Mysteries of Bee-keeping Explained
Chapter 29
BEE PASTURAGE.
In some seasons the earth is covered with snow much later than others. When this occurs, a greater number of warm days are necessary to melt it, and start the flowers, than otherwise.
SUBSTITUTE FOR POLLEN.
During these warm days, while waiting for the flowers, the bees are anxious to do something. It is then interesting to watch them, and see what will be used as substitutes for pollen and honey. At such times, I have seen hundreds engaged on a heap of sawdust, gathering the minute particles into little pellets on their legs, seeming quite pleased with the acquisition. Rotten wood, when crumbled into powder, and dry, is also collected. Flour, when scattered near the hive, I have known to be taken up in considerable quantities. Some apiarians have fed it to their bees at this season, and consider it a great advantage; I have not tested it sufficient to give an opinion. A substitute for honey is sap from a few kinds of trees, yet it all amounts to but very little. All these unnatural sources are abandoned when the flowers appear.
MANNER OF PACKING IT.
The particular manner of obtaining pollen has been witnessed by but very few persons, as it is generally brushed from their bodies and packed on their legs, while on the wing, thereby preventing a fair chance to inspect operations. When collecting only pollen they alight on the flowers, passing rapidly over the stamens, detaching a portion of the dust, which lodges on most parts of them, to be brushed together and packed into pellets when again on the wing. Thus they keep alternately flying and alighting until a load is obtained, when they immediately return to the hive; each bee bringing several loads in a day. Honey, as it is collected, is deposited in the abdomen, and kept out of sight till stored in the hive.
ALDER YIELDS THE FIRST.
The first material gathered from flowers is pollen. Candle-alder (_Alnus Rubra_)[9] yields the first supply. The time of flowering varies from the 10th of March to the 20th of April. The amount afforded is also variable. Cold, freezing weather frequently destroys a great portion of these flowers after they are out. These staminate flowers are nearly perfected the season previous, and a few warm days in spring will bring them out, even before any leaves appear. When the weather continues fine, great quantities of farina are secured.
[9] The botanical names are from Wood's Class-Book.
The time that bees commence their labors does not govern the time of swarming by any means; this matter depends on the weather through April and May. These remarks apply particularly to this section, Green County, New York, in latitude about 42 degrees. In other places many different trees, shrubs, and herbs, may be found yielding honey and pollen that scarcely exist here, producing far different results.
Our swamps produce several varieties of willow, (salix,) that put out their blossoms very irregularly. Some of these bushes are a month earlier than others, and some of the buds on the same bush are a week or two later than the rest. These also afford only pollen, but are much more dependence than alder, as a turn of cold weather cannot at any time destroy more than a small part. Next comes the aspen, (_Populus Tremuloides_); of this we have more than is necessary for any purpose. It is not a particular favorite with the bees, as but few, comparatively, visit it. It is followed very soon by an abundance of the red maple (_Acer Rubrum_), that suits them better, but this, like the others, is often lost by freezing. The first honey obtained of any account is from the golden willow (_Salix Vitellina_); it yields no pollen, and is seldom injured by frost. Gooseberries, currants, cherries, pear and peach trees, add a share of both honey and pollen. Sugar maple (_Acer Saccharinum_) now throws out its ten thousand silken tassels, beautiful as gold. Strawberries modestly open their petals in invitation, but, like "obscure virtues," are often neglected for the more conspicuous Dandelion, and the showy appearance and flagrant blossoms of the apple-trees, which now open their stores, offering to their acceptance a real harvest.
FRUIT FLOWERS IMPORTANT IN GOOD WEATHER.
In good weather, sometimes a gain of twenty lbs. is added to their stores, during this period of apple-tree blossoms. But we are seldom fortunate enough to have good weather all through this period, it being rainy, cloudy, cool, or windy, which is very detrimental. Sometimes a frost at this time destroys all, and the gain of our bees is reversed, that is, they are lighter at the end than at the beginning of these flowers. Yet this is the season that decides their prosperity for the summer, whether they do _first rate_ or otherwise. If good weather now, we expect our first swarms about the first of June; if not, no subsequent yield of honey will make up for this deficiency. We now have a time of several days, from ten to fourteen, in which but few flowers exist. If our hives are poorly supplied when this scarcity occurs, it will so disarrange their plans for swarming, that no preparations are again made much before July, and sometimes not at all. In sections where the wild cherry (_Cerasus Seratina_) abounds, the flowers of this will appear and fill this time of scarcity, which this section annually presents.
