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 nottheirway 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.
CHAPTER V.
WAX.
The careless, unreflecting observer, when seeing the bees enter the hive with a pellet of pollen on each of their posterior legs, is very apt to conclude that it must be material for comb, as it appears unlike honey. So little regard is paid to the matter by many people, that they are unable to imagine any other use for it. Others suppose that it will change from that to honey, after being stored a time in the hive, and wonder at the curious phenomenon; but when asked how long a time must elapse before it takes place, they cannot tell exactly, but they "have found cells where it began to change, as a portion near the outer end of the cell had become honey, and no doubt the remainder would in time." It has been remarked that cells were only filled about two-thirds full of this, and finished with honey; now when any one finds a cell filled to the brim with pollen, and no honey, such reasoning will apply better. If this was the case, by examining at different periods through the summer, we certainly should find some cells before the change had commenced, instead of their always being in just this stage of transition.
IS POLLEN CONVERTED INTO WAX?
As for pollen being converted into wax or comb, a simple question will show its fallacy. Do not the bees belonging to a hive that is full of combs, and no more wax for that purpose needed, bring home as much and often more pollen than one half full? Any person who has watched two such hives five minutes when busily engaged at work, can answer. It is evident, then, that pollen is for something else besides wax.
HOW IS IT OBTAINED?
The inquiry is now made, "Where do they get it from, if not from pollen?" I might with propriety answer, they don't get it at all. "Stop, there, if you please; if you expect us to credit you, you must not give us too much absurdity." Well, let me ask a question. Do cattle when grazing actually obtain flesh, bone, &c., or only the materials from which these parts are secreted? As to the production of wax, I believe all close observers (that I have found) agree that it is a secretion natural only to the bee. With the ox, fruit, grain, or grass may be converted into tallow; with the bee, honey and syrup made of sugar may be converted into wax. These are probably the only two substances yet discovered from which they extract it. Some writers have pretended that pollen is also used, but they have failed to prove that the old bees consume it at any time; which they must in this case if it is converted into wax. From experiments related by Huber, either of these substances, mixed with a little water, is all sufficient for its production. From experiments of my own, I am satisfied that he is correct. The experiment is tried by shutting up a swarm when first hived; feeding them with honey—a few of the bees will probably have some pollen, though not enough to make a comb three inches square, yet it is something—and to be certain, time must be given them to exhaust it. In three or four days take out the bees and remove the combs; inclose them again, and feed with honey as before. Repeat the process, until satisfied that no pollen is needed in the composition of wax. Huber removed the combs "five times," with the same result at every trial. Whenever bees areconfinedin hot weather,air and water are absolutely necessary.
We will now describe the first appearance of wax, and how it is produced. When a swarm of bees is about leaving the parent stock, three-fourths or more of them will fill their sacks with honey. When located in their new home, of course no cells exist to hold it; it must remain in the stomach or sack for several hours. The consequence is, that thin white scales of wax the sixteenth of an inch in diameter, somewhat circular, are formed between the rings of the abdomen, under side. With the claws of one of their hind legs one of these is detached and conveyed to the mouth, and there pinched with their forceps or teeth, until one edge is worked somewhat rough; it is then applied to the comb being constructed, or to the roof of the hive. The first rudiments of comb are often applied within the first half hour after the swarm is hived. In the history of insects before noticed, is a minute account of the first foundation of combs, somewhat amusing, if not instructive.
HUBER'S ACCOUNT OF A COMMENCEMENT OF COMB.
