and warm.

There seems altogether much more method in the madness that seizes on a
colony swarming for the first time, and if thereafter the hive settles
down to its old courses, the national character for sobriety and industry
soon rehabilitates itself.  But it is just the strength of this public
inclination towards order and labour which varies so greatly in different
hives.  How matters are likely to go can be readily ascertained by
setting careful watch on the hive from the day the first swarm leaves.
There are sure to be several queen-cells, some capped over and almost
ready to hatch out, and others in various stages of development.  All
these cells are constantly and assiduously guarded by the worker-bees,
because directly one of the queens is hatched, her first thought is to
make a speedy end to all future rivalry by murdering her sisters.  She
comes from her cell evidently spoiling for a fight, and imbued to the
core with that inveterate hatred of her kind which is the ruling passion
of her existence.

That worker-bees and queen-bees should have an identical origin, and yet
that the nature of the one is to live in perfect harmony, while the
nature of the other is to be at perpetual war, is one of those mysterious
things in bee-life which probably will never be explained.  If the
queen-bee of to-day can be really taken as an approximate type of the
aboriginal female of her race, it is not difficult to understand that
after her generation in force the communal life of the mother-stock would
become an impossibility, and that with the mating-swarm its natural
existence was brought to a close, much as we see it happen in wasp-life.

It is during the quiet nights, after the issue of a swarm, that the
peculiar shrill voice of the queen is most frequently heard.  As she
strives with the guards that surround the cells of the other young queens
as yet unliberated, she continually utters this quick piping cry, and is
immediately answered by the smothered cries of the imprisoned ones, who
are just as anxious as she for the fray.  If the swarming-fever is not
yet allayed in the hive, this war-cry is bandied to and fro unceasingly;
and the general ferment deepens, until, the condition of things having
seemingly grown intolerable, the young queen rushes out, followed by the
greater number of the bees.  In the case of after-swarms, the concensus
of evidence is in favour of the belief that the queen is really the
leader of the party, although here again no positive rule is observed.

It may happen, however, that the stock is sick of all the turbulence and
unrest that have so long beset it, and that the general desire is to
restore the _status quo_.  Under these conditions the sounds from the
hive may have a very different quality and meaning.  The queen still
sends forth her shrill challenge, but now her cry is immediately followed
by a curious hissing sound from the bees.  It is exactly as if they were
shouting her down, compelling her to silence by their own uproar; and
when the war-cry of the first liberated queen is thus met by a chorus of
disapprobation, it seldom happens that the stock swarms again.  In a few
days the queen goes forth alone on her honeymooning adventures; and on
her return she is allowed to indulge her penchant for sororicide to her
heart’s content.




CHAPTER XII
THE COMB-BUILDERS


IN the foregoing chapters an attempt has been made to show that the
honey-bee lives and moves and has her being in a world which must be
actuated by something better than mere instinct, in the common usage of
the term.  To the modern biologist—the earnest out-of-door student of
life under all its manifestations—this may appear as a rather obvious and
unnecessary gilding of gold, and the only question yet undecided may seem
to be where in the scale of reason the honey-bee is to find her equitable
place.

All bee-lovers must plead guilty to an inveterate partizanship, the
writer frankly among their number.  There is no laodiceanism in
bee-craft; and, all the world over, it may be said that, where a few
beehives have been got together, there is always to be found a red-hot
enthusiast not far off.  The word “freemasonry,” in the English tongue,
has grown to be a synonym for the truest fraternity; but just as real,
and almost as far-reaching, is the brotherhood among keepers of bees.  No
doubt, among themselves the tendency is rather to magnify the virtues and
achievements of their charges: to be over-lavish of inference from too
scanty or too isolated facts.  And the proved impossibility of having
anything to do with the honey-bee without being carried away sooner or
later on a high wave of enthusiasm, makes any attempt at holding the
balances truly between the zealous bee-lover and the interested but
temperate-minded reader, a difficult and delicate task.  Any writer on
the honey-bee nowadays must be reckoned an ultra-specialist in an age of
specialism; and here it is not easy to preserve the sense of proportion
undimmed, especially for one admittedly speaking out of the ranks of
beemanship, where all are aiders and abettors in ardour, impatient of any
estimation falling short of high-water mark.

The story of the Comb-Builders, however, sets none of the usual pitfalls
in the way of the over-enthusiastic penman.  In its soberest incident and
least important detail it is so wonderful, that exuberance of language is
as powerless to exaggerate, as a niggardly tongue to minimise, its true
and due effect.  If the ordering of the bee-commonwealth—the intricate
systems of sanitation, division of labour, treatment of the queen and
worker-larva, and the like—is subject for marvel, and seems infallibly to
denote the possession of high faculties, a much greater degree of acumen
must be conceded to the worker-bee when we come to consider her as the
designer and builder of honeycomb.

It is here that she shines in her most significant light.  The
complicated structures with which she fills the bee-city do not call for
unwearying toil alone: they could never have been fashioned unless the
combined arts of engineer, architect, and mathematician had been brought
to bear on them.  Nor are they merely simple constructive and
mathematical problems which the honey-bee is called upon to face; nor,
though difficult, unvarying, and so amenable to instinctive solution.  In
almost every comb built we see special and necessarily unforeseen
difficulties met and triumphantly overcome.  In the construction of the
six-sided cell, with its base composed of three rhombs or diamonds, the
bee has adopted a form which our greatest arithmeticians admit to be the
best possible for her requirements, and she endeavours to keep to this
form wherever practicable.  But it constantly happens, in her work of
comb-building, that local conditions interfere with her plans; and then
she will make five-sided cells, or square cells, or triangular, or any
other form, just as the need impels her.  It is a facile, comfortably
finite thing to put all this down to a mysterious essence called
instinct, with which the organism of the bee has been divinely dosed, as
men serve electricity to a Leyden jar.  But it was not instinct that made
Wren put the steel cable round the dome of St. Paul’s, nor instinct that
lifted the crown-stones to the top of the Great Pyramids.  These are
works of a creature more highly equipped and instigated; yet their
supremacy is all of a piece with the honey-comb, which is made of a
material fragile, light as air, but which, by the art of the bee, becomes
capable not only of supporting, but of suspending a weight thirty times
as great as its own.

That the bee does not collect her building materials, but derives them
from her own body, is a fact that has come to light only within the last
hundred and fifty years or so, although several shrewd guesses at the
truth are to be found in the works of the mediæval bee-masters.  The
wasp, who has much of the ingenuity of the honey-bee, but is doomed to
exercise it in a far more humble direction, makes a six-sided cell; but
her matter is collected from outside, and can only be put to
comparatively simple uses, as it is incapable of bearing tensile strain.
Beeswax alone, of all constructive materials in the world, seems to meet
every requirement.  It can be worked into plates as thin as the 1/180th
part of an inch, which is the normal thickness of the cell-wall.  It is
indestructible to all the elements save heat.  It can be rendered soft
and easily workable, or allowed to harden, while still retaining its
suppleness and life.  It is a bad conductor of heat, and therefore
conserves the heat of the hive.  Vermin do not prey upon it: so far as is
known there is only one creature that will eat it—a peculiar kind of
moth-larva, against which, however, a strong stock can always hold its
own.  And then, as the raw materials for its production are secretions of
the bee’s own body, the work of preparing it can be carried on when
darkness or stress of weather have put an end, for the time being, to
work out of doors.

The first labour undertaken by a swarm, directly it has gained possession
of its new quarters, is the building of combs.  The apparent revulsion of
feeling which succeeds the excitement of swarming soon passes off, and
the energies of the whole party are at once concentrated on furnishing
and victualling the new hive.  The older bees commence foraging, each bee
as she goes forth hovering a moment with her head towards the hive, to
fix its location and appearance in her memory.  By far the greater
portion, however, remain at home and unite in a dense cluster for
wax-making.  Time is everything in these first operations of the new
colony.  The queen, with whom egg-laying has probably been suspended for
a day past, or even longer, is overburdened with fecundity, and must be
supplied with thousands of brood-cells without delay.  The foragers will
be coming home laden with nectar and pollen, and will need instant
storage-room.  Wax must be made with all possible expedition, and the
young bees crowd together in the roof of the hive, with their queen snug
and warm in their midst.

No doubt one of the chief reasons why swarming bees unite themselves in
the solid pendant mass of the cluster so soon after leaving the
parent-hive, is to hasten this process of wax-formation.  It has been
proved that wax is most easily generated under the influence of great
heat, and this is well secured in the heart of the cluster.  By the time
the scouts have decided on the new home, and the swarm must rise again on
the wing, a great number of the bees will have their wax-pockets filled,
and will be ready for the work of comb-making.  When a swarm is hived,
even if it be only a short time after its issue, the little white
wax-scales can be seen protruding from the armour-joints of many of the
bees, and these are often dropped and lost in the general confusion.

One of the most difficult things to observe in bee-life is the actual
process of comb-building.  The crush is so great, and the movement of the
bees so incessant, that at first the comb seems to grow of itself rather
than be made by the busy multitude, for ever obscuring it from the
watcher’s eyes, or giving him but the rarest glimpse now and then of its
white, delicate frailty of pattern.  These early efforts of the
comb-builders, produced as they are under forced circumstances, are
occasionally faulty of design, as though hastily knocked together.
Sometimes the first groups of cells made by a swarm will have a yellow,
moist, spongy appearance, with thick, irregular walls, and are obviously
little more than temporary vats to hold the incoming nectar until the
proper honey-cells can be constructed.  This emergency-comb is specially
interesting, as affording one more instance of the worker-bee’s
ever-ready resource in the presence of difficulties.  In the ordinary way
the mason-bee hangs quietly in the cluster until her wax-secreting organs
have done their work, and the six little oblong scales of brittle
material are ready for manipulation.  These protrude from under the hard
plates of her abdomen, three on each side, looking much like half-posted
letters.  At one of the knee joints of her hind-leg she has a peculiar
implement, of which there is not the slightest trace in the queen-bee.
This is like a pair of nippers, but instead of two converging points, it
is furnished on one side with a row of sharp, stiff bristles; and on the
other with a shallow spoon.  With this special tool the worker-bee grips
the wax-scale, and draws it out of its pocket.  It is then transferred to
her jaws, and she hurries off with it to the comb-building.  Arrived at
an unfinished cell, she sets to work to chew up the raw wax into a paste,
incorporating it with her saliva, and materially increasing its bulk.
The resulting soft, ductile matter is then applied to the work, and
moulded into its needed shape.  In this way, with hundreds of workers
going and coming, the delicate white fabric of brood and honey-comb is
built up with extraordinary rapidity.

How the coarse, spongy comb, which swarms will sometimes manufacture, is
produced cannot be definitely stated.  It has all the appearance of
having been made from raw wax, hurriedly masticated and kneaded up with
honey, and probably this is its actual composition.  The secretion from
the salivary gland, is necessarily slow, and with time pressing and a
horde of impatient foragers dinning about her ears, eager to unload and
be off again to the clover, the ingenious mason-bee appears to have hit
on the idea of using the contents of her honey-sac as a substitute.
Nothing, however, but a mechanical admixture can take place between honey
and the raw wax.  This dissolves only under the influence of the bee’s
saliva, which has intensely acid properties.

To understand all that the bees have accomplished when a new empty hive
has been filled throughout with waxen comb, it is necessary to follow the
operations of the swarm pretty closely during the first few weeks of its
separate life.  It is a big undertaking, the building of an entire, new
bee-city, and the problems that confront the builders are many and
complicated.  In the first place, whether she ever attains it or not, the
worker-bee will aim at nothing short of perfection.  Hereditary
experience tells her exactly what are the home-requirements of the
colony, and she now sets to work to fulfil them in the best imaginable
way.

A city is to be built which is to accommodate twenty or thirty thousand
individuals.  Vast nursery-quarters must be constructed, as there may be
as many as ten or twelve thousand youngsters to cradle at one and the
same time.  For at least six months of the year no food will be
obtainable from outside, so that the city must contain large storehouses
capable of holding more than a six months’ supply.  As the temperature in
winter can be kept up only by the bodily warmth of the inhabitants, life
in the city must be concentrated into the smallest possible space; and
the materials of which the city is built must be heat-conserving, while
its construction must allow of perfect ventilation at all times, and in
summer it must permit a free circulation of air, that the surplus heat
can be readily carried off.  The city must be a fortress as well as a
home, and be closed in on every side as a protection against its many
enemies, as well as the weather.

There is another, and just as vital a condition governing its
construction—the necessity for strict economy in material.  If there were
any natural substance having the qualities of tenacity, lightness,
ductility, and strength which the bees could obtain out of doors instead
of wax, no doubt they would use it for comb-building, and they would not
spend hours of precious time and consume large quantities of hard-won
stores in the manufacture of their own material.  But it seems there is
nothing in nature possessing the needful properties.  Bees collect a
resinous substance, notably from the buds of the poplar, which they use
for stopping up crevices.  They dilute this also into a varnish, with
which they paint the finished combs, and sometimes even combine it with
wax to form a rough filling; but it appears to be useless in
cell-construction.  The whole city must needs be made of wax, and wax
alone; and the bees are as careful of this precious substance as a miser
of his gold.