RED RASPBERRY A FAVORITE.
The red raspberry (_Rubus Strigosus_) next presents the stamens as the most conspicuous part of the flower, soliciting the embrace of the bee, by pouring out bounteous libations more prized by our industrious insect than wine. For several weeks they are allowed to partake of this exquisite beverage; it is secreted at all hours and in all kinds of weather. When the morning is warm we often hear their cheerful humming among the leaves and flowers of this shrub, ere the sun appears above the horizon. The gentle shower, sufficient to induce man to seek a shelter, is often unheeded by the bee when luxuriating among these flowers; even white clover, important as it is in furnishing the greatest part of their stores, at this season, would be neglected if there was only a full supply of this. Clover begins to blossom with the raspberry, and continues longer. We have an insufficient supply (in this section) in most seasons. Red clover probably secretes as much honey as the white, but the tube of the corolla being longer, the bee appears to be unable to reach it. Yet I have seen a few at work even here but it appeared like slow business. Sorrel, (_Rumex Acetosella_) the pest of many farmers, is brought under contribution, and furnishes the precious dust in any quantity. Morning is the only part of the day appropriated to its collection.
CATNIP, MOTHER-WORT, AND HOARHOUND ARE SOUGHT AFTER.
Catnip, (_Nepeta Cataria_,) Mother-wort, (_Leonurus Cardiaca_,) and Hoarhound, (_Marrubium Vulgare_,) about the middle of June, put forth their flowers, rich in sweetness, and like the Raspberry, the bees visit them at all hours and in nearly all kinds of weather. They last from four to six weeks; the catnip I have known to last twelve in a few instances, yielding honey during the whole time. Ox-eye daisy, (_Leucanthemum Vulgare_,) that beautiful and splendid flower, in pasture and meadow, and worth but little in either, also contains some honey. The flower is compound, and each little floret contains particles so minute, that the task of obtaining a load is very tedious. It is only visited when the more copious honey-yielding flowers are scarce. Snap-dragon,(_Linaria Vulgaris_,) with its nauseous and sickening odor, troubling the farmer with its vile presence, is made to bestow the only good thing about it, except its beauty, upon our insect. The flower is large and tubular, and the bee to reach the honey must enter it; to see the bee almost disappear within the folds of the corolla, one would think that it was about being swallowed, when the hideous mouth was gaping to receive it; but unharmed, soon it emerges from the yellow prison, covered with dust; this is not brushed into pellets on its legs, like the pollen from some other flowers, but a part adheres to its back between the wings, which it is apparently unable to remove, as it remains there sometimes for months, making a cluster outside the hive, appear quite speckled. Bush honey-suckle (_Diervilla Trifida_) is another particular favorite.
SINGULAR FATALITY ATTENDANT ON SILKWEED.