Huber, it is said, "having provided a hive with honey and water, it was resorted to in crowds by bees, who, having satisfied their appetite, returned to the hive. They formed festoons, remained motionless for twenty-four hours, and after a time scales of wax appeared. An adequate supply of wax for the construction of a comb having been elaborated, one of them disengaged itself from the centre of the group, and clearing a space about an inch in diameter, at the top of the hive, applied the pincers of one of its legs to its side, detached a scale of wax, and immediately began to mince it with the tongue. During the operation, this organ was made to assume every variety of shape; sometimes it appeared like a trowel, then flattened like a spatula, and at other times like a pencil, ending in a point. The scale, moistened with a frothy liquid, became glutinous, and was drawn out like a riband. This bee then attached all the wax it could concoct to the vault of the hive, and went its way. A second now succeeded, and did the like; a third followed, but owing to some blunder did not put the wax in the same line with its predecessor; upon which another bee, apparently sensible of the defect, removed the displaced wax, and carrying it to the former heap, deposited it there, exactly in the order and direction pointed out." Now I have some objections to make to this account. First, in the usual course of swarming, it is unnecessary to provide the honey and water, as they come laden with honey from the parent stock. Next, to form festoons and remain motionless twenty-four hours to concoct the wax, is not the way they generally manage affairs. They either swallow the honey before leaving home long enough to have the wax ready, or less time than twenty-four hours is needed to produce it. I have frequently found lumps, half the size of a pin's head, attached to the branch of a tree where they had clustered, when they had not been there over twenty-five minutes. I have had occasion a few times to change the swarm to another tenement, an hour or two after being hived, and found places on the top nearly covered with wax. How it was managed to see a bee quit the "group," is more than I can comprehend; and then the tongue to be the only instrument used to mould the scale of wax, is another difficulty; to witness the whole process minutely in this stage of comb-making has never been my good fortune, and I am sometimes inclined to doubt the success of others. I have had glass hives, and put swarms in them, and always found the first rudiments of comb so entirely covered with bees as to prevent my seeing anything.
BEST TIME TO WITNESS COMB-MAKING.
The only time when I have witnessed the process with any degree of satisfaction is when the combs approach the glass, and but few bees in the way; then, by watching patiently a few minutes, some part of the process may be seen.
MANNER OF WORKING WAX.
Transferring the swarms to different hives from one to forty-eight hours after being hived, will show their progress. I have found that wax is attached to the top of the hive at first promiscuously, that is, without the least order, until some of the blocks or lumps are sufficiently advanced for them to begin cells. The scales of wax are welded on the edge quite thick, without regard to the shape of the cell, then an excavation is made on one side for the bottom of a cell, and two others on the opposite side; the division between them exactly opposite the centre of the first. When this piece is an inch or two in length, two other pieces at equal distances on each side are commenced. If the swarm is large, and honey abundant, it is common for two pieces of comb to be started at one time on different parts of the top; the sheets in the two places are often at right angles, or any other way, just as chance happens to give direction. The little lumps that are placed at random at first are all removed as they advance.
While the combs are in progress, the edges are always kept much the thickest, and the base of the cell is worked down to the proper thickness with their teeth, and polished smooth as glass. The ends of the cell also, as they lengthen them, will always be found much thicker than any other part of it when finished.
When two combs approach each other in the middle of the hive at nearly right angles, an edge of comb is left there; but when an obtuse angle, the edges are generally joined, making a sheet of crooked comb. It is evident where the two combs join, there must be some irregular cells unfit for rearing brood.
CROOKED COMBS A DISADVANTAGE.
These few irregular cells have been considered a great disadvantage. It is thought, or pretended, that there is a vast difference between the prosperity of a stock with straight combs and one with crooked ones. To avoid them, or cause the bees to make them all straight, has given rise to much contrivance, as if a few such cells could effect much. Suppose there were a dozen sheets of comb in a hive, and each one had a row or more of such irregular cells from top to bottom, what proportion would they hold to those that were perfect? Perhaps not one in a thousand. Hence we infer that in a hive of the proper size, the difference in amount of brood never could be perceived. This is the only difference it can make, because such cells can be used for storing honey as well as others. But sometimes there will be corners and spaces not wide enough for two combs, and too wide for one of the proper thickness for breeding. As bees use all their room economically, and generally at the best advantage, a thick comb will be the result. It is said they never use such thick combs for breeding. How are the facts? I have just such a space in a glass hive; one comb two inches thick. How is it managed? Towards fall this sheet is filled with honey; the cells outside are lengthened until there is just room for a bee to pass between them and the glass, when they are sealed over. In spring these long cells are all cut down (except at the top and upper corners) to the proper length for breeding, and used for this purpose. This has been done for five years in succession.