Starting with these conditions—efficient house-accommodation for the
colony secured at the least cost in time, labour, and material—the bee
tackles the problem before her with an ingenuity that is little short of
astounding.  She appears to begin with the central dominant unit of the
difficulty, and to work outward, vanquishing subsidiary problems as she
goes.  Her line of reasoning seems to run somewhat in this way.  To raise
the young, and store the honey, there is needed some kind of cell or
receptacle.  The young larvæ being cylindrical in form, a cylindrical
cell is indicated; and this shape will serve also for the honey-barrels.
Not a few, however, but many thousands of these vessels will be required:
they must therefore be placed close together, as well for economy of
space as for natural warmth.  The cells could be grouped together mouth
upwards in horizontal planes, storey above storey; but such a method of
construction would be economically unsound.  To prevent sagging in the
heat of the hive, and under the weight they will be called to bear, the
cell-bases would have to be thickened collectively into a substantial
floor, which would need shoring-up at intervals—after the manner of the
wasps.  But in this, much valuable material would be diverted from its
proper use.  Obviously, a better plan would be to lay all the cells on
their sides, and pile them up into a vertical wall.  And, just as
obviously, if two walls of these superimposed cells were placed back to
back, so that one central vertical sheet of wax would serve to stop the
ends of all the cells, right and left, a saving of half the material used
for the cell-bottoms would at once be effected.

But, so far, the design is still only in its crude, initial stage.  The
upright comb, consisting of a double pile of round cells, back to back,
with one flat base between, although a great advance on the single sheet
of horizontal cells, is yet mechanically and economically deficient.  The
round cells leave useless interstices, which take much wax in the
filling; while the flat bottoms do not coincide with the form of the
larvæ, and thus still more space is wasted.  Clearly, improvement can
only come by altering the shape of the cell; and now the bee seems to
have asked herself-and triumphantly answered—an extremely complex
question.

She knew how much internal cell-space each larva required for growth.
The problem, therefore, was this: of what shape, nearly approaching the
cylindrical, ought such a cell to be made, which would ensure the right
dimensions, but which would occupy the least possible room, have the
greatest possible strength, consume the least possible material in its
manufacture, and possess the property that a number of similar cells
could be built up in a double vertical plane, leaving no interstices
either between the cells or between the planes?

There is only one solution to this problem; and the honey-bee found
it—who shall say how many ages ago?—in the hexagon cell, with its base
composed of three rhombs.

The whole astounding ingenuity of the thing can only be realised when a
piece of nearly perfect, new-made, virgin-comb has been closely examined.
It will be at once seen that the hexagon cells combine together over the
surface of the comb in absolute geometrical union, and that the six-sided
form is round enough for all practical purposes.  Looking into the cells
on one side of the comb, it will be noted that their bases take the form
of depressed pyramids, each made up of three diamond-shaped planes.

 [Picture: Honey-comb, transmitted light, showing arrangement of cells on
                               both sides]

Turning the comb over, we see that the cells on this side also have
pyramidal bottoms.  If the depth of a cell on one side of the comb be
taken, and added to the depth of a cell on the other side, and then the
width of the whole comb be measured, it will be found that the combined
depth of the two cells perceptibly exceeds the width of the whole comb.
At first glance this seems like a case of the less including the greater,
which is a manifest impossibility.  But, holding the comb up to the
light, a further discovery is made, and the seeming paradox is
eliminated.  The bottoms of the cells are so thin as to be almost
transparent, and it is at once seen that the cells are not built end to
end, in line, but that each cell-base on one side of the comb covers part
of three cell-bases on the other.  If the three diamonds, composing
between them the triangular base of a single cell, be perforated with a
needle, and the comb turned over, it will be found that the three
perforations come each in a separate cell.  Thus the saving in the total
width of the comb is effected by allowing the pyramidal bases on each
side to engage alternately like the teeth of a trap; instead of meeting
point-blank, they overlap each other, and the faces of the pyramids are
so contrived that each of them helps to close two cells.

There is another advantage in this arrangement which will be immediately
obvious.  The apex and three ribs of each pyramidal cell-base form
foundation-lines for the cell-walls on the other side of the comb.  This
means that not only do all cell-walls abut on an arch, but that every
cell-base is strengthened throughout by a triple girdering.  The result
is that the amount of wax required in the construction of the comb can be
everywhere reduced to an absolute minimum.  It becomes merely a question
of what thickness of wax will retain the honey; and this experience
proves to be no more than 1/180 part of an inch.  The whole thing,
indeed, might very well be taken as an ideal exemplar of the triumph of
mind over matter.

The geometric principles brought into play in the construction of
honey-comb have been a favourite study with mathematicians of all ages,
and especially this rhombiform method adopted by the bee in flooring her
cells.  The rhomb is best described as a plane-figure whose four sides
are equal, like those of a square, but whose angles are not right angles.
In such a figure there are necessarily two greater angles and two
smaller, facing each other in pairs.  The three rhombs composing the base
of the honey-cell lean together, as has been seen, in the form of a blunt
pyramid; and—treating all angles as negligible factors—the bluntness of
this pyramid is found to coincide very aptly with the shape of the
full-grown larvæ.  But this is not the only reason for the particular
inclination given by the bee to the rhombs forming the base of each cell.
Economy rules here, as in everything else she undertakes; and the truth
that she has chosen the one and only form of cell-base which takes the
least possible material to construct has received very striking
confirmation.

The story is an old and famous one, but it will bear repeating.  A great
naturalist once put himself to an infinity of trouble in measuring the
angles formed by the rhombs in a vast number of comb-cell bases, and he
found that these showed remarkable uniformity.  It will be clear that the
hollow pyramid of the cell-bottom will be either deep or shallow,
according to the shape of the three rhombs composing it.  The apex of the
pyramid is formed by the meeting of three equal angles, one from each
rhomb; and it is plain that this apex will be sharp or blunt, according
to whether the meeting angles are wide or narrow.  It was, of course,
impossible to ascertain the dimensions of these angles with absolutely
microscopical nicety; but, dealing only with the most perfect comb, the
naturalist found that the two greater angles in the rhombs measured very
nearly 110°, and the two lesser angles 70°.  He also found that the
angles formed by the conjunction of the cell-sides with the bases had the
same dimensions as those of the rhombs.  Assuming therefore that,
mathematically, the angles of the rhombs and cell-sides should be equal,
he was able to calculate exactly the angles for which the bees were
evidently striving in the construction of the rhombs—109° 28′ and 70°
32′.

Another bee-lover scientist, ruminating over these figures, was much
impressed by them, and determined to find out the reason why the bee made
such constant choice of this particular shape of rhomb.  He therefore
conceived the idea of submitting the bee’s judgment on this cell-base
question to an independent authority.  Without disclosing his object, he
propounded the following problem to one of the greatest mathematicians of
the day.

“Supposing,” said he, in effect, “you were required to close the end of
an hexagonal vessel by three rhombs or diamond-shaped plates, what angles
must be given to these rhombs so that the greatest amount of space would
be enclosed by the least amount of material?”

It was a difficult problem, but the mathematician worked it out at last,
and his answer was “109° 26′ and 70° 34.”

Now, the difference between the calculation of the man and the
calculation of the bee was an exceedingly small one.  No one thought of
calling into question the work of the man, who was pre-eminent in his
world of figures.  It was therefore accepted as a fact that the bee had
made a trifling mistake—so trifling, however, that, in the matter of
comb-building, it was of no importance.  Her reputation was unimpaired:
to all intents and purposes the honey-cell was still a perfect example of
utmost capacity secured by least material.

But another mathematician—a Scotsman this time—went over the whole
business again, and he proved conclusively that the bee was right, while
the first mathematician was wrong.  He showed that the true answer to the
problem of the angles was 109° 28′ and 70° 32′—identically the figures
obtained by estimation of the honey-comb.

                                * * * * *

In the foregoing pages the principles involved in the construction of
honey-comb have been gone into rather minutely, because it is here that
the lines of thought between the old and the new naturalists seem to make
a typical divergence.  Both schools are, in the main, agreed on the point
that all forms of life emanate from the one omnipotent source; and it
matters little whether we speak of the vast periods of time, during which
the creation of all things was effected, as ages, or under the old
Biblical metaphor of days.  But whereas the old school appears to insist
on different qualities of life—immortal soul in man, and a mystic,
subconscious, perishable thing called instinct in the brute creation—the
new school is unable to see any distinction between the intellectual
equipment of man and brute, but that of degree.  Between the honey-bee
and her masters there is indeed a great gulf fixed, but it is conceivably
not unbridgable.  And unless we are determined at all cost of logical
violence to force a favourite set of square opinions into the round holes
of observed fact, it is difficult to see how the old position is long to
remain tenable.

With regard to this particular question of comb-building, an attempt is
still being made to show that it is entirely due to the working of
certain natural laws, and is independent of any intelligence or volition
which the bees are supposed to exercise.  We are told that the cells are
always begun in a circular form, but that they afterwards assume the
hexagon shape quite automatically, in obedience to the laws of mutual
interference and pressure.  As a proof of this, it is pointed out that
the outside cells of the comb, not being subject to these laws, are
usually more or less rounded.

The pressure-theory is hardly worth serious consideration, as it is
obvious that the growth of a honey-comb is perfectly free and
untrammelled in every way.  If the bee makes her comb-cells with six
sides and a pyramidal base unthinkingly, and under the yoke of imperious
obligation, it is certainly not because the cells force this shape upon
one another, like Buffon’s peas in a bottle.

And if we believe that the bee works blindly under the law of mutual
interference, any close examination of the results of her work must bring
us to the conviction that we are only putting aside one marvel for
something more wonderful still.  For then we see a natural law taking on
a very unnatural quality—that of intelligent adaptation to circumstances.
The comb, intended for use in the hive-nursery, is made in two sizes.
That used for cradling the worker-brood has cells measuring ⅕ inch
across, and a fraction less than ½ inch deep, while that designed for
raising the drone-larva is built up of cells having a diameter of ¼ inch,
and a depth of about ⅝ inch.  These different-sized cells are not mingled
indiscriminately over the comb, but are grouped together in large blocks.
Some of the combs will be entirely composed of worker-cells, which are
always in the vast majority; other combs will be made up of both kinds.

The bees begin a comb by attaching a small block of wax to the roof of
the hive.  On either side of this they hollow out depressions, which
become the bases of the first cells.  The work is then extended downwards
and sideways, the cell-bases being multiplied in all directions as fast
as possible, so that there are a great number of unfinished cells in
progress long before the walls of the first cells have been completed.
There is a very reasonable motive for this procedure.  When a house is
being built, as much of the foundations as possible are laid in at the
commencement, to allow a large body of bricklayers to get to work on the
walls at the same time; and the bee extends her comb-foundations on the
same principle.

When about half the comb has been finished for worker-brood, it may be
decided to commence building drone-cells.  As the bases of the
drone-cells are larger than those of the worker-cells, it follows that a
change must be effected in the ground-plan of the comb.  The bees prepare
for this transition very cleverly, evidently studying how the regularity
of the comb may be least interrupted.  Sometimes the change is contrived
without any appreciable loss of space, but more often several misshapen
cells have to be made before the symmetrical progress of the comb is
resumed.  This depends largely on the inherited skill of the bees, which
varies according to their strain, as all experienced bee-keepers know.
Now, if the work of comb-building is carried through by the bees under
blind compulsion of the natural laws of mutual interference and pressure,
what other law, it may be asked, interferes with these in turn when the
transition from one size of cell to another must be made?  If it is all a
sort of crystallisation going on independently of the bees’ will or wish,
it appears more than curious that the mill should grind large or small,
just as the needs of the hive demand it.

But the whole position is really little else than a flagrant example of
the evils of argument from a simile.  Soaked peas in a bottle will swell
to hexagons, or rather, dodecahedrons, by the law of mutual interference.
Soap-bubbles will do the same with no more constriction than their own
weight.  But peas and bubbles are things self-contained and separately
existing, before being brought together.  If the bees made a vast number
of separate, round cells, and then combined them simultaneously, no doubt
all but the outside cells would assume the hexagon form.  But the essence
of the whole art and ingenuity of comb-building lies in the fact that
there is no such thing as a separate cell.  Each single compartment in
the comb shares its parts with no less than nine other compartments.  And
to talk of mutual interference when there is no separate existence is
ploughing the sands indeed.

There are other circumstances connected with the work of the
comb-builders which go far to confirm the position that bees do exercise
reason, and that of a high order.  It has been said that the interior of
a hive in daytime is not altogether deprived of light.  Probably, during
the hours of greatest activity, the bees have always enough light to see
their way about by means of their wonderful indoor-eyes, which, under the
microscope, have all the solemn wisdom of an owl’s.  It is a fact,
however, that comb-building is usually carried on at night-time, when
other employments are in temporary abeyance. Possibly the—to our
eyes—profoundest darkness may be no darkness at all to the bees; but, to
all appearances, as we can judge of them, honey-comb is virtually made in
the dark.