Silkweed (_Asclepias Cornuti_) is also another honey-yielding perennial, but a singular fatality attends many bees while gathering it, that I never yet saw noticed. I had observed during the period this plant was in bloom, that a number of the bees belonging to swarms, before the hive was full, were unable to ascend the sides to the comb; there would be sometimes thirty or more at the bottom in the morning. On searching for the cause, I found from one to ten thin yellow scales, attached to their feet, triangular, or somewhat wedge shape, in size about the twentieth part of an inch. On the longest point or angle, was a black thread-like point, from a sixteenth to an eighth of an inch in length; on this stem was either hooks, barbs, or a glutinous matter, that firmly adhered to each foot or claw of the bee, rendering it useless as far as climbing the sides of the hive was concerned. I found also among bees clustered outside of full hives, this ornament attached, but to them it appeared no inconvenience. Among the scales of wax and waste matter that accumulates about the swarms to the amount of a handful, I found a great many of these scales, which the bees had worked from their feet. The question then arose, were these scales a foreign substance, accidentally entangled in their claws, or was it something formed there by nature, or _rather_ an unnatural appendage? It was soon decided. From the number of bees carrying it, I was satisfied that if it was the product of any flower, it belonged to a species somewhat abundant. I set about a close examination of all such as were then in bloom. I found the flowers of the Silkweed, (or Milkweed, as some call it,) sometimes holding a dead bee by the foot, secured by this appendage. Both sepals and petals of this flower are re-curved, that is, turned backward towards the stem, forming five acute angles, or notches, just the thing for a trap for a bee with _strings_ of _beads_ on its toes; when at work they are very liable to slip a foot into one of these notches; the flower being thick and firm, holds it fast; pulling only draws it deeper into the wedge-like cavity. The bee must either perish or break loose; their instincts fail them in this emergency; they know nothing about getting it out by a gentle pull the other way. I never saw one do it except by accident. By examining the buds of this plant just before opening, I found this fatal appendage, by which great numbers of our bees are lost.[10] When I point out a loss among our bees, I would like to give a remedy; but here I am at a loss, unless all these plants are destroyed, and this is impracticable in many places. After all I am not sure but honey enough is obtained by such bees as do escape, to counterbalance what we lose. This would depend on the amount of honey yielded by other flowers at the same time.
[10] In Wood's Class-book of Botany, "Order CII.," in a plate showing the parts of this plant, it is thus described: "Fig. 11, a pair of pollen masses suspended from the glands at an angle of the antheridium," &c.
One, when reading this simple botanical description, and seeing the plate, or the Botanist with his glasses, when he minutely inspects the parts, would not suspect anything fatal to bees about it.
Whitewood (_Liriodendron Tulipifera_) yields something eagerly sought for by the bees, but whether honey, or pollen, or both, I have never been able to ascertain. All the flowers of this kind, with us, are too high. It is very scarce, as well as Basswood, (_Tilia Americana_,)--that in some places is abundant, and yields honey clear and transparent as water, superior in appearance, but inferior in flavor to clover; it also appears much thinner when first collected.
LARGE YIELD FROM BASSWOOD.
During the time this tree is in bloom, a period of two or three weeks in many sections, astonishing quantities are obtained. A person once assured me that he had known "ten pounds collected by one swarm in a day, by weighing the hive in the morning and again at evening." I have some doubt of the statement, and think half the amount would be a good day's work; but I had but a small chance to know, as only a few trees, as a specimen, grow in this section. I have weighed hives during seasons of apple-tree blossoms and buckwheat, the two best yields of honey we have, and three and a half pounds was the best for one day that I ever had. Sumach, (_Rhus Glabra_,) in some sections, affords considerable honey. Mustard (_Sinapis Nigra_) is also a great favorite.
I have now mentioned most of the honey-producing trees and plants that come on before the middle of July. The course of these flowers is termed the first yield. In sections where there are no crops of buckwheat, it constitutes the only full one. Other flowers continue to bloom till cold weather. Where white clover is abundant and the fields are used for pasture, it will continue to throw out fresh flowers, sometimes, throughout the summer; yet the bees consume about all they collect in rearing their brood, &c. Thus it appears in some sections six or eight weeks is about all the time they have to provide for winter.
GARDEN FLOWERS UNIMPORTANT.
In passing along I have not mentioned garden flowers, because the amount obtained here is a small item, compared to the forest and fields--especially ornamental flowers. It is true that the Hollyhock, (_Altha Rosea_,) Mallows, (_Malva Rotundifolia_) and many others yield honey, but what does it amount to? A person expecting his hives to be filled from such a source would very likely be disappointed, especially when many are kept together.
HONEY-DEW.