I will grant that there is a little waste room in such spaces, for part of the year. It amounts to but little, as it is only outside. They are necessitated to make such combs, because the inside combs, if built in a breeding apartment, however crooked one may be, the next one will generally match it, the right distance from it. But when they are built expressly for storing honey, in such as are made in boxes, the right distance is not so well preserved; hence it is not recommended to compel bees to use such storing apartment for breeding. But suppose we should compel a swarm to labor under these disadvantages, I should not apprehend such disastrous results, (providing they have a proper proportion of worker cells,) as no swarms, or even no surplus honey, as has been represented. Imagine a hive filled with combs that are all too thick, and room wasted when cut down, to the amount of one-fourth of all that is in the hive. Now here are combs enough left to mature three-fourths as many bees as in an ordinary hive, where all are right. We can now suppose a good swarm will bring home the same amount of honey as though it belonged to other hives; only three-fourths as much can be fed to the brood, and stored in the hive; and the result ought to be, that we get a quarter more surplus honey in boxes. Even if we get no swarm, I cannot see how our surplus honey can be less, as in this case there would be more bees at all times than in a hive that had been reduced by swarming.
Does experience substantiate the theory that stocks with crooked combs are as profitable as when they are straight? When combs are built expressly for breeding, I could never discover any difference. Any person can easily test it by a little observation; not by taking a solitary instance of only one hive, because some other cause might produce the result. Take a half-dozen at least with straight combs, and as many with them crooked; have them all alike in other respects, and carefully watch the result. I think you will have but little interest which way the combs are made, providingthey are made, as far as profit is concerned. It is true, it would gratify order to have them all straight, and if it was not attended with more trouble than the result would pay for, it would be well to have them so.
In ordinary circumstances, when a swarm is first hived, they set about comb-making immediately; yet sometimes they will remain two days, and not make a particle. I have known them to swarm out and cluster in the usual way, and when rehived, commence at once. This seems to prove that they can retain the wax, or prevent secreting it, till wanted. This seldom occurs.
UNCERTAINTY IN WEIGHT OF BEES.
A large swarm will probably carry with them some five or six pounds of honey from the parent stock. I only guess at this, because I am uncertain what the bees weigh exactly. "I can tell you," some one exclaims, "I saw some weighed,—so many weigh just eight ounces." Are you sure there was nothing but bees weighed? Was there no honey, bee-bread, fæces, or other substance, that might deceive you? "Can't say; I never thought of that!" Now it is important, if we weigh bees to knowtheirweight, to be sure we weigh nothing else. It is evident, that if five thousand weigh three pounds, when nothing is in their sacks, they would weigh, when filled with honey, several pounds more. Hence, the fallacy of judging of the size of a swarm by weight, as one swarm might issue with half the honey of another. Perhaps eight pounds, for large swarms, might be an average for bees and honey. This honey, whatever it amounts to, cannot be stored till combs are constructed to hold it. This principle holds good till the hive is full. That is, whenever they have more honey than the combs will hold, if there is room in the hive, they construct more. But they seem to go no farther than this in comb-making. However large the swarm may be, this compulsion appears necessary to fill the hive. Drone-cells are seldom made in the top of the hive, but a part are generally joined on the worker-cells, a little distance from the top; others near the bottom. There seems to be no rule about the number of such cells. Some hives will contain twice the number of others. It may depend on the yield of honey at the time; when very plenty, more drone-cells, &c. If the hive be very large, no doubt an unprofitable number would be constructed. Where the large and small cells join, there will be some cells of irregular shape; some with four or five angles; the distance from one angle to the other is also varied. Even where two combs of cells the same size join, making a straight comb, they are not always perfect.
SOME WAX WASTED.
When constructing comb, they are constantly wasting wax, either accidentally or voluntarily. The next morning after a swarm is located, the scales may be found, and will continue to increase as long as they are working it; the quantity often amounts to a handful or more. It is the best test of comb-making that I can give. Clean off the board and look the next morning, you will find the scales in proportion to their progress. Some will be nearly round as at first; others more or less worked up, and a part will be like fine saw-dust.
