Refugee, or Thousand-to-one, are the best string-beans known; have a round, crisp, full, succulent pod; come as soon as the Mohawks are out of the way; and are very productive. Planted in August, they are excellent until frost; the very best for pickling. For an early shell-bean we recommend the China red-face; the white kidney and numerous other varieties are less certain and productive.

Running Beans are numerous. The true Lima, very large, greenish, when ripe and dry, is the richest bean known; is nearly as good in winter, cooked in the same way, as when shelled green. They are very productive, continuing in blossom till killed by frost. In warm countries they grow for years, making a tree, or growing like a large grapevine.

The London Horticultural—called also Speckled Cranberry, and Wild Goose—is a very rich variety. The only objection is the difficulty of shelling; one only can be removed at once, because of the tenderness of the pod. The Carolina or butter bean often passes for the Lima. It has similar pods, the bean is of similar shape, but always white, instead of greenish like the Lima, and smaller, earlier, and of inferior quality. The Scarlet Runner, formerly only grown as an ornament on account of its great profusion of scarlet blossoms continuing until frost, is a very productive variety; pods very large and very succulent, making an excellent string-bean; a rich variety when dry, but objectionable on account of their dark color. The Red and the White Cranberries, Dutch Caseknife, and many other varieties, have good qualities, but are inferior to those mentioned above. Beans may be forwarded in hotbeds, by planting on sods six inches square, put bottom-up on the hotbed, and covered with fine mould; plant four beans on each sod; when frost is gone, remove the sod in the hill beside the pole, previously set, leave only two pole-beans to grow in a hill; they will always produce more than a greater number. A shrub six feet high, with the branches on, is better than a pole for any running bean; nearly twice as many will grow on a bush as on a pole. Use a crowbar for setting poles, or drive a stake down first, and set poles very deep, or they will blow down and destroy the beans.

BEES AND BEEHIVES.

The study of the honey-bee has been pursued with interest from remote ages. A work on bees, by De Montfort, published at Antwerp in 1649, estimates the number of treatises on this subject, before his time, at between five and six hundred. As that was two hundred and eight years ago, the number has probably increased to two thousand or more. We have some knowledge of the character of these early works, as far back as Democritus, four hundred and sixty years before the Christian era. The great men of antiquity gave particular attention to study and writing on the honey-bee.—Among them we notice Aristotle, Plato, Columella, Pliny, and Virgil. At a later period, we have Huber, Swammerdam, Warder, Wildman, &c. In our own day, we have Huish, Miner, Quinby, Weeks, Richardson, Langstroth, and a host of others. For the first two thousand years from the date of these works, the bee was treated mainly as a curious insect, rather than as a source of profit and luxury to man. And although Palestine was eulogized as a land flowing with milk and honey, before the Hebrews took possession of it, yet the science of bee-culture was wholly unknown.

In the earliest attention to bees, they were supposed to originate in the concentrated aroma of the sweetest and most beautiful flowers. Virgil, and others of his time, supposed them to come from the carcasses of dead animals. But the remarkable experiments of Huber, sixty years ago, developed many facts respecting their origin and economy. Subsequent observers have added still more to the stock of our knowledge respecting these wonderful creatures. The different stages of growth, from the minute egg of the queen to a full grown bee, and the precise time occupied by each, are well established. The three classes of bees, in every perfect colony, and the offices of each; their mechanical skill in constructing the different sized and shaped cells, for honey, for raising drones, workers, and queens, all differing according to the purposes for which they are intended; the wars of the queens, and their sovereignty over their respective colonies; the methods by which working-bees will raise a young queen, when the old one is destroyed, out of the larvae of common bees; the peculiar construction and situation of the queen cells; and, above all, the royal jelly (differing from everything else in the hive) which they manufacture for the food of young queens; the manner in which they ventilate their hives by a swift motion of their wings, causing the buzzing noise they make in a summer evening; their method of repairing broken comb, and building fortifications, before their entrances, at certain times, to keep out the sphinx—all these curious matters are treated fully in many of our works on bees. But we must forego the pleasure of presenting these at length, it being our sole object to enable all who follow our directions, so to manage bees as to render them profitable. In preparing the brief directions that follow, we have most carefully studied all the works, American and foreign, to which we could get access. Between this article and the best of those works there will be found a general agreement, except as it respects beehives. We present views of hives, that we are not aware have ever been written. The original idea, or new principle (which consists in constructing the hive with the entrance near the top), was suggested to us by Samuel Pierce, Esq., of Troy, N. Y., who is the great American inventor of cooking-ranges and stoves. We have carefully considered the principle in its various relations to the habits of the bee, and believe it correct. To most of our late works on honey-bees we have one serious objection: it is, that they bear on their face the evidence of having been written to make money, by promoting the sale of some patent hive. These works all have a little in common that is interesting; the remainder seems designed to oppose some former patent and commend a new one. They thus swell their volumes to a troublesome and expensive size, with that which is of no use to practical men. A work made to fight a patent, or to sell one, can not be reliable. The requisites to successful bee-management are the following:—

1. Always have large, strong swarms. Such only are able successfully to contend with their enemies. This is done by uniting weak swarms, or sending back a young, feeble swarm when it comes out (as herein after directed).

2. Use medium-sized hives. In too large hives, bees find it difficult to guard their territories. They also store up more honey than they need, and yield less to the cultivator. The main box should be one foot square by fifteen inches high. Make hives of new boards; plane smooth and paint white on the outside. The usual direction is to leave the inside rough, to aid in holding up the honey, but to plane the inside edges so as to make close joints. We counsel to plane the inside of the hive smooth, and draw a fine saw lightly length wise of the boards, to make the comb adhere. This will be a great saving of the time of bees, when it is worth the most in gathering honey. They always carry out all the sawdust from the inside of their hives. Better save their time by planing it off.

3. To prevent robberies among bees, when a weak colony is attacked, close their entrances so that but one bee can pass at once, and they will then take care of themselves. To prevent a disposition to pillage, place all your hives in actual contact, on the sides, and make a communication between them, but not large enough to allow bees to pass. This will give the same scent to the whole, and make them feel like one family. Bees distinguish strangers only by the smell: hence, so connected, they will not quarrel or pillage.

4. Comb is usually regarded better for not being more than two or three years old. The usual theory is, that cells fill up by repeated use, and, becoming smaller, render the bees raised in them diminutive. This is not probable, as a known habit of the bee is to clean out the cells before reusing them. Huber demonstrated that bees raised in drone-cells (which are always larger than for workers) grew no larger than in their own natural cells. And as bees build their cells the right size at first, it is probable they keep them so. Quinby assures us that bees have been grown twenty years in the same comb, and that the last were as large as the first. But for other reasons, it is better to change the comb. In all ordinary cases, it is better to transfer the swarm to a new hive every third year. Many think it best to use hives composed of three sections, seven and a half inches deep each, screwed together with strips of wood on the sides, and the top screwed on that it may easily be removed; thick paper or muslin should be pasted around, on the places of intersection, to guard against enemies; the two lower sections only allowed to contain bees—the upper one being designed for the honey-boxes, to be removed. Each spring, after two years old, the lower section is taken out and a new one put on the top, the cover of the old one having been first removed. This is the old "pyramidal beehive," which is the title of a treatise on bees, by P. Ducouedic, translated from the French and abridged by Silas Dinsmore in 1829. This has recently been revived and patented as a new thing. We think with Quinby, that these hives are too expensive and too complicated, and that the great mass of cultivators will succeed best with hives of simple construction.