But combs are built side by side, often simultaneously.  They grow
downwards together, yet always preserve their right distance apart; so
that, when finished, there will be an intervening gangway between the
sealed surfaces of about a quarter of an inch, which is just enough to
allow the two streams of bees to pass each other, back to back.  How are
these distances preserved, seeing that the bees at work on the bottom
edge of each comb are separated by a space of, perhaps, an inch and a
half of empty darkness?

A simple experiment will at once give a clue to this.  If a hive, in
which a swarm has constructed about half its depth of comb, be canted a
little sideways, so as to throw the combs out of the perpendicular, and
the hive be then left for several days, it will be found on examination
that all building, from the moment of disturbance, has followed on the
new line of verticality.  The combs will all be slightly bent to one
side.  This means either that the bees have a natural sense of the
perpendicular, or that they work by the plumbline, as humanity is
constrained to do.  The fact seems to be that the hanging cluster of
wax-making bees performs the office of a living plummet, and really
guides the comb in its downward progress.

Yet, do bees always suspend their combs?  Do they never construct a waxen
storehouse, raising it tier above tier from the floor of the hive, after
the system of the more intelligent creature, Man?

                      [Picture: Comb built upwards]

The first commentary on this is, that such a departure from their common
methods would be no improvement, but a retrograde step.  These long
comb-walls of the bees have a close analogy to the modern transatlantic
sky-scraper building.  The trouble with all such buildings is to provide
them with sufficient base for their height.  If American engineers had at
their disposal a material of adequate tensile strength, and there were
anything in nature to hang them from, it would be, scientifically, a
better plan to suspend these buildings than to erect them, because the
house would then naturally tend to keep its verticality, and the
base-problem would cease to exist.  On the same principle the bees,
having at hand a material of almost ideal tensility, and a suitable
hanging-beam, wisely suspend their heavily, weighted combs from the roof,
instead of erecting them, like certain kinds of ant-structures.

But it is undoubtedly long racial experience, and not inability to follow
the humanly approved method, that guides them here.  Rarely—so rarely
that the writer, in the course of many years spent among bees, has seen
only a single example of it—bees will build comb _upwards_, if
circumstances will allow no other way.  And this would seem not only to
drive the last coffin-nail for the poor instinct-theory, but to carve its
epitaph as well.

In the instance referred to, a glass-bottomed box had been inverted over
the feed-hole of a common hive, and had there remained forgotten.  As the
season progressed, the hive grew great with bees and honey, and it became
imperative to build additional store-comb in the box overhead.  But its
slippery glass roof would give no foothold to the builders.  Time and
again they must have tried to get upon it, with their wax-hods filled and
ready, and each time failed: the ordinary way of comb-building was
clearly impossible.  Then the engineers of the hive, inspired by the
difficulty, got to work in another way.  On the wooden surface below they
laid out the plan of a garner-house, not after their usual method of
parallel combs, but a regular, oblong house, with cellular storerooms,
and communicating passages in between.  Upon this they raised storey
above storey of horizontal cells, until the glass roof was nearly
reached.  At this stage, apparently, the honey-flow came to an end in the
fields, for the cells in the store-house were never sealed, though all
were nearly full of honey; and later in the season it was found and
carried away by the bee-master, who still preserves it as a curiosity.
He bears a well-known name, {218} and his testimony as to the making of
this unique little honey-house is beyond question; but, indeed, it
carries in itself infallible evidence of its authenticity.  All
honey-cells made by bees have a slight upward inclination, which helps,
as has been already explained, to retain their contents until they can be
capped over.  And every cell in the storehouse clearly showed this upward
slant.




CHAPTER XIII
WHERE THE BEE SUCKS


IT is characteristic of those unlettered in bee-craft that they are often
afraid when there is no danger, and will venture with the intrepidity
that is born of ignorance where old experienced bee-keepers fear to
tread.

Temper in bees is one of the most variable qualities in a creature made
up of variabilities.  There are times, when a summer storm is threatening
and the air is charged with electricity, when to go among the bees is to
court certain disaster; and there are other times, such as the full
height of the honey-flow, when almost any liberties can be taken with
bees, without fear of reprisals.  And yet this is not always the rule.
Much depends on their lineage and the purity of the strain, and, again,
on the systems of the bee-master.  Bees respond as readily as any other
form of domestic stock to wise and considerate treatment.  Handled in a
firm, quiet, deliberate way, the most vicious colony can often be dealt
with in perfect safety; while the mildest-natured bees will commonly meet
fumbling indexterity with a prompt challenge to war.

Since the Italian bee was brought to England, some half-century ago,
there is no doubt that the original English strain has been greatly
modified.  Some authorities, indeed, question whether there are any
absolutely pure British bees left at all.  The golden girdles of the
Italian crop up in the most unlikely places, and the foreign blood seems
to have got into the race in all but the remotest parts of the country.
One must regret, although it is a vain regret now, that these undesirable
aliens were ever allowed to set foot on the soil.  Whatever naturally
survives and thrives in a particular country, must be the most suitable
thing for that country; and these southern races of the honey-bee seem to
have brought back, to the detriment of our own stock, idiosyncrasies long
ago bred out of the native race.  Much of the nervous irritability and
proneness to disease visible in the honey-bee of to-day is more or less
directly traceable to the introduction of foreign blood; and the grand
special advantage of the Italian bee—its much vaunted and widely
advertised possession of a long tongue—has proved an entire myth.
Numberless measurements undertaken by our leading scientific apiarians
have proved that the Italian bee has a tongue no longer than any other,
although most are willing to concede her the possession of a very long
and ready sting indeed.  But here we do her an injustice: a pure-bred
Italian worker-bee is as good or as bad tempered as any other of her
species.  It is the first crosses with the native bee which display so
much vindictive aggressiveness, and have given to the whole race its
general bad name.

In the time of the great honey-flow—which in southern England begins in
May, early or late, according to the season, and may endure for six
weeks—it is a common thing in the country to see people turn back from
the footpaths, running through the white-clover or sainfoin fields,
because of the huge and terrifying uproar made by the foraging bees.
When there is a large acreage under these crops, and the day is a fair
one, this note reaches a volume hardly to be credited as a sound of work
and peace.  It is much more like the din of a great bee-war, and it is
small wonder that the stranger, unlearned in the ways of the hives,
should fear to go through what is very like a scene of battle and
carnage.

And yet there is no time of year when the honey-bee is so little inclined
to molest her human fellow-creatures as this.  So long as the
honey-weather holds—the warm nights when the nectar is secreted, and the
rainless days when it can be gathered—she can hardly be induced to
attack, even if her home is being turned inside out, and the sudden
sunlight riddling its darkness through and through.

Until within comparatively recent years it was universally believed that
honey was a pure, untouched secretion from the flowers; and that beyond
gathering and storing it the bee had no part in its production.  This
idea, however, is a wholly mistaken one.  Honey is a manufactured
article, and differs in almost every way from the raw juices obtained
from the various flower-crops.  The nectar of flowers, before collection
by the bee, seems to have hardly any of the constituents of ripe honey.
Three-quarters of its bulk consists of plain water, in which about 20 per
cent. of cane-sugar is dissolved, the rest being made up of essential
oils and gums, which give it its distinctive flavour.  But mature honey
contains very little water, certainly never more than a sixth part of its
bulk.  Its sugar is almost entirely grape-sugar.  It is decidedly acid,
while the nectar is always neutral.  And the oils and aromatic principles
of the flower juices are matured and developed into the well-known honey
flavour, which is like nothing else in the world.

It is certain that the process of manufacture begins directly the bee
draws the nectar from the flower-cup.  As the liquid passes into the
honey-sac it is mingled with the acid secretion from the gland at the
base of the tongue.  When the bee reaches the hive she does not pour her
burden direct into the cells, but passes it on to one of the house-bees,
who conveys it to the honey-vats.  It is even probable that the nectar is
transferred a second time before it reaches the cell, although this point
is still undecided.  The effect of such transference is to add more acid
properties to the original juice.

The honey seems to undergo a regular brewing process within the hive.  It
is kept at a temperature of about 80° or 85°, and it is then that the
surplus water passes off into vapour.  In this way the raw nectar loses
at least two-thirds of its natural bulk before it is finally converted
into honey.  It is said that at the last moment, just before each cell is
stopped with an impervious covering of wax, the bee turns herself about,
and injects into the honey a drop of the poison from her sting; but there
seems to be not the slightest evidence in support of this.  The contents
of the poison-sac are, it is true, mainly formic acid, which is a strong
preservative; and undoubtedly traces of formic acid are to be found in
all honeys.  It has been, however, conclusively proved that this acid
finds its way into the honey from the glandular system of the bee, and
not through its sting.

The industry of the bee in nectar-gathering has always been a stock
subject for wonder, and it is commonly supposed that she is born with
full instinctive capabilities for her task.  A little observation,
however, soon tends to upset this theory.  The work of foraging has to be
learnt step by step, like every other species of skilled work in
hive-life.  The young bee, setting out on her first flight, has all the
will to do well, and her imitative faculty is strongly developed; but she
seems to have very little else.  Her first experiences are a succession
of blunders.  She appears not to know for certain where to look for the
coveted sweets, and can be seen industriously searching the most unlikely
places—crevices in walls, tufts of grass, or the leaves of a plant
instead of its flowers.  The fact that the nectar is hidden deep down in
the cup of the flower, beyond its pollen-bearing mechanism, seems to dawn
upon her only after much thought and many fruitless essays.

It has been proved that bees will go as far as two or even three miles in
their foraging journeys.  The distance seems to vary according to the
nature of the country.  Bees in hilly districts appear to venture only
short distances from home, while in flat country the foraging flights are
more extended.  A bee-line has become proverbial for a straight course,
but it is doubtful whether the bee ever makes a perfectly direct flight
from point to point.  The truth seems to be that there are well-defined
air-paths out from and home to every bee-garden, and that these are
continually thronged with bees going and returning throughout the working
hours of the day.  These aërial thoroughfares lie high above all but the
tallest obstacles, so high indeed that the keenest sight will reveal
nothing.  Only the busy song of the travellers can be heard, like a river
of music, far overhead.

In the South Down country, where the isolated farms are each surrounded
with their compact acreage of blossoming sheep-feed, and there is nothing
but empty miles of close-cropped turf between, these bee-roads in the air
can be easily found and studied.  Walking over the springy, undulating
grass in the quiet of a summer’s morning, a faint, far-off note breaks
suddenly upon you like the twang of a harp-string high up in the blue.  A
step or two onward and you lose it; retracing your path, it peals out
again.  You can see nothing, strain your eyes as you will; but its cause
is evident, and with a little trying you can presently make out the main
direction of the flight, and see down in the hollow far below, the
huddled roofs of a farmstead with a patchwork of fields about it, white
with clover, or rose-red with sainfoin in fullest bloom.

Perhaps there is no honey in the world so fine as that to be obtained
from these solitary Downland settlements.  With the ordinary consumer
honey is merely honey, and there is an end of the matter.  But the beeman
knows that the quality of honey varies as greatly as that of wine.  He
will tell you at first taste the crop from which it is gathered, whether
it has one source or many, whether it is all flower-essence, or has been
contaminated by the hateful honeydew, which is not honey at all.  Down in
the lowlands, except at certain rare seasons when only one crop is in
flower, it is next to impossible to get honey absolutely from a single
source.  But here on the hills the bees are not tempted by glowing
gardens with their feeble, washy sweets; nor are they led aside by the
coarse-natured privet, or horse-chestnut, or sunflower.  There is only
one trencher to their banquet, but this is a vast, illimitable one.  They
have nothing to do but to wend out and home all day long between their
hives and a single field.

It is difficult to gauge with anything like approximate truth the amount
of honey that one flowering crop will yield.  But probably, when all
conditions are most favourable, every acre of Dutch clover will produce
about five pounds of pure honey for each day it is left standing in full
bloom.  The nectar is obviously secreted by the flower as an attraction
to the bee, who, blundering into it with her pollen-smothered body,
unconsciously effects its fertilisation.  Directly this object is gained,
the flow of nectar in each particular floret appears to cease, and the
bee passes it by.