Huber and some others have divided the working bees into different classes, denominating some wax-workers, others nurses, and pollen gatherers, &c. It may be partially true, but how it was found out is the mystery.
The angles in the cells used for brood, are gradually filled, and after a time become round, both at the ends and sides.
WATER NECESSARY TO COMB-MAKING.
Whenever bees are engaged making comb, a supply of water is absolutely necessary. Some think it requisite in rearing brood. It may be needed for that, or it may be required for both purposes; but yet I have doubts if a particle is given to the young bee, besides what the honey contains. June, and first part of July, and most part of August (the season of buckwheat,) are periods of extensive comb-making; they then use most water; breeding is carried on from March till October, and as extensively in May, perhaps more so, than in August, yet not a tenth part of the water is used in May.
I have known stocks repeatedly to mature brood from the egg to the perfect bee, when shut in a dark room for months, when it was impossible to obtain a drop; also stocks that stand in the cold, (if good,) will mature some brood whether the bees can leave the hive or not. These facts prove that some are reared without water. As they get sufficient honey to require more comb to store it, they will at the same time have a brood; and it is easy to guess they need it for brood as comb, without a little investigation. This much is certain, that they use water at such times for some purpose, and when no pond, brook, spring, or other source is within convenient distance, the apiarian would find it economy to place some within their reach, as it would save much valuable time, if they would otherwise have to go a great distance, when they might be more profitably employed; it always happens in a season of honey. It should be so situated that the bees may obtain it without jeopardizing their lives;—a barrel or pail has sides so steep that a great many will slip off and drown. A trough made very shallow, with a good broad strip around the edge to afford an alighting place, should be provided. The middle should contain a float, or a handful of shavings spread in the water with a few small stones laid on them to prevent their being blown away when the water is out, is very convenient. A tin dish an inch or so in depth, will do very well. The quantity needed may be ascertained by what is used—only give them enough, and change it daily. I have no trouble of this kind, as there is a stream of water within a few rods of the hives; but I have an opportunity to witness something of the number engaged in carrying it. Thousands may be seen (in June and August) filling their sacks, while a continual stream is on the wing, going and returning.
REMARKS.
The exact and uniform size of their cells is perhaps as great a mystery as anything pertaining to them; yet, we find the second wonder before we are done with the first. In building comb, they have no square or compass as a guide; no master mechanic takes the lead, measuring and marking for the workmen; each individual among them is a finished mechanic! No time is lost as an apprentice, no service given in return for instruction! Each is accomplished from birth! All are alike; what one begins, a dozen may help to finish! A specimen of their work shows itself to be from the hands of master workmen, and may be taken as a model of perfection! He, who arranged the universe, was their instructor. Yes, a profound geometrician planned the first cell, and knowing what would be their wants, implanted in the sensorium of the first bee, all things pertaining to their welfare; the impress then given, is yet retained unimpaired! They need no lectures on domestic economy to tell them, by using the base of one set of cells on one side of their combs, for the base of those on the opposite, will save both labor and wax; no mathematician that a pyramidal base, just three angles, with just such an inclination, will be the exact shape needed, and consume much less wax than round or square—that the base of one cell of three angles, would form a part of the base of three other cells on the opposite side of the comb—that each of the six sides of one cell forms one side of six others around it—that these angles and these only would answer their ends.
"The bees appear," says Reaumer, "to have a problem to solve, which would puzzle many a mathematician. A quantity of matter being given, it is required to form out of it cells, which shall be equal, and similar, and of a determinate size, but the largest possible with relation to the quantity of matter employed, while they shall occupy the least possible space!"
How little does the epicure heed, when feasting on the fruits of their industry, that each morsel tasted must destroy the most perfect specimens of workmanship! that in a moment he can demolish what it has taken hours, yes days, perhaps weeks, of assiduous toil and labor, for the bees to accomplish!
CHAPTER VI.
PROPOLIS.
WHAT USED FOR.