Honey-dew is said to be a source from whence large collections are made in some places. When or where it appears or disappears is more than I can tell. I have seen the accounts of it, but accounts I have learned to doubt until I find something corroborative in my own experience. I find too many errors copied merely because they happen to be in company with several truths. Huber discovered many important truths, and has given them to the world; too many writers take it for granted when two points of his are true, the third _must be also_. It is no proof that there is no such article merely because I never discovered it. In the many fruitless endeavors that I have made to get a view of this substance, it may be I have lacked close observation; or possibly there is none showered upon this region; or I may have failed to bring my imagination to assist me to convert common dew into the real article.
SINGULAR SECRETION.
I once discovered bees collecting a secretion unconnected with flowers; but was not honey-dew, as it has been described. I was passing a bush of Witch-hazel, (_Hamamelis Virginiana_,) and was arrested by an unusual humming of bees. At first I supposed that a swarm was about me, yet it was late in the season, (it being about the 25th July.) On close inspection, I found the bush contained numerous warty excrescences, the size and shape of a hickory-nut. These proved to be only a shell--the inside lined with thousands of minute insects, a species of aphis. These appeared to be engaged sucking the juices, and discharging a clear, transparent fluid. Near the stem was an orifice about an eighth of an inch in diameter, out of which this liquid would gradually exude. So eager were the bees for this secretion, that several would crowd around one orifice at a time, each endeavoring to thrust the other away. This occurred several years ago, and I never have been able to find anything like it since; neither have I learned whether it is common in other sections.
SECRETIONS OF THE APHIS.
The liquid ejected by the aphis, (plant louse,) when feeding or sucking the juices of tender leaves, and received by the ants that are always in attendance, is something like it; but in this case the bees were in attendance instead of ants.
This mode of elaborating honey, although not generally collected by bees, perhaps may not be too much out of place here. Also, it may furnish a clue to the cause or substantiate some theory of honey-dew.
These insects (_Aphis_) have been very appropriately termed "ants' cows," as they are regarded by them with the most tender care and solicitude. In July or August, when the majority of the leaves of our apple trees are matured, there is often a few sprouts or suckers about the bottom or trunk, that continue growing and putting out fresh leaves. On the under side of these, you will find the _aphis_ by hundreds, of all sizes, from those just hatched to the perfect insect with wings. All appear to be engaged in sucking the bitter juice from the tender leaf and stalk. The ants are among them by scores. (They are often accused by the careless observer of the injury, instead of the _aphis_.) Occasionally there will issue from their abdomen a small, transparent globule, which the ant is ever ready to receive. When a load is obtained it descends to the nest; others may be seen going and returning continually. Many other kinds of trees, shrubs and plants are used by the ants as "cow pasture," and most kinds of ants are engaged in this dairy business.[11] Would the bees attend on the _aphis_ for this secretion, (for it appears to be honey,) if the ant was not there first? Or if there were no ants or bees, would this secretion be discharged, and falling on the leaves below them, be honey-dew? If they were situated on some lofty trees, and it lodged on the leaves of small bushes near the earth, it would, with some authors.
[11] The history of insects, as published by Harpers, gives more particulars on this interesting subject.
These questions I shall not answer, at present. As for theory, I shall probably have enough before I get through, where I hope the subject may be more interesting.[12]
[12] Since the foregoing was written, I have made some further observations on this subject. In August, 1852, I noticed, on passing under some willow trees, (_Salix Vitellina_,) that leaves, grass, and stones, were covered with a wet or shining substance. On looking among the branches, I found nearly all the smallest were covered with a species of large black _aphis_, apparently engaged in sucking the juices, and occasionally discharging a minute drop of a transparent liquid. I _guessed_ this might be the honey-dew. As this was early in the morning, I resolved to visit this place again, as soon as the sun got up far enough to start out the bees, and see if they collected any of it. On my return I found not only bees in hundreds, but ants, hornets, and wasps. Some were on the branches with the _aphis_, others on the leaves and larger branches. Some of them were even on the stones and grass under the trees, collecting it.
