Comparison with 1872 |
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to stand at their proper relative distances from each other and from the walls of the last completed cells, and then, by striking imaginary spheres, they can build up a wall intermediate between two adjoining spheres; but, as far as I have seen, they never gnaw away and finish off the angles of a cell till a large part both of that cell and of the adjoining cells has been built. This capacity in bees of laying down under certain circumstances a rough wall in its proper place between two just-com- menced
cells, is important, as it bears on a fact, which seems at first
....... 1872 | quite 1859 1860 1861 1866 1869 |
subversive of the foregoing theory; namely, that the cells on the extreme margin of wasp-combs
are sometimes strictly hexagonal; but I have not space here to enter on this subject. Nor does there seem to me any great difficulty in a single insect (as in the case of a queen-wasp) making hexagonal cells, if she work
alternately on the inside and outside of two or three cells commenced at the same time, always standing at the proper relative distance from the parts of the cells just
began, began, 1872 | begun, 1859 1860 1861 1866 1869 |
sweeping spheres or cylinders, and building up intermediate planes. ↑1 blocks not present in 1866 1869 1872; present in 1859 1860 1861 | It is even conceivable that an insect might, by fixing on a point at which to commence a cell, and then moving outside, first to one point, and then to five other points, at the proper relative distances from the central point and from each other, strike the planes of intersection, and so make an isolated hexagon: but I am not aware that any such case has been observed; nor would any good be derived from a single hexagon being built, as in its construction more materials would be required than for a cylinder.
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As natural selection acts only by the accumulation of slight modifications of structure or instinct, each profitable to the individual under its conditions of life, it may reasonably be asked, how a long and graduated succession of modified architectural instincts, all tending towards
the present perfect plan of construction, could have profited the progenitors of the hive-bee? I think the answer is not difficult: ↑1 blocks not present in 1866 1869 1872; present in 1859 1860 1861 | it is known that bees are often hard pressed to get sufficient nectar; and I am informed by Mr. Tegetmeier that it has been experimentally found that no less than from twelve to fifteen pounds of dry sugar are consumed by a hive of bees for the secretion of each pound of wax; so
that a prodigious quantity of fluid nectar must be collected and consumed by the bees in a hive for the secretion of the wax necessary for the construction of their combs.
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cells constructed like those of the bee or the wasp gain in strength, and save much in labour and space, and especially
in the materials of which they are constructed. With respect to the formation of wax, it is known that bees are often hard pressed to get sufficient nectar, and I am informed by Mr. Tegetmeier
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to stand at their proper relative distances from each other and from the walls of the last completed cells, and then, by striking imaginary spheres, they can build up a wall intermediate between two adjoining spheres; but, as far as I have seen, they never gnaw away and finish off the angles of a cell till a large part both of that cell and of the adjoining cells has been built. This capacity in bees of laying down under certain circumstances a rough wall in its proper place between two
just-commenced just-commenced 1860 1861 1866 1869 1872 | just-com- menced 1859 |
cells, is important, as it bears on a fact, which seems at first
quite quite 1859 1860 1861 1866 1869 | quite 1872 |
subversive of the foregoing theory; namely, that the cells on the extreme margin of
wasp-combs wasp-combs 1859 1860 1869 1872 | wasp combs 1861 | waspcombs 1866 |
are sometimes strictly hexagonal; but I have not space here to enter on this subject. Nor does there seem to me any great difficulty in a single insect (as in the case of a queen-wasp) making hexagonal cells, if she
were to work were to work 1866 1869 1872 |
work 1859 1860 1861 |
alternately on the inside and outside of two or three cells commenced at the same time, always standing at the proper relative distance from the parts of the cells just
begun, begun, 1859 1860 1861 1866 1869 | began, 1872 |
sweeping spheres or cylinders, and building up intermediate planes. ↑1 blocks not present in 1866 1869 1872; present in 1859 1860 1861 | It is even conceivable that an insect might, by fixing on a point at which to commence a cell, and then moving outside, first to one point, and then to five other points, at the proper relative distances from the central point and from each other, strike the planes of intersection, and so make an isolated hexagon: but I am not aware that any such case has been observed; nor would any good be derived from a single hexagon being built, as in its construction more materials would be required than for a cylinder.
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As natural selection acts only by the accumulation of slight modifications of structure or instinct, each profitable to the individual under its conditions of life, it may reasonably be asked, how a long and graduated succession of modified architectural instincts, all tending
towards towards 1859 1860 1866 1869 1872 | to wards 1861 |
the present perfect plan of construction, could have profited the progenitors of the hive-bee? I think the answer is not difficult:
cells constructed like those of the bee or the wasp gain in strength, and save much in labour and space, and
....... 1869 1872 | especially 1866 |
in the materials of which they are constructed. With respect to the formation of wax, it is known that bees are often hard pressed to get sufficient nectar, and I am informed by Mr. Tegetmeier
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