This substance is first used to solder up all the cracks, flaws, and irregularities about the hive. A coat is then spread over the inside throughout; when the hive is full, and many bees cluster outside, the latter part of summer, a coat of it is also spread there. An additional coat it seems is annually applied, as old hives will be coated with a thickness proportionate to its age, providing it has been occupied with a strong family. Huber has said it was also used to strengthen the cells when first made, by mixing it with the wax. If it was their practice at that time, the practice has been abandoned by our bees to a great extent. I have made examinations when comb was first made, when it contained eggs, and when it contained larvæ, and have never been able to find anything other than pure wax composing it. After a young bee has matured in a cell, the coating or cocoon that it leaves is of a dark color, somewhat resembling it, and may have given rise to the supposition. How the article is obtained, appears to be the mystery. This is a subject about which apiarians have failed to agree. A few contend that it is an elaborated substance; while others assert it to be a resinous gum, exuding from certain trees, and collected by the bees like pollen. It differs materially from wax, being more tenacious, and when it gets a little age, much harder.
IS IT AN ELABORATE OR NATURAL SUBSTANCE?
No modern observer has ever been able to detect the bees in the act of gathering it.
HUBER'S OPINION.
Huber tells us, that "near the outlet of one of his hives, he placed some of the branches of the poplar, which exuded a transparent juice, the color of garnet. Several workers were soon seen perched upon these branches,—having detached some of this resinous gum, they formed it into pellets, and deposited them in the baskets of their thighs; thus loaded, they flew to the hive, where some of their fellow-laborers instantly came to assist them in detaching this viscid substance from their baskets." Some of our modern apiarians have doubted this account of Huber's. Now, in the absence of anything positive on this subject, I am inclined to adopt this theory; that it is a resin or gum produced by trees. (I cannot say that I am exactly satisfied with the story of bringing the "branches and laying them by the hive," &c.) That bees gather it in its natural state, is in accordance with my own observation.
FURTHER PROOF.
Our first swarms that issue in May, or first of June, seldom use much of the article pure for soldering and plastering; but instead, a composition, the most of which is wax. I have noticed at this season, when old pieces of boards that had been used for hives, were left in the sun, that this old propolis would become soft in the middle of the day. Here I have frequently seen the bees at work, packing it upon their legs; it was detached in small particles, and the process of packing was seen distinctly, as the bee did not fly during the operation, as in the case of packing pollen. It is asserted that when bees need it they always have it, indicating that they can elaborate it like wax. I can see no reason why they do not need it in June as much as August; yet, in the latter month, they use more than a hundred times the quantity. At this time, they manifest no disposition to gather any from the old boards, &c. It would seem they prefer the article new, which they now have in abundance. Boxes filled in June contain but very little, sometimes none. Why not, if they have enough of it? but when filled in August, they always have the corners, and sometimes the top and sides, lined with a good coat. Cracks, large enough for bees to pass through, are sometimes completely filled with it. In this season, a little before sunset of some fair day, I have frequently seen the bees enter the hive with what I supposed to be the pure article on their legs, like pollen, except the surface, which would be smooth and glossy; the color much lighter than when it gets age. I have also seen them through the glass inside, when they seemed unable to dislodge it themselves, like pollen, and were continually running around among those engaged in soldering and plastering; when one required a little, it seized hold of the pellet with its teeth or forceps, and detached a portion. The whole lump will not cleave off at once; but firmly adheres to the leg; from its tenacity, perhaps a string an inch long will be formed in separating, the piece obtained is immediately applied to their work, and the bee is ready to supply another with a portion; it doubtless gets rid of its load in this way; it is difficult to watch it till it is freed from the whole, as it is soon lost among its fellows. Now if this substance is not found in its natural state, how does it happen that they pack it on their legs just as they do when getting it from a board of an old hive, or pollen, when collected? They never take the trouble to pack the wax there, when elaborated. Do not these circumstances strongly favor the idea of its being a vegetable substance? Perhaps the reason of its being collected at this season in greater abundance, may be found in the fact, that the buds of trees and shrubs are now generally formed. Many kinds are protected from rain and frost, by a kind of gum or resinous coating. It may be found in many species of Populus, particularly the balsam poplar, (Populus Balsamifera) and the Balm of Gilead, (Populus Candicans). By boiling the buds of these trees, an aromatic resin or gum may be obtained, (used sometimes for making salve;) the odor is very similar to that emitted by propolis, when first gathered by the bees, or by heating it afterwards. In the absence of facts, we are apt to substitute theory. This appears to me to be very plausible. Yet I am ready to yield it as soon as facts decide differently. Perhaps not one bee in a thousand is engaged in collecting this substance—there being so few may be one reason why they are not often detected, yet few as they are, a few of us should set about close observation; something certain might decide. Apiarian science is sadly neglected; a large amount of error is mixed up with truth, that patient, scrutinizing investigation must separate.