The student of old books on apiculture is often surprised to read so much
in praise of honeydew, while in the modern bee-garden he hears of it
nothing but hearty condemnation.  He is told that directly the bees begin
to gather honeydew the store-racks must be removed from the hives, or the
good honey will be ruined both in colour and flavour.  He is shown some
dark, ill-looking, watery stuff carefully sealed up by the bees, and is
informed that it is nearly all honeydew.  But, he asks himself, can this
be the same thing about which the old masters were led into such ardent
eulogy?  The truth is that when ancient and mediæval writers spoke of
honeydew, they used the word as a general term for all that the bees
gathered.  Honey was all a dew, divinely rained down from the skies; and
it is entirely of a piece with the all but universal lack of
bee-knowledge down almost to the beginning of the nineteenth century,
that so few should have guessed that the flowers themselves had anything
to do with the matter.  Virgil and the rest of the classics held absolute
sway over all minds pretending to the least culture, and even the
naturalists seem to have studied the wild life around them with no other
object than to force facts into line with ancient poetic fantasies.  The
old writers explained the varying qualities of honey as being due to the
influence of whatever stars happened to be in the ascendant at the time
of its gathering, and the honey was good or bad according to whether this
was favourable or unfavourable.

The quality and consistency of honey varies extraordinarily as between
the different sources of true nectar; but there is no doubt that honeydew
well merits the evil name it has gained with modern bee-keepers.  There
are, perhaps, three hundred distinct kinds of aphides known to English
naturalists, and all these eject the sweet liquid which, under certain
conditions, bees are tempted to gather.  This honeydew varies in flavour
according to the species of tree from whose sap it is derived.  Probably
much of it is only a sweet, slightly mawkish liquor, which, in its pure
state, combines with the genuine honey without causing noticeable
deterioration, at least to the unexpert taste and eye.  But,
unfortunately for bee-keepers, the oak is a great favourite with these
parasites, no fewer than six varieties preying on this one tree alone.
And oak-honeydew is a pestilent thing indeed.

It is commonly supposed that the first cold nights, that mark the
beginning of the end of the honey season, stimulate the production of
honeydew; for it is after a chilly night that bees are usually seen at
work on the trees where the aphides abound.  A much more likely theory,
however, is that the cold does not accelerate the secretion of the
honeydew, but cuts off the more legitimate resources of the hive just
when they are in fullest activity; and so the huge armies of foragers are
momentarily thrown out of work, and must seek new outlets for their
energy.  The secretion of true nectar takes place mainly at night, and
requires a temperature of about 70°.  Anything much lower than this means
dearth on the morrow, no matter how fine and warm the weather may then
prove.

The dark colour of aphis-syrup—a very little of which will ruin for
market the finest honey—seems to be due as much to foreign matter as to
its natural evil character.  There is a peculiar growth on the bark of
many trees where aphides congregate, which is known as soot-fungus.  This
and the honeydew get mingled together in a cimmerian slime, and, no
doubt, the merest trace of it would serve to darken and spoil the purest
honey.  There seems to be no way for bee-keepers but to watch for the
first chilly nights, as the honey-season draws towards its close; and
then to be up early and get the surplus honey-chambers off the hives,
before the bees have had a chance to spoil them.  But the bee is no
desperately early riser, for all her lofty place in the moral-maxim
books.  She generally waits until the morning sun has drunk up the night
dews, and warmed the flower-calyces, before getting down to her work in
earnest.  The very early bees that may sometimes be seen winging out into
the first light of a summer’s morning, are probably only water-carriers.
The water-supply is the day’s first and last care with each hive in the
breeding season.  Every bee-garden seems to have its regular
watering-place, generally on the oozy margin of some neighbouring pond;
and here, in the early morning, and again towards late afternoon, the
bees may be seen drinking in whole battalions, while the meridian hours
of the day will find it all but deserted.  Curiously, these
water-fetching times coincide with the times when the nectar is least
get-atable, or when the supply is exhausted for the day; which is another
sidelight on honey-bee economics.

To follow the bees through their honey-harvesting season is to review
nearly the whole year’s natural growth and life.  In southern England the
earliest nectar is drawn from the willows, which come into flower with
late March, but hold back their sweets until the first spate of fine hot
weather comes flooding in the track of the chilly northern gales.  Of
willow-honey there may be much or little, according to the
night-temperatures.  Generally it goes by fits and starts.  For a day or
two here and there the trees may be crowded with bees, or they may be
deserted for weeks together.  Whenever the sun shines, indeed, the trees
that stand up like torches of gold in the misty purple of budding woods,
are always full of the singing multitude; but these are only the
pollen-gatherers.  The nectar-bearing willows are far less showy.  Their
catkins are small, tight-girt tassels of green, and when a warm night has
brought them into profit, they attract all the noisy minstrels for miles
round.  Bee-keepers generally seem to leave the willows out of their
calculations as a source of honey, but in riverside districts, and in
favourable seasons, they are not to be overlooked.  It sometimes happens
that April comes in with a succession of mild sunny days and warm nights,
and then the hives may suddenly overflow with willow-honey.  When the
yellow catkins fade out of sight, the willows are apt to fade out of
memory; and it does not seem to be commonly known that the female catkins
continue to secrete abundant nectar often up to the end of May.

         [Picture: In the store-house: sealing up the new honey]

Good honey-years are scarce under the changing English skies; yet
Nature’s design for the hive-people is obviously to give an unbroken
succession of honey-yielding plants throughout the whole spring and
summer, and pollen whenever a bright break of sunshine may lure them out
of doors.  The white-clover is seldom ready until the first week in June;
but, from the earliest willows in March until the last of the flowering
seed-crops is down in late July, there is abundance of provender, if only
the fickle sun will do its part in the matter.  The clover, as farming
goes nowadays, is the great main source of honey, in southern England at
least; but the connoisseurs are at variance as to what yields the
absolute perfection of honey.  Scotsmen are all of one mind, for a rare
chance, in this; and will hear of nothing but the heather, carefully
discriminating between the bell-heather, which is good, and the
ling-heather, which is immeasurably better.  Yet there is a honey, or
rather a honey-blend, which far outstrips them all, though it is as rare
and almost as priceless as the once famous Comet vintages.  It is to be
had only when the apple-blossom and the hawthorn come into full flower
together, and this is only when a chill April has delayed the one and a
summer-like May has forced on the other.  Then, to the mellow refinement
of the apple-nectar, is added the delicate almond flavour of the
hawthorn, and the resulting honey is easily the finest sweetmeat in the
world.

Wonder is often expressed that one of the most generally cultivated
crops, the red-clover, is seldom visited by the honey-bee, although the
bumblebees fill it with their deep trombone-music at all times of the
day.  It is true that the tongue of the hive-bee cannot reach to the
bottom of the long red-clover calyx, but this would not deter her if the
nectar were worth the gathering.  She would cut through the petal at its
base, as she does with many other flowers, and so steal an effective
march on her better caparisoned rival.  But red-clover nectar is poor in
consistency and coarse of flavour.  When the main crop is in flower, it
would yield a practically unlimited amount of honey, but this is just the
time when the bee can employ herself more profitably elsewhere.  After
the red-clover has been cut, a second growth springs up, bearing
flower-tubes less developed, and therefore shorter than those of the
first crop.  But now other and better sources of supply are rapidly
failing.  The bee—for whom, in prosperous times, nothing but the best is
good enough—must revise her tastes to meet her necessities.  At this time
she is as busy as the rest in the red-clover fields.  And when her
clearer, sweeter note is heard there, mingling its contralto with the
hoarser music of the bumblebee, it is a token that the heyday of the year
is past: the honey-chambers must be taken off the hives without delay.




CHAPTER XIV
THE DRONE AND HIS STORY


IT is true that all bee-keepers are enthusiasts, and true that long years
spent in the companionship of the hives invariably create a fearless
fellowship, a prime understanding between the bee-master and his legions.
But it is equally true that the longer you study the nature of the
honey-bee, the less enamoured you become of certain of her ways.

In the minds of old beemen there grows up, as the years glide, a sort of
awe of her.  She is so manifestly a power, supreme in her little world.
She is so courageous, resourceful, brainy.  All the weaknesses and
compromises, and most of the pleasures, have long ago been driven out of
her life, seemingly by her own act and will; yet, in doing this, she has
but refined the science of citizenship to its pure elements.  Her entire
unselfishness, her readiness to sacrifice her individual good for the
good of the State, are as unquestionable as they are changeless.  The
hive-polity, taken as a whole, is so admirable, and compares so
advantageously with certain human efforts in the same way, that you are
apt to exalt all her qualities into virtues; and to conclude that a
far-seeing, wise benevolence must have gone to the making of the perfect
Bee-State, instead of the cold, undeviating logic that alone has
fashioned it.

This remorseless smelting-down of life into the set moulds of principle,
without mercy and without reproach, has a cumulative effect on the mind
of the observer; and sooner or later, though he will early lose his fear
of her sting, he will develop a very real, but vague, awe of the
honey-bee in another way.

Just as Moses Rusden, the King’s bee-master, held up the life of the hive
as Nature’s evidence of the Divine will in earthly monarchy, so the
latter-day student is often constrained to ask himself whether the
bee-commonwealth does not point an authoritative moral in another way.
Here is a State—only a mimic one, but still not a negligible
example—where several of the most fiercely-debated questions of modern
human life are seen in long adopted and perfected working-order, and seen
in their fullness of result.  Any attempt at a serious comparison between
men and women, and the drone and worker-bee, would justly lay the writer
open to the charge of grotesque trifling; but there is more than a
fanciful analogy between the principles on which all civilisations must
be based, whether they are insect or human.  It cannot be denied that the
communal life of the honey-bee is a high civilisation; that it has grown
to be what it is to-day through ages of necessity; that the one sex has
the other under a complete and terrible subjection, for which, and for
the privilege of all power, the dominant sex has paid a terrible price.

The worker-bee to-day is an over-intellectual, neurotic, morbidly dutiful
creature, while the drone is admittedly nothing but a stupid, happy,
sensual lout.  If the extreme difference between the sexes in bee-life
had been aboriginal, the relations of drone and worker, as we see them in
the hives to-day, would be meet and reasonable enough; but there seems to
be clear evidence that, far back in the life of the race, the female bee
was not so hopelessly superior to her mate.  The queen-bee, in all
likelihood, fairly represents the mother-bee as she was before the
cooling crust of the earth made some sort of protected habitation
necessary, which led first to close clustering for mutual warmth, and
then gradually developed the complicated hive-life of to-day.  But
evolution will hardly account for all that we see: revolution must have
had its part in the production of the modern self-unsexed worker.  It has
been seen that there is no physiological reason why each worker in the
hive should not have grown into the fertile mother of thousands.  The
workers are not a stunted, specialised race, slowly evolved by time and
necessity, and procreating their own stunted kind; but each worker is
deliberately manufactured to a set pattern by the authorities in the
hive, obedient to the call of the State.  And when did the female bees
begin this tampering with the springs of life, this improving upon
Creation, which was the first vital step, failing which the present
bee-commonwealth had been impossible?  It looks very like a superb act of
generalship in the great primæval war of sex—a brilliant piece of
strategy that gave victory at a blow, and rendered the after-steps in the
scheme of conquest a matter of logical sequence.

The whole question of the artificial production of the worker-bee is
surrounded with difficulties; and it seems possible, on our present level
of knowledge, to do little more than state the facts, and there leave
them.  The supremacy of the females in hive-life appears to have dated
from the time that the vast majority deprived themselves, or were
deprived by their immediate ancestors, of their share in procreation, and
the ovipositor discovered itself as a weapon of offence and defence.
Before the worker-bees existed as an armed force, there is no reason to
suppose that the female bee had a great physical advantage over the
drone.  The queen-bee’s propensity to thrust her ovipositor into the
spiracles of her rival, and so effectually to despatch her, as well as
her inveterate hatred of her kind, may both be late developments, due to
the isolated, artificial life she now leads.  While the worker is ever
ready with her sting, the queen uses it so rarely that many old
experienced bee-keepers of the present time deny her altogether the power
of stinging.  A much more natural tendency with her is to bite; and when
it comes to the use of the sharp, strong, sidelong jaws, the drone has a
more redoubtable equipment than any, although he has apparently lost the
will and sense to use it.

Whatever the drone may have been in far-off ages, the worker-bees have
him now well under the iron heel of matriarchal expediency; and they see
to it that he shall be fit only for the one indispensable office,
although in that regard they exhaust every ingenuity to make him all that
his kind should be.  It is plain they would do without him altogether if
that were possible.  As it is, for nine months in the year there are no
drones at all, and then only a few hundreds are raised in each hive—the
bare minimum that will ensure the successful mating of the young queens
when the summer sunshine calls them to their wooing.  It might be
supposed that where there are comparatively so few queens to be
fertilised—only two or three at most from each hive, and these only once
in a lifetime—that even those drones which are now tolerated are in
excess of the number required.  But a cardinal principle in bee-life is
that the young queens shall choose their mates from another tribe, and so
ensure a continual influx of new blood to the colony.  This can only be
effected out-of-doors, and as far as possible from the parent hive.  The
strongest impulse, therefore, of the virgin-queen, when she goes off on
her mating-flight, is to get away quickly from her home surroundings.
She flies straight off at tremendous speed, and thus has every chance of
getting unperceived into new country, and so into the reconnoitring
ground of strange drones.

