The Power of Movement in Plants eBook

Francis Darwin
This eBook from the Gutenberg Project consists of approximately 654 pages of information about The Power of Movement in Plants.

The Power of Movement in Plants eBook

Francis Darwin
This eBook from the Gutenberg Project consists of approximately 654 pages of information about The Power of Movement in Plants.
with a pulvinus, formed of a mass of small cells destitute of chlorophyll, and with their longer axes perpendicular to the axis of the petiole.  As measured along this latter line, these cells are only 1/5th of the length of those of the petiole; but instead of being abruptly separated from them (as is usual with the pulvinus in most plants), they graduate into the larger cells of the petiole.  On the other hand, S. napaea, according to Batalin, does not possess a pulvinus; and he informs us that a gradation may be traced in the several species of the genus between these two states of the petiole.  Sida rhombifolia presents another peculiarity, of which we have seen no other instance with leaves that sleep:  for those on very young plants, though they rise somewhat in the evening, do not go to sleep, as we observed

Fig. 126.  Sida rhombifolia:  circumnutation and nyctitropic (or sleep) movements of a leaf on a young plant, 9 ½ inches high; filament fixed to midrib of nearly full-grown leaf, 2 3/8 inches in length; movement traced under a sky-light.  Apex of leaf 5 5/8 inches from the vertical glass, so diagram not greatly enlarged. [page 323]

on several occasions; whilst those on rather older plants sleep in a conspicuous manner.  For instance a leaf (.85 of an inch in length) on a very young seedling 2 inches high, stood at noon 9o above the horizon, and at 10 P.M. at 28o, so it had risen only 19o; another leaf (1.4 inch in length) on a seedling of the same height, stood at the same two periods at 7o and 32o, and therefore had risen 25o.  These leaves, which moved so little, had a fairly well-developed pulvinus.  After an interval of some weeks, when the same seedlings were 2 ½ and 3 inches in height, some of the young leaves stood up at night quite vertically, and others were highly inclined; and so it was with bushes which were fully grown and were flowering.

The movement of a leaf was traced from 9.15 A.M. on May 28th to 8.30 A.M. on the 30th.  The temperature was too low (15o — 16o C.), and the illumination hardly sufficient; consequently the leaves did not become quite so highly inclined at night, as they had done previously and as they did subsequently in the hot-house:  but the movements did not appear otherwise disturbed.  On the first day the leaf sank till 5.15 P.M.; it then rose rapidly and greatly till 10.5 P.M., and only a little higher during the rest of the night (Fig. 126).  Early on the next day (29th) it fell in a slightly zigzag line rapidly until 9 A.M., by which time it had reached nearly the same place as on the previous morning.  During the remainder of the day it fell slowly, and zigzagged laterally.  The evening rise began after 4 P.M. in the same manner as before, and on the second morning it again fell rapidly.  The ascending and descending lines do not coincide, as may be seen in the diagram.  On the 30th a new tracing was made (not here given) on a rather enlarged scale, as the apex of the leaf

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The Power of Movement in Plants from Project Gutenberg. Public domain.