We will now return to the flowers, and see what few there are yet to appear, after the middle of July. The button-ball bush (_Cephalanthus Occidentalis_) is now much frequented for honey. Also, our vines, melons, cucumbers, squashes, and pumpkins. The latter are visited only in the morning, and honey is the only thing obtained; notwithstanding the bee is covered with farina, it is not kneaded into pellets on its legs. I have seen it stated that bees never get honey early in the morning, but pollen instead. Now it is not best always to take our word, who pretend to know all about it, but look for yourselves into some of these matters. Take a look some warm morning, when the pumpkins are in bloom, and see whether it is honey or pollen they are in quest of. Also please make an observation when they are at work on the red raspberry, motherwort, or catnip; you will thus ascertain a fact so easily, that you will wonder any one with the least pretension to apiarian science could be ignorant of it. I mention this, not because it is of much importance in itself, but to show the fallibility of us all, as we sometimes copy the mistaken assertions of others.
ADVANTAGES OF BUCKWHEAT.
Under some circumstances, clover will continue to bloom through this part of the season; also, a few other flowers; but I find by weighing, a loss from one to six pounds, between the 20th July and the 10th of August, when the flowers of buckwheat begin to yield honey, which generally proves a second harvest. In many places it is their main dependence for surplus honey. It is considered by many an inferior quality. The color, when separated from comb, resembles molasses of medium shade. The taste is more pungent than clover honey; it is particularly prized on that account by some, and disliked by others for the same reason. In the same temperature it is a little thicker than other honey, and is sooner candied.
AMOUNT OF HONEY COLLECTED FROM IT.
Swarms issuing as late as the 15th July, when they commence on buckwheat, sometimes contain not over five pounds of stores, and yet make good stocks for winter, whereas, without this yield, they might not live through October. It fails about once in ten years. I have known a swarm to gain in one week sixteen pounds, and construct comb to store it at the same time. At another time I had a swarm issue the 18th August, that obtained thirty pounds in about eighteen days. But such buckwheat swarms, in ordinary seasons, seldom get over fifteen pounds. The flowers last from three to five weeks. The time of sowing the grain varies in different sections, from the 10th of June to the 20th July. Farmers wish to give it just time to ripen before frost, as the yield of grain is considered better, but as the time of frost is a matter of guess-work, some will sow several days earlier than others. Whenever an abundant crop of this grain is realized, a proportionate quantity of honey is obtained.
DO BEES INJURE THE CROP?
Many people contend that bees are an injury to this crop, by taking away the substance that would be formed into grain. The best reasons for this opinion that I have obtained are these: "I believe it, and have thought so a long time." "It is reasonable if a portion of this plant is taken away by the bees, there must be a less quantity of material left for the formation of seed, &c." Most of us have learned that a person's opinion is not the strongest kind of proof, unless he can exhibit substantial reasons for it. Are the above reasons satisfactory? How are the facts? The flowers expand, and a set of vessels pour into the cup or nectary a minute portion of honey. I am not aware that any one contends that the plant has another set of vessels prepared to again absorb this honey and convert it into grain. But strong testimony proves very plainly that it never again enters the stalk or flower, but evaporates like water. We all know that animal matter when putrid will be dissolved into particles small enough to float in the atmosphere, too minute for the naked eye. When passing off in this way this real flesh and blood would escape notice perhaps altogether, and never be detected, were it not for the olfactories, which on some occasions notify us of its presence very forcibly. In passing a field of buckwheat in bloom, by the same means we are assured of the presence of honey in the air. Now what is the difference whether this honey passes off in the air, or is collected by the bees? If any difference, the advantage appears to be in favor of the bees getting it, for the reason that it thus answers another important end in the economy of nature, consistent with her provisions in ten thousand different ways of adapting means to ends. Most breeders of domestic animals are aware of the deteriorating qualities induced by in-and-in breeding; a change of breed is found necessary for perfection, &c.
ARE NOT BEES AN ADVANTAGE TO VEGETATION?
