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Show 256 DROSERA ROTUNDIFOLIA. CHAP. X. the bending tentacle. But it does not follow from these observations that the cells on the convex side become filled with more fluid during the act of inflection than they contained before; for fluid may all the time be passing into the disc or into the glands which then secrete freely. The bending of the tentacles, when leaves are immersed in a dense fluid, and their subsequent reexpansion in a less dense fluid, show that the passage of fluid from or into the cells can cause movements like the natural ones. But the inflection thus caused is often irregular ; the exterior tentacles being sometimes spirally curved. Other unnatural movements are likewise caused by the application of dense fluids, as in the case of drops of syrup placed on the backs of leaves and tentacles. Such movements may be compared with the contortions which many vegetable tissues undergo when subjected to exosmose. It is therefore doubtful whether they throw any light on the natural movements. If we admit that the outward passage of fluid is the cause of the bending of the tentacles, we must suppose that the cells, before the act of inflection, are in a high state of tension, and that they are elastic to an extraordinary degree ; for otherwise their contraction could not cause the tentacles often to sweep through an angle of above 180°. Professor Cohn, in his interesting paper* on the movements of the stamens of certain Oompositoo, states that these organs, when dead, are as elastic as threads of indiarubber, and are then only half as long as they were when alive. He believes that the living protoplasm * ' Abhand. der Schlcs. Gesell. fiir vaterl. Oultur,' 1861, Heft i. An excellent abstract of this paper is given in. the' Annals and Mag. of Nat. H ist.' 3rd series, 18G3, vol. xi. pp. 188-197. CuAr. X. , MEANS OF MOVEMENT. 257 within their cells is ordinarily in a state of expansion, but is paralysed by irritation, or may be said to suffer temporary death; the elasticity of the .cell-walls then coming into play, and causing the contraction of the stamens. Now the cells on the upper or concave side of the bending part of the tentacles of Drosera do not appear to be in a state of tension, nor to be highly elastic; for when. a leaf is suddenly killed, or dies slowly, it is not the upper but the lower sides of the tentacles which contract from elasticity. We may, therefore, conclude that their moven1ents cannot be .accounted for by the inherent elasticity of certain cells, opposed as long as they are alive and not irritated by the expanded state of their contents. A somewhat different view has been advanced by other physiologists- namely that the protoplasm, when irritated, con tracts like the soft sarcode of the muscles of animals. In Drosera the fluid within the cells of the tentacles at the bending place appears under the microscope thin and homogeneous, and after aggregation consists of small, soft masses of matter, undergoing incessant changes of form and floating in aln1ost colourless fluid. These masses are complete} y redissolved when the tentacles re-expand. Now it seems scarcely possible that such matteT should have any direct mechanical power; but if through some 1nolecular change it were to occupy less space than it did before, no doubt the cell-walls would close up and contract. But in this case it might be expected that the walls would exhibit wTinkles, and none could ever be seen. Moreover, the contents of all the cells seem to be of exactly the same nature, both before and after aggregation; and yet only a few of the basal cells · contract, the rest of the tentacle Temaining straight. A third view maintained by some physiologists, s |