REMARKS.
I feel anxious to get to the practical part of this work, which I hope will interest some readers who care but little about the natural history. I shall begin with spring, and will now endeavor to mix more of the practical with it, as we proceed to the end of the year. In order to illustrate some points of practice, I may have occasion to repeat some things already mentioned.
CHAPTER VII.
THE APIARY.
ITS LOCATION.
In the location of the apiary, one important consideration is, that it is convenient to watch in the swarming season; that the bees may be seen at any time from a door or window, when a swarm rises, without the trouble of taking many steps to accomplish it; because if much trouble is to be taken, it is too often neglected. Also, if possible, the hives should stand where the wind will have but little effect, especially from the northwest. If no hills or building offer a protection, a close, high board fence should be put up for the purpose. It is economy to do it—bees enough may be saved to pay the expense. During the first spring months, the stocks contain fewer bees than at any other season. It is then that a numerous family is important, for the purpose of creating animal heat to rear the brood, if for nothing else. One bee is of more consequence now than a half dozen in midsummer. When the hive stands in a bleak place, the bees returning with heavy loads, in a high wind, are frequently unable to strike the hive, and are blown to the ground; become chilled, and die. A chilly south wind is equally fatal, but not so frequent. When protected from winds, the hives may front any point you choose; east or south is generally preferred. A location near ponds, lakes, large rivers, &c., will be attended with some loss. Hard winds will fatigue the bees when on the wing, often causing them to alight in the water; where it is impossible to rise again until wafted ashore, and then, unless in very warm weather, they are so chilled as to be past the effort. I do not mention this to discourage any one from keeping them, when so situated, because some few must keep them thus or not at all. I am so situated myself. There is a pond of four acres, some twelve rods off. In spring, during high winds, a great many may be found drowned, and driven on shore. Although we cannot miss so few from a stock, it is nevertheless a loss as far as it goes.
DECIDE EARLY.
Whatever location is chosen, it should be decided upon as early in the spring as possible; because, when the chilling winds of winter have ceased for a day, and the sun, unobstructed, is sending his first warm rays to a frozen earth, the bees that have been inactive for months, feel the cheering influence, and come forth to enjoy the balmy air. As they come from their door, they pause a moment to rub their eyes, which have long been obscured in darkness.
BEES MARK THEIR LOCATION ON LEAVING THE HIVE.
They rise on the wing, but do not leave in a direct line, but immediately turn their heads towards the entrance of their tenement, describing a circle of only a few inches at first, but enlarge as they recede, until an area of several rods have beenviewed and marked.
CHANGING STAND ATTENDED WITH LOSS.
After a few excursions, when surrounding objects have become familiar, this precaution is not taken, and they leave in a direct line for their destination, and return by their way-marks without difficulty. Man with his reason is guided on the same principles. There are a great many people who suppose the bee knows its hive by a kind of instinct, or is attracted towards it, like the steel to the magnet. At least, they act as if they did; as they often move their bees a few rods, or feet, after the location is thus marked, and what is the consequence? The stocks are materially injured by loss of bees, and sometimes entirely ruined. Let us trace the cause. As I remarked, the bees have marked the location. They leave the hive without any precaution, as surrounding objects are familiar. They return to their old stand and find no home. If there is more than one stock, and the removal has been from four to twenty feet, some of the bees may find a hive, but just as liable to enter the wrong one as the right. Probably they would not go over twenty feet, and very likely not that, unless the new situation was very conspicuous. If a person had but one stock, very likely the loss would be less, as every bee finding a hive, would be sure to be home, and none killed, as is generally the case when a few enter a strange hive.