Vegetable physiology seems to indicate a similar necessity in that department. The stamens and pistils of flowers answer the different organs of the two sexes in animals. The pistil is connected with the ovaries, the stamens furnish the pollen that must come in contact with the pistil; in other words, it _must be impregnated_ by this dust from the stamens, or no fruit will be produced. Now if it be necessary to change the breed, or essential that the pollen produced by the stamens of one flower shall fertilize the pistil of another, to prevent barrenness, what should we contrive better than the arrangement already made by Him who knew the necessity and planned it accordingly? And it works so admirably, that we can hardly avoid the conclusion _that bees were intended for this important purpose_! It is thus planned! Their wants and their food shall consist of honey and pollen; each flower secretes but little, just enough to attract the bee; nothing like a full load is obtained from one; were it thus, the end in view would not be answered; but a hundred or more flowers are often visited in one excursion; the pollen obtained from the first may fertilize many, previous to the bees' returning to the hive; thus a field of buckwheat may be kept in health and vigor in its future productions. A field of wheat produces long slender stalks that yield to the influence of the breeze, and one ear is made to bestow its pollen on a neighboring ear several feet distant, thereby effecting just what bees do for buckwheat. Corn, from its manner of growth, the upright stalk bearing the stamens some feet above the pistils, on the ears below, seems to need no agency of bees; the superabundant pollen from the tassel is wafted by the winds rods from the producing stalk, and there does its office of fertilizing a distant ear, as is proved by different varieties mixing at some distance. But how is it with our vines trailing on the earth, a part of these flowers producing stamens, the other only pistils? Now it _is absolutely essential_ that pollen from the staminate flowers shall be introduced into the pistillate to produce fruit; because if a failure occurs in this matter the germ will wither and die. Here we have the agent ready for our purpose; these flowers are visited by the bee promiscuously; no pollen (as was said) is kneaded into pellets, (particularly that from pumpkins,) but it adheres to every part of their body, rendering it next to impossible for a bee thus covered with dust to enter the pistillated flower without fulfilling the important duty designed, and leave a portion of the fertilizing dust in its proper place. Hence it is reasonably inferred by many, that if it was not for this agent among our vines, the uncertainty of a crop from non-fertilization would render the cultivation of them a useless task.
When the aphis is located on the stalk or leaf of a plant it is furnished with means to pierce the surface and extract the juices essential to the formation of the plant, thereby preventing vigorous growth and a full development. This idea is too apt to be associated with the bee when she visits the flower, as if she was armed with a spear, to pierce bark or stem and rob it of its nourishment. Her real structure is lost sight of, or perhaps never known; her slender brush-like tongue folded closely under her neck, and seldom seen except when in use, is not fitted to pierce the most delicate substance; all that it can be used for is to sweep or lick up the nectar as it exudes from the pores of the flower, secreted, it would seem, for no other purpose but to attract her--while there she obtains nothing but what nature has provided for her and given her the means of obtaining, and the most delicate petal receives no injury.
During an excursion the bee seldom visits more than a single species of flower; were it otherwise, and all kinds of flowers were visited promiscuously, by fertilizing one species with the pollen from another, the vegetable kingdom would be very likely to get into confusion. Writers, when noticing the peculiarity of instinct governing the bee here, cannot be content always, but must add other marvels. They follow this trait into the hive, and make her store every kind by itself there. Relative to honey it is not an easy matter to be positive; but pollen is of a variety of colors, generally yellow, yet sometimes pale-green, and reddish or dark-brown. Now I think a little patient inspection would have satisfied any one that two kinds _are_ sometimes packed in one cell, and prevented the assertion to the contrary. I will admit that two colors are seldom found packed together, but sometimes will be. I have thus found it, and it has entirely ruined that theory for me.
A TEST FOR THE PRESENCE OF QUEEN DOUBTED.
