↑ 1 blocks not present in 1859 1860; present in 1861 1866 1869 1872 |
These walls, as Professor Miller has kindly ascertained for me, vary greatly in thickness; being, on an average of twelve measurements made near the border of the comb, 1/353 of an inch in thickness; whereas the basal rhomboidal plates are thicker
nearly in the proportion of three to two, having a mean thickness, from twenty-one measurements, of 1/229 of an inch.
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a part excavation plays in the construction of the cells; but it would be a great error to suppose that the bees cannot build up a rough wall of wax in the proper position— that is, along the plane of intersection between two adjoining spheres. I have several specimens
clearly that they can do this. Even in the rude circumferential rim or wall of wax round a growing comb, flexures may sometimes be observed, corresponding in position to the planes of the rhombic basal plates of future cells. But the rough wall of wax has in every case to be finished off, by being largely gnawed away on both sides. The manner in which the bees build is curious; they always make the first rough wall from ten to twenty times thicker than the excessively thin finished wall of the cell, which will ultimately be left. We shall understand how they work, by supposing masons first to pile up a broad ridge of cement, and then to begin cutting it away equally on both sides near the ground, till a smooth, very thin wall is left in the middle; the masons always piling up the cut-away cement, and adding fresh
on the summit of the ridge. We shall thus have a thin wall steadily growing
but always crowned by a gigantic coping. From all the cells, both those just commenced and those completed, being thus crowned by a strong coping of wax, the bees can cluster and crawl over the comb without injuring the delicate hexagonal
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By
singular manner of building, strength is continually given to the comb, with the utmost ultimate economy of wax. |
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It seems at first to add to the difficulty of understanding how the cells are made, that a multitude of bees all work together; one
after working a short time at one cell going to another, so that, as Huber has stated,
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