Another reason for her extended flight and its remarkable pace is that
only the strongest and swiftest drone of all the pursuing multitude is
likely to overtake her, and this again makes for the betterment of the
race.  Perhaps there is no parallel instance in nature where the
selection of the fittest individuals to continue a species is so
carefully provided for, and no doubt this accounts for the high place of
the honey-bee in the scale of created things.  But this scheme involves
enormous risk to the young queen.  A hundred dangers lurk on her path.
She is a tempting morsel for every bird that throngs the air of the June
morning.  Her untried wings may fail her.  Even if she gets back safely
to the bee-garden, she may enter the wrong hive, to her instant
destruction.  But she must take her chance of all risks; and the only
thing to do is to render her absence from home as brief as may be, and
her fertilisation as sure, by making the wandering drone-population large
enough to cover all probable ranges of flight.

From the very first the drone is nurtured in a different way from the
worker-bee.  The egg is laid in a wider and deeper cell; and during its
first three days of life the drone-larva is fed with bee-milk, probably
of a special kind and certainly of more generous quantity.  After the
third day this chyle-food is reduced, as is the case with the
worker-grub; but while the worker is then given only honey, it is certain
that the drone-larva receives both honey and pollen, and that for a full
day longer.  In all, it takes about twenty-four or twenty-five days to
produce the perfect drone-bee, as against an average twenty-one days for
the worker.  The queen-bee, as has been already seen, is developed in
much less time than either, little more than a fortnight elapsing between
the time the egg is laid and the time she is ready to gnaw her way out of
the cell.

After the drone is hatched, it will be another two weeks or so before he
makes his first venture in the open air.  All this time he has the free
run of the larder, and steadily gorges himself on honey when he is not
sleeping off the effects of his surfeit in some snug, out-of-the-way
corner of the hive.  But honey is not his only, or even his principal,
food.  Throughout his whole life he is constantly fed by the house-bees
with the rich chyle-food given to him as a larva, and it has been proved
that if this is withheld from him for the space of three days he will die
of starvation, even in the midst of abundant honey.  Thus the worker-bees
have him completely in their power.

The first flight of the drones is a stirring event in the bee-garden.
The common sound of the hives goes on practically the whole year through.
Every sunny midday, when the temperature mounts to 45° or 50°, will see
each hive the centre of a little galaxy of singers: it is only the volume
of the music that varies with the waxing or waning days.  But with the
coming of the drones the whole symphony of the bee-garden abruptly
changes.  They never move from their snug indoor quarters until the day
is wearing on towards noon, and then only in the brightest weather.
Blundering aggressively through the crowd of busy foragers, they rise
heavily on the wing, and soon the ordinary note of the garden is drowned
in the new uproar.  They seem to come almost simultaneously from all
hives at once.  For a minute or two the rich, hoarse melody holds the
air; and then, almost as suddenly, it dies away, as these roystering
ne’er-do-wells troop off over hill and dale, each to his favourite
hunting-ground.

There is great divergence of opinion as to the limits of flight of the
drone, but probably he goes farther and faster than any have yet
credited.  His magnificent stretch and strength of wing mark him for a
flier.  He is all brute force and lusty energy; and it would be strange
if, with but one thing to do in life—to gad about in search of amorous
adventure—he could not do it to a purpose.  If a hive of bees be removed
to a distance in the height of the season, some of both workers and
drones are sure to find their way back to the old spot.  This has
constantly taken place when hives have been carried no farther than two
miles.  But in one case, when the distance was more than twice as much,
no workers were seen round the old hive-station, yet a little company of
drones was winging aimlessly about the tenantless stool, and there can be
little doubt that these belonged to the removed colony.  It is not
suggested that they deliberately travelled all these miles.  The chances
are that, in their daily flight, they got so far away from the new
station that they came within the zone of old landmarks, and thus
naturally went on by the long-accustomed ways.

As a typical instance of a sluggard and idler, the drone-bee has enjoyed
a vogue in the preparatory-school books for ages past.  But, whatever his
primæval equipment for usefulness may have been, it is evident now that
he could not labour if he would.  Physically, in all points but that of
muscle, as well as mentally, he has become degraded to the inferior of
the worker-bee in every way.  He is destitute of all those special
contrivances with which she is so amply furnished.  He has no baskets for
pollen-carrying, nor any of the ingenious brushes and combs which she
uses to scrape the pollen from herself and others.  He has neither
wax-generating organs, nor leg-pincers to deal with wax.  His tongue is
too short for honey-getting.  His brain is much smaller than even that of
the feeble-minded queen.  The intricate gland-systems, which play so
important a role in the daily life of the worker, are either completely
atrophied in the drone or exist only in an elementary state.  While it
has been the communal will of the hive that the worker-bee should develop
an amazing proficiency of mind and body, the same forces have been
steadily at work to degrade the male-bee into a creature of dependence,
gradually training out of him all initiative and idea, except in the one
direction.  Just as in the case of the queen and the worker, drone and
worker-bee seem hardly to belong to the same race.

And yet, for all his frank incapabilities and lack of ideals, the drone
offers, in one respect, a refreshing contrast to his sour, stern,
duty-worshipping sister.  He is a life-long, incorrigible optimist.  He
fiddles gaily while the city burns.  All his misery and mourning would
not serve to quench a single spark of it; so he eats, drinks, and is
merry, with the intuition of all drones that Nemesis waits on the morrow
with something disagreeable.  It is impossible to study his ways for long
without recognising the spirit of rude jollity and horse-play that
thoroughly pervades all he does.  In and out of the hive he blusters,
cannoning roughly against all he meets, and raising his burly, bullying
song in the air as a sort of protest against all this anxious industry
going on about him.  Once gone from the neighbourhood of the hive, he
seems to keep incessantly on the wing until hunger prompts him home
again.  For no one has ever seen a drone-bee among the insects that haunt
the flowers, nor ever seen him basking on a sunlit wall or tree-trunk,
after the kind of almost every other winged atom in the universe.

He comes back to the hive with the same noisy, careless fanfaronade, and
is received by the workers with the same sullen indifference.  They give
him his fill of bee-milk, linking tongues with him as he sits up like an
overgrown baby, voracious, clamouring to be fed.  They suffer him to
swill at the honey-stores unchecked, but plainly regard him with
contumely.  He is a terrible expense to the State, yet a necessary one.
Silently they go about their uncongenial business of nourishing
him—silently, and with an ominous patience.  They grudge him every drop,
and, all the more, urge him to his excesses.  It is not for long.  The
day of reckoning is near at hand.  Already the poppies glow scarlet on
the hill—the poppies that mark the turning-point of the summer; and after
them the long decline, with its ever-diminishing sun-glow; each day with
a scantier meed of blossom, until the path runs again into the dreary
levels, the sober greys and russets, of winter death.

Now the worker-bee is to show a grizzly seam in her nature, matching ill
with the fine hues and qualities of mind for which she is so justly
famed.  And that she is not all lovable, all admirable, accounts for the
exceeding love of her that moves the hearts of men who know her through
and through.  The story of the massacre of the drones has hardly a
parallel for sheer relentless ferocity—unrecking abandonment to a
vengeance long withheld for expediency’s sake.  There come the first
chill nights of mid-July, and the honey-flow is suddenly at an end.  The
clover and sainfoin have already fallen to the sickle.  Nothing but the
bravest warmth and exuberance of the summer could now withstand the drain
of the myriad honey-makers, and a few hours’ cold dams up at once the
attenuated stream.  The time of prosperity is over.  There will be no
more abundance of honey.  It remains for the genius of hive-economy to
prove how much of what has been gathered can be preserved for future
needs.

The first sign of the _débâcle_ is the throwing out at the hive entrance
of certain pale, gruesome objects—the corpses of immature drones, not
dead from mischance, but ruthlessly torn from their cells.  This may go
on intermittently for many days, and while the fell work is proceeding
the living drones seem to take no warning.  They keep up their merry
round; the unending feast riots forward; daily the bee-garden is filled
with their careless, overweening song.  And then at last the signal for
the slaughter is given.  Within each hive a curious sobbing outcry
begins—a cry that is nothing but sheer terror put into sound.  The drones
no longer lie in easy ranks between the combs, placidly sleeping off one
debauch and dreaming of another.  They are all awake now, and fleeing
abjectly for their lives through the narrow ways of the bee-city, the
workers in hot pursuit.

The deep, vibrant, horror-laden note increases hour by hour.  As each
executioner overtakes her victim, she grips him by the base of the wing;
and, helped by others all alike infuriate at the work, she half drags,
half pushes him through the throng, until she has him in the light of
day, and tumbles with him to the ground; he for ever fighting and
struggling, and uttering that frenzied note of fear; she savagely gnawing
at the wing until it is disabled, and he can never more return to the
hive.  Many of the strongest drones escape from their persecutors for the
time being, and fly away unhurt.  But it is only for a few hours.  Hunger
is sure to bring them back to the hive, when the waiting guards fall upon
them, and maim or drive them off once more.  It is specially to be marked
that the bees never sting the drones at this great annual feast of
carnage.  There is that much method in the madness which has seized upon
them; for, in the rough-and-tumble of such a conflict, stings would be
plucked out by the roots, and thus valuable lives would go down with the
worthless.  The sole object seems to be to rid the hives as effectively
as possible of the presence of the drones; and the disablement of one
wing appears to be all that is necessary, and therefore all for which the
deft assassin strives.

With some bee-races the massacre of the drones is carried through in an
incredibly short space of time; with others the agony of the thing is
drawn out for days together.  The wretched sires of the hive are caught
between two evils, each as fatal as the other.  If they fly off to the
fields, starvation and the night-chills will swiftly bring about their
end.  If they return to the hive, a still speedier death awaits them.
Night and day, at this time, the guard-bees are doubled and re-doubled at
the city-gates; and there is little chance of the wiliest drone
outwitting them.  But he usually takes the home-hazard; and sooner or
later comes blundering in, receiving with open arms, as it were, his
share of the knife, as Huddlestone faced the Carbonari.

All this is the common way with the bee-republic, when the season goes as
it should; and the hive is in possession of a mother-bee—young, strong,
and of proved fecundity.  But there are times when the drones—for all
their great expense and drain on the wealth of the colony—are suffered to
live on until the late autumn, or even to remain unmolested throughout
the winter and following spring.  If the bee-master sees drones about a
hive, when other colonies have long ago made a good riddance of them, he
well knows what ails the stock.  Its queen is old and failing; and these
astute amazons have given reprieve to their male-kind until a new
mother-bee can be raised and properly mated.  It is a case of mercy to
the drones tempered with so much justice to themselves that the original
virtue is largely discounted.

And where the drones are carried through the winter, it is ever a sign
that the hive is not only without a queen, but never will contrive one,
of their own race.  Yet they know that, in the preservation of the
drones, they have at least one indispensable element for their salvation,
and—who shall gainsay it of the sovereign honey-bee?—perhaps they rely on
the bee-master to guess their plight, and furnish them with another
queen, in time to save his property from extinction.




CHAPTER XV
AFTER THE FEAST


AS the year grows in the bee-garden, so it goes, with all but
imperceptible tread and tread.  In southern England, after the seed-hay
is down, there is little more for the bees to do but prepare their hives
for the coming winter.  The queen is slowly weaned from her absorption in
egg-laying by a gradual change in food.  Day by day she receives less of
the mysterious bee-milk which was her urging and inspiration; day after
day she finds herself the more constrained to slake her hunger at the
open honey-cells with the common crowd.  Every day sees fewer
bee-children born to the hive, and every day sees more and more of the
old workers—worn out with a short six weeks or so of summer toil—pass
away in that inexplicable fashion, using, perchance, their last strength
of wing to hie them to the traditional graveyard of their kind.  What
becomes of them all, not the wisest among beemen knows; but it is certain
that, as they lived by communal principle, in the same faith they die;
and their last act may be the truly collective one—of removing their own
bodies out of the way of harm to the cherished State.

  [Picture: Queen bee in off season, showing that the workers pay her no
            special attention when she is not required to lay]

With the waning months, the population of the hive decreases visibly,
and, as their numbers fail, the temper of the bees suffers just as
evident a change.  Old bee-keepers know by sharp experience that early
autumn is a time when vigilance well repays itself.  For all life the
season of autumn has its peculiar tests and trials of character; and this
is especially true with regard to the honey-bee.  Each strain of bees has
its proclivities, good or bad, which are sure to come to the front at
this season.  And, more than any, bad qualities will show themselves, now
that the rush of the year’s work is over, and the common energy must take
its course through an ever shallowing and straitening way.

To find rank dishonesty in a creature of so small account in creation as
an insect, is rather startling to old-fashioned ideas; but it is
nevertheless beyond dispute that some stocks of bees are prone to develop
a tendency to housebreaking and robbery of their neighbour’s goods during
early autumn, and, in a lesser degree, when the first scanty supply of
nectar begins in early spring.