It is further asserted that if a hive loses its queen "no pollen is collected." Also, "that such quantities are sometimes collected, and fill so many cells, that too little room is left for brood, and the stock rapidly dwindles away in consequence." The first of these assertions has been given as a test to decide whether the hive contains a queen or not. Now my bees have such a habit of doing things wrong that the above is no test whatever. It is made to appear very well in theory, but wants the truth in practice. I will say what I have known on this point, and perhaps clear up the difficulty of a stock containing an unusual quantity of bee-bread with the honey, and instead of being the cause of its having but few bees, it is the effect. Stocks and sometimes swarms lose their queen in the swarming season, (the particulars will be given in another place,) when, instead of remaining idle, the usual quantity of both _pollen and honey is collected_ (unless the family is very small). There being no larvæ to consume the bread, the consequence is, more than half the breeding cells will contain it; they will be packed about two-thirds full, and finished out with honey. I have known a large family left under such circumstances, and about all the cells in the hive would be occupied. Whereas, in a stock containing a queen and rearing brood, _a portion of the combs will be used for this purpose until the flowers fail_, and then such comb will be found empty.
AN EXTRA QUANTITY OF POLLEN NOT ALWAYS DETRIMENTAL.
To test whether this extra quantity of bee-bread was so _very_ detrimental, I have introduced into such hive in the fall a family with a queen and wintered them in it, and watched their prosperity another year, and never found them less profitable on that account. I am so well satisfied of this, that whenever I now have a hive in such a situation, it is a rule to introduce a swarm.
It is calculated, I believe, generally, that when medium-sized hives are full, about seven-eighths of the cells are made the proper diameter for raising the workers, the remainder for drones, except a few for queens. Here is one circumstance I do not remember to have seen mentioned, and that is, bee-bread is generally packed exclusively in the worker cells. I would say always; but I would do better to be careful, especially as I find my bees doing things so differently from some others. I might as well remark here, that when taking combs from a hive filled with honey, if such pieces were selected as contained only the large or drone cells, but little risk of bee-bread would occur; of the other combs, the outside sheets and the corners of the others near the top are the next best. The sheets of comb used principally for raising workers, and the cells next those so used, for an inch or two in width, are nearly all packed with pollen, and much of it will remain, when the breeding season is past. Smaller portions are found in the worker cells in nearly all parts of the hive; even the boxes will sometimes contain a little.
MANNER OF PACKING STORES.
In a glass hive, the bees may be seen depositing their load of pollen; the legs holding the pellets are thrust into the cell, (not their heads), and a motion like rubbing them together is made for a half minute, when they are withdrawn, and the two little loaves of bread may be seen at the bottom. This bee appears to take no farther care about them, but another will soon come along, and enter the cell head first, and pack it close; this cell is filled about two-thirds of its length in this way, and when sealed over a little honey is used to fill it out.
PHILOSOPHY IN FILLING A CELL WITH HONEY.
To witness the operation of depositing honey, a glass hive or box is requisite; the edges of the combs will be attached to the glass--when honey is abundant, most of these cells next the glass will contain some. Now is the time to see the operation, glass forming one side of such as are in contact, &c. The bee may be seen to enter the cell till it reaches the bottom; with its tongue, the first particle is deposited, and brushed into the corners or angles, carefully excluding all the air from behind it--as it is filled, that next the sides of the cell is kept in advance of the centre. The bee does not put its tongue in the centre and pour out its load there, but carefully brushes the sides as it fills, excluding every particle of air, and keeps the surface concave instead of convex. This is just as a philosopher would say it should be. If it was filled at once and no care taken to attach it to the sides, why, the external air would never keep it there, which it does effectually when of ordinary length. When the cell is about one-fourth of an inch deep they often commence filling it, and as it is lengthened they add to it, keeping it within an eighth of an inch of the end; it is never quite full till nearly sealed over, and often not then. In cells of the worker size, the sealing seldom touches the honey. But in the size for drones the case is different; the honey on the end touches the sealing, about half the diameter on the lower side; it is kept in the same shape while being filled; but being somewhat larger, the atmospheric pressure is less effectual in keeping the honey in its place; consequently, when they commence sealing these cells they begin on the lower side and finish at the top.
LONG CELLS SOMETIMES TURNED UPWARD.
When storing honey in boxes, cells of this size are usually much longer, in which case they are crooked, the ends turning upward, sometimes half an inch or more; this, of course, will prevent the honey from running, but if the box is taken off and turned over before such cells are sealed, they are very sure to spill most of their contents. The cells in the breeding apartment, of ordinary length, will hold the honey well enough as long as horizontal; but turn the hive on its side, and bring the open end downward, in hot weather, or break out a piece and hold it in that position, the air will not sustain it in them, but will, in the size suitable for workers.