CAN BE TAKEN SOME DISTANCE.
When bees are taken beyond their knowledge of country, some two miles or more, the case seems to be somewhat different, but not always without loss, especially if many hives are set too close. They leave the hive of course without knowing that the situation has been changed; perhaps get a few feet before strange objects warn them of the fact. When they return, the immediate vicinity is strange, and they often enter their neighbors' domicil.
DANGER OF SETTING STOCKS TOO CLOSE.
A case in point occurred in the spring of '49. I sold over twenty stocks to one person. He had constructed a bee-house, and his arrangement brought the hives within four inches of each other. The result was, he entirely lost several stocks; some of them were the best; others were materially injured, yet he had a few made better by the addition of bees from other hives; (sometimes a stock will allow strange bees to unite with them, but it is seldom, unless a large number enters—it is safest to keep each family by itself, under ordinary circumstances). These stocks, before they were moved, had been collecting pollen, and had their location well marked. Had they been placed six feet apart, instead of four inches, he probably would not have lost any, or even two feet might have saved them. I have often moved them at this season, and placed them at three feet distance, and had no bad results.
Facts like the foregoing, satisfied me long since that stocks should occupy their situation for the summer, as early as possible in the spring, at least before they mark the location; or if they must be moved after that, let it be nothing short of a mile and a half, and plenty of room between the hives.
SPACE BETWEEN HIVES.
As regards the distance between hives generally, I would say let it be as great as convenience will allow. Want of room makes it necessary sometimes to set them close; where such necessity exists, if the hives were dissimilar in color, some dark, others light, alternately, it would greatly assist the bees in knowing their own hive. But it should be borne in mind, that whenever economy of space dictates less than two feet, there are often bees enough lost by entering the wrong hive, which, if saved, would pay the rent of a small addition to a garden, or bee-yard. I have several other reasons to offer for giving plenty of room between hives, which will be mentioned hereafter.
SMALL MATTERS.
The reader who is accustomed to doing things on gigantic principles, will consider this long "yarn" about saving a few bees in spring, a rather small affair, and so it is; yet small matters must be attended to if we succeed; "a small leak will sink a ship." A grain of wheat is a small matter; 'tis only in the aggregate that its importance is manifest. The bee is small, the load of honey brought home by it is still less, and the quantity secreted in the nectary of each flower, yetmore minute. The patient bee visits each, and obtains but a tiny morsel; by perseverance a load is obtained, and deposited in the hive; it is only by the accumulation of such loads that we find an object worthy our notice: here is a lesson; look to little things, and the manner in which they are multiplied, and preserved. It is much better to save our bees than waste them, and wait for others to be raised; "a penny saved is worth two-pence earned." If a stock is lost by small means, a corresponding effort is only necessary to save it. This trifling care is sometimes neglected through indolence. But I hope for better things generally; I am willing to believe it is thorough ignorance, not knowing what kind of care is necessary—how, when, and where to bestow it. This is what now appears to be my duty to tell. You will now sufficiently understand the cause of loss on this point; therefore, let it be a rule to have all ready in spring, before the bees leave their hives—the stands, bee-house, etc., and not change them.
ECONOMY.
If we keep bees for ornament, it would be well to build a bee-house, paint the hives, &c.; but as I expect the majority of readers will be interested in the profit of the thing, I will say that the bees will not pay a cent towards extra expenses; they will not do a whit more labor in a painted house, than if it was thatched with straw. When profit is the only object, economy would dictate that labor shall be bestowed only where there will be a remuneration.
CHEAP ARRANGEMENT OF STANDS.
So many kinds of bee-houses and stands have been recommended—all so different from what I prefer, that I perhaps ought to feel some hesitancy in offering one so cheap and simple; but as profit is my object, I shall offer no other apology. I have fifteen years' experience to prove its efficacy, and have no fears on this score in recommending it. I make stands in this way: a board about fifteen inches wide is cut off two feet long; a piece of chestnut or other wood, two inches square, is nailed on each end; this raises the board just two inches from the earth, and will project in front of the hive some ten inches, making it admirably convenient for the bees to alight before entering the hive, (when the grass and weeds are kept down, which is but little trouble). A separate piece for each hive is better than to have several on a bench together, as there can then be no communication by bees running to and fro. Also we are apt to give more room between them; and a board or plank will make a stand for as many stocks when cut in pieces, as if left whole; (and it ought to make more).