Virgil, and almost all the classic writers, give stirring accounts of the
frequent battles among bees in their day.  We are told of vast conflicts
taking place in mid-air, of the kings leading forth their hosts of
warriors—the din of carnage—the wounded and dying falling like rain out
of the blue of the summer sky.  These descriptions have always been a
great puzzle to modern students of bee-life, because nothing of the kind
seems to take place at the present day.  Each hive goes about its
business, apparently in complete disregard of the existence of other
hives.  Neither at home, nor abroad in the fields, are reprisals ever
witnessed among bees, whether singly or collectively.  The most peaceable
creature in the world is the honey-bee, except in the single case when
her home is being wantonly assailed.

But in autumn frequent encounters take place between robber-bees and the
hive they are attacking, and one is constrained to believe that it is of
this Virgil writes.

Perhaps when once a stock has discovered that stealing honey is a much
quicker and easier method of obtaining it than by the laborious process
of gathering, these particular bees will never again be won back to
honest courses.  Not only will the parent hive continue to break out in
this way at the close of every season, but all swarms from the same hive
are certain to develop the like tendencies.  The strain will be a
continual source of annoyance and loss to the bee-master, and, if he be
wise, he will take the shortest and surest way of putting an end to the
trouble, by promptly changing the queen, and thus in the end
exterminating the original stock.  Where this is in his own garden, there
will be no difficulty in the matter; but often the robbers are wild bees,
brigands inhabiting a hollow tree in some neighbouring wood, and making
sudden raids upon their law-abiding neighbours in adjacent villages,
after the manner of brigands all the world over.  The strangers have
often a peculiar appearance, which singles them out immediately from the
legitimate members of the gardens.  They are darker in colour and
shinier; and they have a bold, yet furtive, way of getting about, which
suggests at once the prowling marauder.

Wandering among the hives on a fine September morning, several of these
light-fingered, sinister folk may be seen hovering about the entrance to
a hive, or trying to creep in unobserved.  Their presence is promptly
detected, and a sudden hubbub arises as the guard-bees set upon the
intruders and drive them off.  There is no doubt of their intention.
They are spies from the robber camp, and their object is to discover
those hives which are weak in population, and so will fall the easier
prey to the depredators when in force.  Strong stocks have little to fear
from robbers; they can always hold their own against attack, and
therefore are seldom molested.

These scouts disappear for a time, and the hive settles down to its
wonted, busy tranquillity.  But soon a little blur of bees may be seen
coming over the hedge-top, and making straight for the selected hive.
There is no more crafty reconnoitring.  It is to be battle undisguised.
The robbers descend upon their prey, and at once a terrific uproar
begins, a desperate hand-to-hand fight between besiegers and besieged.
Left to themselves, the weak stock will have little chance from the
outset.  It is quickly overcome.  And then a curious thing often happens.
The bees of the home-colony which have survived the fight, join forces
with the victors, and themselves help to rifle and carry away to the
robbers’ lair the treasure which is their own by right.  Luckily, the
bee-master has an all but unfailing preventive of this vexatious trouble
ready to his hand.  He can safely leave all those hives which are
numerically strong of citizens to take care of themselves, and those
which are weak of population he can join together in twos or threes,
converting them also into strong, self-protective colonies.  The modern
movable-comb hive is a power in the hands of the capable beeman, for the
comb-frames from several hives can be placed together in one, and the
bees will unite quite peaceably at this season, if all are well dusted
with a flour-dredger, or treated with a scent-spray, so that in odour and
appearance they may be alike.  Probably every hive has its own distinct
odour, which is shared by all its denizens, and this is no doubt the
means by which the sentinel bees at the entrance recognise their own
comrades, while they promptly fall upon all interloping strangers.

The preparation of the hive for the winter is of a piece with all else
that the bee undertakes.  As the area of the brood-nest shrinks, the
empty cells are filled with honey, this being brought down from the
store-cells farthest away.  The foragers keep steadily at work whenever
the weather holds, gathering up the remnants of the feast and bringing
them home to swell the winter-larder.  Where there is much ivy, a fine
October will often see the hives as busy again as ever they were in the
bravest days of June; but the throng of bees is manifestly smaller.  The
rich song of life begins later in the day, and lasts only during the
brightest hours; and that wonderful night-sound, the deep underground
thunder of the fanning bees, is gone from the bee-garden, just as the
scent of the clover-nectar, brewing and steaming in the hives, no longer
drifts across in the darkness, filling the bee-master’s house with the
fragrance he loves more than all else in the world.

The old ragged-winged bees, that have stood the brunt of the season, are
now, too, nearly all gone.  The hives are filled with bees of the same
race, inspired by the same traditions; but they are at the beginning of
life, the raw recruits of destiny, a mere stop-gap crew.  They have no
memories of the time when work was a fever, a tumultuous race with the
sun, in which the swiftest must lag behind.  They have never known the
over-weighty cargoes, the bursting honey-sacs, and pollen-panniers so
laden that they could be scarce dragged into the hive, and they will
never know them.  These bees, born late in the season, have their lot
cast in the torpid backwaters of their little world.  Theirs is to be but
a dreary eking out of days, so that they may have strength enough to warm
the first spring broods into life.  The few hot days that burn in the
midst of the snows of each English March—immeasurably far off now, and
unattainable, seemingly—will be all they will ever see of the power of
sunshine.  Winter bees are born to the prison-house; and in it, and for
it, live and die.

At the most, a worker-bee sees but six months of life: at the least—and
this is the lot of many—she withstands the incessant wear and tear of her
hard calling for six, or possibly eight, weeks.  Thus, though the hive
may be always packed with citizens, the population is for ever changing.
Half a dozen times in the year, perhaps, and for a score of years, you
may go to your bee-garden, and each time move among tens of thousands to
whom you are an utter stranger, and whom you have never seen before.  And
yet, in all its customs, its propensities, its traditions, the life of
the bees is Continuity impersonified.  You may go round the world, and
spend ten years on the journey; and, coming back to the old leafy nook of
the country, find the old green hive still in its corner under the lilac,
still the centre of what seems the same crowd of winged merchant-women
sailing home under the same gay colours, singing the old glad songs,
building the old wondrous fabrics in the darkness, transmuting the same
fragrant essences into the same elixir of gold.  And what is this
mysterious thing called the Bee-Commonwealth, which is alone immortal,
while all that composes it, and pertains to it, and upholds it, passes
and dies?

You must not forget the queen-bee here.  She alone, it must be
remembered, persists year in and year out, while generation after
generation of her children grow up and die about her—a hundred thousand
of them, may-be, in each twelve-month, thousands even between one single
summer dawn and the dusk of the western sky.  Methuselah of old, on the
more moderate human scale, must have had some such experience—must have
divined the broader plan of life from the incessant repetitions of chance
and change that passed before him.  The power to generalise into symbols
comes only to the ancient of days; and he of all men had learnt to
fathom, to estimate, to winnow out the sober drab grain from the
glittering, rainbow chaff of life.  Over and over again he must have kept
the true true to itself with one wise word, and turned back the false,
dazzled and discomfited, with one flash from his mirror of the ages.  He
was a living history-book, where all men might read the common drift and
outcome of life; and as a record of the hive’s story, a living archive
for its plans, its systems, its ideals, the mother-bee may exist to
day—she who, in comparison with its ever coming and going thousands, is
an age-old, imperishable thing.

And so you may think of her, in the short days of December twilight, or
in the interminable night-darkness full of the raging of the winter wind,
gathering her children about her, and telling them tales of their
forbears’ prowess; teaching them old bee-songs which have but the one
refrain of work and winning; and never forgetting her own little story—of
the one brief hour of her love-flight and marriage, bought and paid for
by widowhood lasting her whole life.




CHAPTER XVI
THE MODERN BEE-FARM


IT is well enough to consider the scientific side of hive-life for its
intrinsic interest, to treat it for what it really is—one of the most
absorbing studies available for leisure hours.  But the honey-bee is
something more than a wonder-maker, or a peg on which to hang dilettante
moralisms.  Rightly treated and exactly understood, she can be made of
great use in the world.

There are two things in this England of ours which profoundly astonish
all who love bees, and have a true conception of their possibilities.
Travel where you may in the land, the last thing you are likely to meet
with is a bee-farm, or even a few hives in a cottage-garden; while every
yard of your way has its nook of blossom, and every mile its stretch of
flowery pasture, where, in sober truth, tons of honey are annually
running to waste.  All this could be garnered and sold to the people at
little trouble and great profit, if only enterprise would wake up from
its island-lethargy and stretch forth the hand.  But the years dribble
uselessly by, and nothing is done.  Here and there a wide-awake
husbandman gets a little township of hives together, sells in the
neighbourhood all the honey his bees make, and puts to his pocket a gold
and silver lining.  But this is only a drop in the ocean, and the British
people must send abroad for their honey, which they do to the pretty tune
of more than £30,000 a year.

Hitherto, reasoning backward from effect to cause, it would seem that
farming has been remunerative only when undertaken on a large scale; but
those who can read the signs of the times tell us that the age, just
dawning to the country-side, will be the age of the small man.  And this
must mean that the hereditary aristocracy among crops—wheat, oats,
barley—will slowly give place to little-culture: in a word, that the land
will be made to produce, not the things that tradition and our yeoman
family pride have ordained as the be-all and end-all of farming, but the
minor, humble necessities for which each town and village should look to
the good brown earth immediately about it, but at present looks in vain.
Farmers’ ladies may then no longer sit in their drawing-rooms and ride in
their carriages, but that will be a change for the simpler, more
proportionate.  Those who live in towns have little conception of it; but
the country-dweller knows well what complexity and luxury have got into
the old English farmhouses, for all the outcry about hard times; how the
farmer’s wife no longer goes to her dairy, nor makes any of the good old
farmhouse things that served to uphold country England in days gone by;
and how the master-agriculturists now are the sinews of the great London
Stores, while the little local shopkeepers are left to the field-labourer
with his twelve or fifteen shillings a week.

For the class of small-holders that must now multiply throughout the
length and breadth of the land, there is awaiting an enterprise—a source
of livelihood—as yet hardly tapped.  A stock subject of envy with most
artisans is the capitalist who leads an easy life while his factory hands
toil for him.  But if the small-holder will take up bee-keeping, he too
can look on, to a large extent, while his thousands of winged labourers
are filling his storehouse with some of the most useful and saleable
merchandise in the world.  It is a truism in commerce that a good supply
creates a demand just as certainly as that the universal want of a thing
stimulates its production.  One of the needs in England to-day is a full,
good, and cheap supply of honey; and when this is forthcoming there will
be little fear but that the present demand will increase hand over hand.

There are many reasons why the people should choose honey for their
principal food rather than the beet sugar which is now so largely
consumed.  In the first place, honey is a pure, natural, undoctored
sweet, while in the manufacture of ordinary sugar the use of more or less
noxious chemicals seems to be indispensable.  When a stock of bees must
be artificially fed, and common grocers’ sugar is used for the purpose,
the result is generally that half the stock is poisoned by the chemicals
with which the sugar has been treated at the mill.  And if this is its
effect on bees, the inference must be that it cannot prove altogether
wholesome for men.  But its purity is not the chief reason why honey
should be the universal sweet-food of the people.  Honey is the ordinary
sugar of nectar concentrated and converted into what is chemically known
as grape-sugar; and thus, in ripe honey, the first and most important
part of digestion is already effected before it leaves the comb.  This
explains why so many delicate people, and particularly children, can
assimilate food sweetened with honey, when they can take no other form of
sweet.

Doctors are continually finding some new virtue in honey.  Its gently
regulating action has been long known, and there is good authority for
stating that there is not an organ in the human body which does not
benefit from its habitual use.  In all wasting diseases, and triumphantly
in consumption, it will prevail as an up-builder when everything else
fails.  There is no doubt at all that cases of consumption have been
entirely cured by a liberal diet of honey; and, notoriously, honey is the
main ingredient in nearly all patent medicines for diseases of the chest
and throat.  Therapeutic hints from laymen are generally looked upon
askance by medical men—at least, by those of the old-fashioned type; yet,
on the chance that this page may come under the eye of some of the more
elastic-minded, the thing may be hazarded.  There are many who believe in
it, and with good reason, as a sovereign specific where the disease is a
wasting one.  It is nothing else than the once famous Athole Brose,
which, as all Scottish bee-keepers know, consist of equal parts of good
thick honey, preferably from ling-heather, and of cream, and of mature
Scotch whisky from the pot-still.  Little and often is the rule for its
administration, but, unlike most old wife’s remedies, faith has nothing
to do with its wonder-working.  Scepticism is a soil in which it seems to
flourish as well as any.

The man of business, resolved to take up bee-keeping as a livelihood,
must, at the outset, decide on what scale he will carry the matter
through.  There are two aspects of the thing, each more alluring than the
other, according to the temperament and point of view.  There is the
Simple Life and the bee-garden—a life spent in the green quiet of an
English village, within reach of a market town, where the produce of the
hives may be disposed of.  And there is the greater enterprise, the
foundation of a bee-farm on an extensive scale, and on the most approved
scientific principles, where the object is to supply the great central
markets at a distance rather than the immediate local needs.