When the hive is fully supplied with bees and honey, (unless destitute of a queen,) I never examined one, winter or summer, but it had a number of unsealed cells containing honey, as well as pollen; it is so when they have stored fifty pounds in boxes, even when so crowded for room as to store honey outside or under the bottom-board; ever having some cells open for a ready supply.
Young swarms seem unwilling to construct combs faster than needed for use; it would appear, at first thought, to be a lack of economy. When no honey is to be obtained and nothing to do, then it would seem to be a fine chance for getting ready for a yield; but this is not _their_ way of doing business; whether they cannot spare the honey already collected to elaborate the wax, or whether they find it more difficult to keep the worms from a large quantity of comb, I shall not decide. Of this I am satisfied, that it is better arranged by their instincts, than we could do it. Large swarms, when first located, if honey is abundant, will extend their combs from top to bottom in a little more than two weeks; but such hive is not yet full; some sheets of comb may contain honey throughout their whole length, and not a cell be sealed over; but, however, they generally find time to finish up within a few inches of the lower end as they proceed. Whenever unfinished cells contain honey, it will generally be removed soon after the flowers fail, and used before that which is sealed; and the cells will remain empty till another year.
IS A DRY OR WET SEASON BEST FOR HONEY?
The inquiry is often made, "What kind of season is best for bees, wet or dry?" This point I have watched very closely, and have found that a medium between the two extremes produces most honey. When farmers begin to express fears of a drought, then is the time (if in the season of flowers) that most honey is obtained; but if dry weather passes these limits, the quantity is greatly diminished. Of the two extremes, perhaps very wet is the worst.
HOW MANY STOCKS SHOULD BE KEPT.
"What number of stocks can there be kept in one place?" is another question often asked. This is like Mr. A. asking farmer B. how many cattle could be pastured in a lot of ten acres. Farmer B. would first wish to know how much pasture said lot would produce, before he could begin to answer; since one lot of that size might produce ten times as much as the other. So with bees, one apiary of two hundred stocks might find honey in abundance for all, and another of forty might almost starve. Like the cattle, it depends on pasture.
THREE PRINCIPAL SOURCES OF HONEY.
There are three principal sources of honey, viz.:--clover, basswood, and buckwheat. But clover is the only universal dependance; as that is almost everywhere, to some extent, in the country. Buckwheat in some places is the main source; in others, basswood, which is of brief duration. Where all three are abundant, there is the true El Dorado of the apiarian! With plenty of clover and buckwheat, it is nearly as well. Even with clover alone, enormous quantities of honey are obtained. I have said what was our dependence in this section. I will further say that within a circle of three or four miles, there are kept about three hundred stocks. I have had for several years, three apiaries about two miles apart, averaging in spring a little more than fifty in each. When a good season for clover occurs, as many more would probably do equally well, but in some other seasons I have had too many; on an average nearly right. When clover furnishes too little honey for the number, buckwheat usually supplies more than is collected. Of surplus honey, the proportion is about fifteen pounds of buckwheat to one of clover. I have now been speaking of large apiaries. There can hardly be a section of country found, that man can procure his living, but what a few stocks would thrive, even if there were no dependence on the sources just mentioned. There will be some honey-yielding flowers in nearly all places. The evil of over-stocking is of short duration, and will work its own cure speedily. Some judgment is required here as well as in other matters.
Another question of some interest, is the distance that a bee will travel in search of honey in flowers--it is evident that it will be farther than they will go to plunder a stock. I have heard of their being found seven miles from home. It was said they ascertained, by sprinkling flour on them as they left the hive in the morning, and then saw the same bees that distance away. When we consider the chances of finding a bee even one mile from the hive thus marked, it appears like a "poor look;" and then pollen the color of flour might deceive us. It is difficult to prove that bees go even two miles. Let us say we guess at it, for the present.