CANAL BOTTOM-BOARD DISCARDED.
I used what is termed a canal bottom-board, until I found out it did not pay expense, and have now discarded it, and succeed just as well. It is generally recommended as a preventive of robberies, and keeping out the moth. It may prevent one hive in fifty from being robbed; but as for keeping out the moth, it is about as good an assistant for it as can be contrived. It is a place of great convenience for the worms to spin their cocoons, and some ingenuity of the apiarian is requisite to get at them.
SOME ADVANTAGE IN BEING NEAR THE EARTH.
I am aware that I go counter to most apiarians, in recommending the stands so near the earth; less than two or three feet between the bees and the earth, it is said, will not answer any way. Mr. Miner is very positive on this point, in his Manual. I ventured to suggest to him, that there was more against it in theory, than in practice, and gave him my experience. In less than two years from that time I visited him, and found his bees close to the earth. Experience is worth a dozen theories; in fact, it is the only test to be depended upon. I shall not urge the adoption of any rule, that I have not proved by my own practice. The objection raised, is dampness from the earth, when too near; I am unable to perceive the least bad effect. Now let us compare advantages and disadvantages a little farther. One hive or a row of hives suspended, or standing on a bench, two or three feet from the earth, when approached by the bees on a chilly afternoon, (and we have many such in spring,) towards evening, even if there is not much wind, they are very apt to miss the hive and bottom, and fall to the ground, so benumbed with cold, as to be unable to rise again, and by the next morning are "no use" whatever. On the other hand, if they are near the earth, with a board as described, there is nopossibilityof their alighting under the hive, and if they should come short, and get on the ground, they can always creep, long after they are too cold to fly, and are able, and often do enter the hive without the necessity of using their wings.
Enough may be saved in one spring, from a few hives, in this way, to make a good swarm, which taken from several is not perceived; yet, as much profit from them might be realized, as if they were a swarm by themselves. A little contrivance is all that is needed to save them. To such asmustandwillhave them up away from the earth, I would say, do suggest some plan to save this portion of your best and most willing servants; have an alighting board project in front of the hive at least one foot, or a board long enough to reach from the bottom of the hive to the ground, that they may get on that, and crawl up to the hive. Do you want the inducement? Examine minutely the earth about your hives, towards sunset, some day in April, when the day has been fair, with some wind, and chilly towards night, and you will be astonished at the numbers that perish. Most of them will be loaded with pollen, proving them martyrs to their own industry and your negligence. When I see a bench three feet high and no wider than the bottom of the hive, perhaps a little less, and no place for the bees to enter but at the bottom, and as many hives crowded on as it will hold, I no longer wonder that "bee-keeping is all in luck;" the wonder is how they keep them at all. Yet it proves that, with proper management, it is not so very precarious after all.
The necessary protection from the weather, for stocks, is a subject that I have taken some pains to ascertain; the result has been, that the cheapest covering is just as good as any; something to keep the rain and rays of the sun from the top, is all sufficient. Covers for each hive, like the bottom-board, should be separate, and some larger than the top.
UTILITY OF BEE-HOUSES DOUBTED.
I have used bee-houses, but they will not pay, and are also discarded. They are objectionable on account of preventing a free circulation of air; also, it is difficult to construct them, so that the sun may strike the hives both in the morning and afternoon; which in spring is very essential. If they front the south, the middle of the day is the only time when the sun can reach all the hives at once; this is just when they need it least; and in hot weather, sometimes injurious by melting the combs. But when the hives stand far enough apart, on my plan, it is very easily arranged to have the sun strike the hive in the morning and afternoon, and shaded from ten o'clock, till two or three, in hot weather.
Notwithstanding our prodigality in building a splendid bee-house, we think of economy when we come to put our hives in, and get themtoo close. "Can't afford to build a house, and give them so much room, no how."