In the establishment of a bee-farm the first care must be the choice of a
suitable district.  The nature of the surrounding country must largely
govern the systems on which the farm can be most profitably worked.  The
first maxim in successful beemanship is to get all hives filled to the
brim with worker-bees by the time the great honey-flow sets in.  This
time, however, varies according to the district.  In the orchard-country
we need bees early; in heather-districts we want them late.  In
south-west England, where the country is half fruit-ground and half
moorland, the hives must be huge in population both late and early.  But
where the bee-keeper follows the sheep-farmer—and there is no better
guide to honey than the sheep—his true policy is to work his colonies
slowly and steadily up to their greatest strength by the time the main
feed-crops come into blossom, which is seldom before the middle of May.
And all these considerations land us on the brink of a very vexed
question in modern bee-craft—whether bees should be artificially fed, and
if so, how and when?

If only the purest cane-sugar is used, and the syrup well boiled and
never burnt, there is nothing to say against the practice on the score of
harm to the stocks.  Where early bees are wanted, it is absolutely
necessary to give them a continuous supply of sugar-syrup from the first
moment that breeding commences in the hives.  Chemically, the sweet
constituent in nectar is almost identical with that from the sugar-cane;
and sugar-syrup has this advantage over honey given—that it more nearly
simulates the natural flow.  The bees responsible for the nursery-work in
the hive and the regulation of the queen’s fecundity, are young bees that
have never yet flown.  They can, therefore, only judge of the progress of
the season by the amount of nectar and pollen coming into the hive.
Where this is steadily increasing day by day—and it is this regular
natural progress in prosperity which the bee-keeper must strive to
imitate in artificial feeding—the nurse-bees gain confidence, and
brood-raising forges rapidly ahead.

But sugar-syrup and pea-flour are not natural foods for bees, and there
is little doubt that a prolonged course of such diet tends to lower the
tone and stamina of the race, and thus may prepare the way for disease.
The golden rule in the matter seems to be that artificial feeding should
be resorted to only where strength of stocks is necessary, to secure the
harvest, or where actual starvation threatens.  In purely
heather-districts, when the big population is quite early enough if it is
to hand in late June, nothing short of imminent starvation should induce
the bee-master to give artificial, and therefore unavoidably inferior,
food.  In sheep-country the same rule holds.  Except in the most
unfavourable years, a hive, headed by a young and vigorous queen, can be
relied upon to get itself into the finest fettle by the time the main
crops are ready for exploitation.  In this case the beeman has only to
make certain from time to time that no stock is in absolute want of the
ordinary means of subsistence.

But in those warm, favoured regions of the south-west, the lands of the
apple-blossom and the heather, where there is a very early and a very
late harvest to be gathered, a different system must be pursued.  Here we
touch on the second grand principle of successful bee-keeping—the
necessity for having in all hives only the most prolific mother-bees.
For profitable honey-getting a queen should seldom be kept beyond her
second year.  After that she is usually of little account, and should be
superseded, either by the bee-master or the bees.  But where a queen has
been over-stimulated by feeding to raise an immense population in the
spring of the year, she is rarely capable of another supreme effort in
the autumn.  The best policy, therefore, if the heather-harvest is an
important one, is to remove the old queens as soon as the spring work is
over, and to substitute for them queens that are in their best season,
but at the beginning of their resources instead of at the end.  In this
way another huge army of workers is soon born to the hive, and the double
harvest is secured.

                        [Picture: Hiving a swarm]

On the question of the best hive to use in commercial bee-keeping, on
either a large or small scale, it is hard to particularise.
Generalisation, however, is not difficult here.  Every bee-master has his
own ideas as to details, but all are happily agreed on the main
constructive principles.  Experience has fairly well decided that a good
queen, under the modern system of intensive culture, will require for her
brood a comb-surface of about 1,800 square inches.  A brood-nest of
smaller capacity than this is liable to cramp her operations at their
highest, and anything in excess of it will simply mean so much new honey
lost to the super-chambers, where alone the bee-master requires it.
Honey stored in the brood-nest, except during the off-season, is loss
instead of gain.  The best hive, therefore, will contain just as many
brood-combs in movable frames as will ensure the right capacity; and all
comb-frames throughout the bee-farm must be of the same size, so that
they will be strictly interchangeable among the various hives.  This is a
vital point in successful bee-culture, because it enables the master not
only to equalise the strength of his stocks by transferring combs of
hatching brood from one to the other; but he can also give to penurious
stocks frames of sealed honey from the abundance of their neighbours, and
he can unite the weak colonies, thus rendering all strong.

For the rest, the hives must be so made that heat will be perfectly
retained in the cold season, and as perfectly excluded during the
sultriest time of year.  Double walls round the brood-chamber are a
necessity in the changeable British climate, where chilly days are always
probable during ten months out of the twelve.

As well as honey-production, the bee-farmer will find an equal source of
profit in the production of wax.  Just as there is nothing like leather,
beeswax holds its own as a marketable commodity in spite of paraffin
substitutes.  But if it is almost universally degraded by adulteration,
the fault lies with the beemen, who have never seriously attempted to
meet the demand for it.  Wax-production on a large scale is perfectly
feasible, and there is little doubt that it could be developed into an
important British industry, as it used to be in mediæval days.  Yet these
are times of revolution: the honey-bee may yet find herself entirely
restored to her old national avocation—of bringing light to our darkness,
and to our bodies one of the best and purest of foods.




CHAPTER XVII
BEE-KEEPING AND THE SIMPLE LIFE


IT is a quality of English sunshine that it comes and goes capriciously,
so that no man may be sure of the comradeship of his shadow from day to
day.  But when there is sunshine in England, it always seems an abiding,
permanent force.  The grey of yesterday, and the patter-song of the rain
on the leaves, were only a dream.  You were sleeping under the changeless
blue of a summer night, and had but a vision of weeping, drab skies, gone
now with the joy that comes in the morning.  And to-morrow, when perhaps
the old wild scurry of storm-cloud is alive overhead, and all the house
resounds with the runnel-music from the pouring eaves, still it will be
only a dream.  Of a surety you will tell yourself so, as the sun breaks
through the griddle of cloud, and the wind relents, and the Dutchman can
get to his tailoring; and when you are stepping out amidst the swamp and
glitter and rehabilitation of life, as glad of it all as the finches and
butterflies that sweep on before you down the lane.  The sun shines: you
know it has always shone, changeless as Time itself.

With such a faith—unfounded and therefore uncontestable—I came under the
glow of one brave June morning, threading field after field of blossoming
clover until I stood at the gate of the bee-garden over against the hill.
With its name I had long been familiar, for in the county paper there was
always the little five-line advertisement, quaintly worded, announcing
honey for sale.  But I had never yet seen it, nor, indeed, ever set foot
in this part of the good Sussex land.  So, on this brimming June morning,
giving rein for once to the indolent Shank’s mare of moods that is fated
to carry me, I set out into the bright sloth, the joyous hastelessness,
of the day; and came at length to my destination—to the bee-garden that
nestles under the green Downland hills.

It was girt about with a tall hedge of hawthorn, smothered in snowlike
blossom, with just that rosy tinge upon it which is the first hectic of
decay.  Beyond the hedge I could see, stretching aloft, green
apple-boughs, whose full-blown posies were alive with the desperate
humming energy of countless bees.  There was a blue wisp of smoke
trailing idly away from a chimney-stack, all that could be seen of the
snug thatched cottage within; and there were voices, a leisurely
baritone, a sudden peal of laughter high-pitched and obviously a woman’s,
and now and then a bar or two of an old song sung in an intermittent,
absent-minded way.

In one of the pauses of this song, I raised the latch of the gate.  Its
sharp click drew to its full lean height a figure at the end of the
garden, which was bending down in the midst of a wilderness of hives.  As
the man came towards me coatless, his rolled-up shirt-sleeves baring wiry
brown arms to the hot June sun, I took in all the busy, quiet picture.
The red-tiled, winding path, the sea of old-fashioned garden-flowers on
every hand, billows of lilac and red-may and laburnum, shadowy blue deeps
of forget-me-not, scarlet tulips amidst them like lighthouses, and
drifting shallows of amber mignonette.  A decent house stood hard by, its
windows bright and clean as diamond-facets.  There was a gay flicker of
linen on a line beyond.  An old dog lolled in a straw-filled barrel.  A
cat kept company with a milk jug on the spotless doorstep.  And
everywhere there were beehives, each of a different harmonious shade of
colour, not ranged in stilted rows, but scattered here and there in twos
and threes in the orderless order beloved of bees and unsuburban men.

The bee-master had keen grey eyes, set deep in a sun-blackened, honest
face, and the ever-ready tongue of him was that of the beeman all the
world over.  He was ripe and willing to talk of his work, explaining what
he was, and what he had done, as we slowly wandered through his domain.
He was a Londoner—he told me—at least, that was his fate half a dozen
years ago—a City clerk, pale as the ledger-leaves that fluttered through
his fingers from nine to six of the working day.  And at home, in a
dreary desert of housetops called Nunhead—whither may an unkind fate
never lure me—his sisters sewed for a living, white-faced as himself.
But one day, in an old second-hand book-shop, he lit upon a threepenny
treasure—a book on the management of bees.  He read it as his train
crawled homeward on one stifling, freezing, fog-bound winter’s night; and
there and then, in the mean, dirty cattle-box of a third-class carriage,
in fancy the bee-garden was inaugurated, that has since developed into
all I saw around me on that brave morning in June.

It was a long time in the doing, he told me, as we sauntered among the
busy hives, speaking with a delightful Sussex intonation already veneered
upon his Cockney brogue—a long and weary and scraping time.  There was
money to be saved, the capital needed for the enterprise; and this was no
easy matter out of a total family income of forty shillings a week.  But
at last it was done, and well done.  There came a day when the three of
them shook the dust of Nunhead from their feet, and took over possession
of the little tumbledown cottage with its bare half-acre of neglected
ground.  Well, those were hard times to begin with—he said, with an
unaccountable relish in the recollection;—but now, look how all was
changed!  He waved a triumphant, proudly proprietary arm around him.  The
cottage was sound and well furnished throughout.  The three or four
bought hives, with which he had started his business, had multiplied into
sixty or seventy, all made by his own hands.  Where had he got the bees?
Well, that threepenny book had taught him a secret—the art of
bee-driving.  Nearly all the cottagers for miles round were in the habit
of sulphuring their bees to get at the honey.  The first autumn, and
every autumn since then, he had gone to his neighbours and told them he
would take the bees out of the hives for them, and leave them all the
combs and a good trink-geld into the bargain, if they would let him have
the bees for his trouble.  And they were more than willing.  And thus he
had gradually built up his little principality of hives.

But, the profit of the thing?  This, indeed, was nothing much to boast
of.  He sold all the honey and wax he got, sending it away, for the most
part, by post, and extending the circle of his custom by little and
little with every year.  Taking the bad years with the good, he had made
a net return of £2 for every hive; in bumper-seasons it was always much
more.  It was not a great deal, but there were only three of them, and
their wants were simple.  Their greatest needs—fresh air, peace, and
quiet, the healthful life of the country—these were to be had for nothing
at all.  And as for clothes—you never know, until you give over trying to
keep up appearances, how very little appearances count in the world.  At
any rate, for them, the whole thing was a complete success.  There were
men round about that country-side who farmed whole provinces, and still
grumbled; but here was he, getting peace and plenty from half an acre;
and as for the girls, they did nothing but laugh and sing all day long.

Thus we wandered and talked; and I—feigning ignorance of bee-matters,
lest he might think I was but carrying coals to Newcastle in clumsy
charity—bought honey, and asked many questions; and slowly the entire
meaning of what had been done by these emancipated slaves of City
clerkdom was revealed.  The bee-master pushed his old straw hat back over
his clever forehead, and lit the most comfortable pipe I had ever set
eyes on.  He had evidently thought the whole thing out long ago, and got
it down to its essential elements.

                        [Picture: A forest apiary]

“What we are doing here,” he said, “could be done by hundreds of others
who are still in London in what was once our old plight.  Large bee-farms
are all very well, but they are more or less a thing of the
future—something that is still to be evolved out of twentieth-century
needs.  But the bee-garden has its immediate use and place in every
district where there is an average population.  People generally have got
out of the habit of eating honey because it is so seldom on sale in the
shops; but if you steadily and continuously remind them of it, they will
buy, and soon grow to wonder how they did without it for so long.  But it
must be set before them in an attractive way.  Run-honey must be bright
and pure to look at, and neatly bottled and labelled.  If you sell honey
in the comb, the section-boxes must be spotlessly clean and white.  In
that old book that first led me to bee-keeping, it says that only the
English bee should be kept, because it is a better honey-gatherer.  But,
from the salesman’s point of view, there is a much more weighty reason
for abjuring all foreign strains of bees.  English bees leave a thin film
of air between the honey and the cell cappings, and the result is that
the comb always looks perfectly white.  But nearly all foreigners fill
their cells to the brim, and this means that the finest honeycomb will
have a dark and dirty appearance, and no one will be tempted to buy.
That is the sort of thing a business-man thinks of first, so the old
training days in London have not been altogether without their use even
here.”

The song, aloof and desultory, that I had heard from the garden-gate, was
growing clearer as we walked; and now we turned the house-corner, and
came upon more hives, with a neat, girlish figure busy among them; and,
hard by, a tiny laundry-shed, wherein I caught a glimpse of brown arms
deep in a wash-tub, and heard the last stanza of the vagulous song.

“Hetty, there,” explained the bee-master, “helps in the garden, and—
Helps, did I say?  Why, she is far and away a better hand at it than I.
There is so much in hive-work that needs the light touch which only a
woman can give.  And Deborah, she keeps house for us.  Did you know that
the word Deborah was Hebrew for a honey-bee?  But come and see where I
make the hives on winter days, and where we sling the honey, and fill the
super-crates with the sections, and all the rest of it.”

He showed me then his workshop and a little gauze-windowed shed where
there was a homemade honey-extractor—a cunning, centrifugal thing by
which the combs could be emptied and restored unbroken to the bees, to be
charged again and again.  And there was a storehouse, where long rows of
honey-jars, and stacks of sections, and blocks of pale yellow wax were
waiting for the purchaser, and a packing-shed where the postboxes of
corrugated cardboard were made up.  Finally there was pointed out to me,
in a far-off corner of the garden, a donkey—shaggy, well-fed, placidly
browsing—and, under a neighbouring pent-roof, a little cart that was a
curiosity in its way.  Its wooden tilt was made to represent a big
beehive, and on it was painted the name of the bee-garden and a list of
hive-products which it carried for sale.  The bee-master put an admiring
hand upon it.

“It was all Hetty’s idea,” he said.  “London girls for pluck, you know!
And she goes into the town with it once a fortnight in the season; takes
it away crammed full, mind, and never brings back an ounce!  Somehow or
other, I think those girls ought to change names!”

                                * * * * *

Journeying back to the railroad-station under the eternal English
sunshine and through the chain of blossoming fields, I listened to the
chant of the bees around me; and though it was the familiar sound of a
lifetime, there was something in it then which I had never heard before.
The rich note rose and fell; died down to silence as the path led through
impregnable red-clover; swelled again as the land paled to the rosy hue
of the sainfoin; burst out into a loud, glad symphony where a patch of
charlock blent its despised, uncoveted gold with the farmer’s drill.
“You thought you knew our ways of life from Alpha to Omega”—so seemed to
run, in fancy, the wavering refrain.  “You have pried upon us day and
night, in season and out of season.  You have chloroformed us, vivisected
us, torn our dead sisters limb from limb to feed the cruel, glittering
eyes of that binocular of yours.  You have come at last to think that
there was nothing about us, within or without or round about, that you
had not got to know.  And here a common City clerk, turned tail on his
hereditary duty, has shown you, in one short hour, a whole sheaf of
things about us which you—Peeping Tom that you are!—in a whole life’s
keyhole-prying have never guessed.  Out upon you!  You deserve to have to
do with nothing better than bumble-bees for the rest of your days!”

For the more I thought of little bee-gardens, such as the one I had just
visited, established here, there, and everywhere throughout the land, the
plainer it became that this, after all, was a mission for the honey-bee
that had quite escaped me; and the fonder of the idea I grew.  With
bee-keeping on a grand scale there was the difficulty that an apiary
might become too large for the resources of the country about it,
although it is all but certain that crops grown specially for bees can be
made to pay.  But a small garden could never exhaust the land within its
necessary three-mile radius, and all the nectar its bees could gather
would be obtained free.  Nunhead has done it gloriously, thought I,
tramping steadily onward through the clover.  And why not all the other
Nunheads that hem in the great cities?  There must be plenty who love the
dust and din, and are willing to stop there; so the little band of
bee-gardeners will never be missed.

And there was something else I thought of, too, as I strode along under
the English sunshine which lasts for ever, swinging my box of
superfluous, yet much-prized honey as I went.

The song and that pleasant ripple of laughter—they were in my ears still,
and mingling with the labour-song of the wayside bees.  Now, only a dozen
miles or so, away over the hill-tops in the blue Sussex weald, I knew of
just such another bee-garden, where two brothers—not Londoners this time,
but true-born Downland lads—had well established themselves, were getting
comfortably off, but were still single men.  And only a week ago they had
deplored this fact to me, and—  But avast!  Match-making was never yet to
be reckoned part of the Lore of the Honey-Bee.

                                * * * * *

                                 THE END




INDEX


A


Advice to Bee-masters, Butler, 35
After-swarms, 189
Athol Brose, 261
Ancient Roman Hives, 22
Anglo-Saxon Bee-keeping, 22
Antennæ of Bee, Functions of, 155
Ants and Bees, Analogy in Swarming, 178
Aristotle’s Bee-lore, 2
Artificial Food for Bees, 262



B


Barat-Anac, the Country of Tin, 19
Bee-bikes, 139
   breeding, 48
   burning, 48
   city: problems involved in construction, 202
   colony, Progress of, 97
   craft, Mediæval, 46
   culture in Ancient Britain, 21
   driving, 271
   farming, Success in, 262
   garden, Profits of, 271
   gardens, Scarcity of, in England, 257
   generation, 33
   hives in First Century, 4
   in Mythology, v
   keeping as a Livelihood, 261
      in Anglo-Saxon Times, 24
      Modern, 47
   larva, Spinning of Cocoon, 137
Bee life, Study of, 146
   the Old-Age Problem in, 134
   lines, 224
   masters, Mediæval, 29
   milk, its Nature and Uses, 123 166
   monarchy, 32
   scouts in Swarming, 186
   stings, 52
   superstitions, 40
   under Microscope, 148
Bees and Birds, 87
   and Holy Wafer, Story of, 37
   and Spiders, 41
   Cleansing-flights, 90
   English and Foreign, 220
   from Dead Lion, 46
   Generated in Flowers, 32
   in Ancient Egyptian Times, 6
   Knowledge of, among Ancients, 30
Bees’ Sense of Smell, 62
Breathing-system of Bee, 163
British Beer (?) in Third Century, B.C. 21
Brood-cells, Cappings of, 140
   Dimensions of, 108
   nest, Globular Form of, 31
Butler’s “Feminine Monarchie,” 33



C


Chapel built by Bees, 36
Classic Bee-fathers, 28
Comb built Upwards, 217
   cell, Reasons for Hexagonal Shape of, 135 206
Comb-construction, 99, 197, 204
   Evolution of, 135
   Mathematics of, 208
   Supposed Laws of Mutual Interference and Pressure in, 212
   Preservation of Verticality in, 215
Communal Mind in Hive, 69
Corsica’s Tribute of Wax to Romans, 16
Country Housewife’s Garden, 42



D


Dead Bees, Method of Bringing to Life, 46
Decline of Mead-drinking among Saxons, 26
Discipline in Hive, 14
Divine Origin of Bees, 6
Drone, 14, 41, 43, 74, 118
   and Worker-eggs, Theory of Laying, 122
   His Place in the Hive, 237
Drone-breeding Queen, 110
   cells, 213
   fly, 10
Drones in Winter, 246
   Mid-day Flight, 64
   Slaughter of, 244



E


Egg-stealing by Bees, 111
Emergency Comb, 201
English Black Bee, 76
Ethelwold’s Allowance of Mead to Monks, 24
Evolution in Hive-life, xviii, 79
Eyes of Bee, Compound and Simple, 154



F


Fanning-army, 59, 92
   Strength of Air-current, 62
Fertile Worker, Anomaly of, 144
First Bee-hunter, xi
Flight of Bee, Mechanism of, 157
Extent of, 224
   of the Drones, 240
Foot of Bee, Construction of, 151
Freemasonry of Bee-keeping, 195
“Further Discovery of Bees,” by Rusden, 1679, 31



G


Glandular System of Bee, 167
Guard-bees of Hive, 62



H


Hexagonal Principle in Hive, 134
Hive, Division of Labour in, 83
   life, System and Order in, 128
   Preparation for Winter, 253
Hiving Swarms, 182
Honey as Hair-restorer, 45
   a Manufactured Product, 222
   and Sugar: Comparative Values as Food, 259
“Honey-bearing Reed,” 23
Honey-bee, Origin of, 78
   bees, Varying Intelligence of, 143
   bee’s Year, Beginning of, 84
   comb, Construction of, 137
   crops, 226
   dew, 226
   flow, Duration of, 95, 221
   from the Skies, 5
   Imports, 258
   in Mediæval Cookery, 23
   In Middle Ages, 24
   Medicinal Properties of, 44, 260
   Preparation of, for Market, 273
Huber’s Leaf-hive, 30



I


Ideal Hive, The, 265
Infant Mortality in Bee-life, 63
Insects: Reasons for Bodily Construction, 158
Isle of Honey, 18, 22
Italian Bee, 77



J


Jaws of Bee, Construction of, 154



L


Larva-cocoons, Differences in 138
Larva, Hatching of, 72
Laying Queen’s Attendants, 107
Legs of Bee, 149
Life of the Hive, 54
   of the Queen, 119
Longevity of Bee, 15



M


Master-Bees, 42
Matriarchy in the Hive, xiii
Mead: Ancient Recipe, 26
   in Anglo-Saxon Times, 24, 25
   like Canary-sack, 27
   making, Modern, 26
Modern Bee-culture: Its Infuence on Bee-life, 190
   Hive, Capacity of, 95
Morat, 25
Moses Rusden, King’s Bee-Master, 31



N


Nectar: Temperature required for its Secretion, 228
Night in the Bee-Garden, 60
Nursery-work in the Hive, 71



O


Oil of Wax, 45
Old Bee-garden, 51
Overseers in Hive, 64
Oxen-born Bees, 7
Oxymel, 44



P


Parthenogenesis, 105, 122
Pigment, 25
Pliny and the Bee, 11
Pliny’s Mirror-stone Hive, 30
Poison-sac of Bee: Its Contents, 223
Pollen from Evening Primrose, 34
   gathering, 32, 55
   loads, Homogeneity of, 57
   Sources of, 56
Prehistoric Man and Honey-Bee, x
Propolis: Its Nature and Uses, 57, 204



Q


Queen and Worker: Differences in Bodily Structure, 101
   Eggs, Identity of, 100
Queen-bee, 34, 41, 68, 71, 86
   Apparent Rulership of, 96
   Battle-cry of, 166, 193
   Death of, 115
   Duration of Life, 255
   Fecundity of, 72
   Fertilisation of, 121
   Hatching of, 113
   Her Mating-flight, 72, 117
   in Swarming-time, 178
   Physiology of, 101
   Rearing of, 103
   Supersession of, 109
   the Original Female Bee, 98
   Workers’ Management of, 123
   cell, Construction of, 100, 110
   larva Feeding of, 113
      Rearing of, 99
Queenless Hives, 105, 144
Queens: Five in Single Hive, 96
   Mutual Antagonism, 114
   Plurality of, in Hive, 94



R


Reason and Instinct, 69
“Ringing the Bees,” Roman Origin of, 38
Robber-bees, 144, 250



S


Samson and the Lion, 11
Sanitation in the Hive, 88
Sexes, Proportion of, in Hive, 124
Sex-question in Hive, xvi
Sirius, the Honey-Star, 13
Skep, Ancient Method of Dressing, 37
Small-holder and Bee-keeping, 259
Socialism and Hive-life, 75, 130
Soot-fungus, 229
Sororicide in the Hive, 120
Sources of Honey, 230
Sting of Bee, Construction of, 170
Sugar-cane, First Introduction of, 23
Swarm-hiving, First Century, 5
   in Middle Ages, 37
Swarm in May, 174
   Legal Rights in, 40
   Site selected by, 185
Swarming, 38
   Impulse, 96, 175
   Objects of, 189
   Signs of, 182



T


Temper in Bees, 219
Temperature of Hive, 91, 161
Tongue of Bee, Construction of, 152



U


Undertakers in Hive, 63



V


Variation in Hive-rules, 94
Ventilation of Hive, 60, 91
Virgil as Bee-master, 2
Voice-apparatus of Bee, 163



W


Wax, 15, 198
   Ancient Sources of, 16
   Bees’ Method of Working, 201
   in the Bronze Age, xi
   Medicinal Properties of, 44
   making, Food Consumed during, 161
   production, a Profitable Industry, 266
Water, Need of, in Hive, 84
Winter-feeding, Method of, 86
   life in Hive, 86
Worker-bee, 81, 85, 233
   Age of, 85, 254
   Artificial Creation of, 130
   Birth of, 140
   Early Life in Hive, 141
   Glandular System of, 142
   Supremacy of, in Hive, 68
   Various Occupations of, 127
   larvæ, Feeding of, 131

                                * * * * *

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FOOTNOTE.


{218}  Dr. Herbert MacDonald Phillpotts, of Kingswear, Devon.