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.

The upward movement (C, Fig. 188) is effected in part by the whole sub-peduncle rising in the same manner as it had previously descended through epinasty—­namely, at the joint where united to the main peduncle.  As this upward movement occurred with plants kept in the dark and in whatever position the main peduncle was fastened, it could not have been caused by heliotropism or apogeotropism, but by hyponasty.  Besides this movement at the joint, there is another of a very different kind, for the sub-peduncle becomes upwardly bent in the middle part.  If the sub-peduncle happens at the time to be inclined much downwards, the upward curvature is so great that the whole forms a hook.  The upper end bearing the capsule, thus always places itself upright, and as this occurs in darkness, and in whatever position the main peduncle may have been secured, [page 505] the upward curvature cannot be due to heliotropism or hyponasty, but to apogeotropism.

Fig. 188.  Oxalis carnosa:  movements of flower-peduncle, traced on a vertical glass:  A, epinastic downward movement; B, circumnutation whilst depending vertically; C, subsequent upward movement, due to apogeotropism and hyponasty combined. [page 506]

In order to trace this upward movement, a filament was fixed to a sub-peduncle bearing a capsule nearly ripe, which was beginning to bend upwards by the two means just described.  Its course was traced (see C, Fig 188) during 53 h., by which time it had become nearly upright.  The course is seen to be strongly zigzag, together with some little loops.  We may therefore conclude that the movement consists of modified circumnutation.

The several species of Oxalis probably profit in the following manner by their sub-peduncles first bending downwards and then upwards.  They are known to scatter their seeds by the bursting of the capsule; the walls of which are so extremely thin, like silver paper, that they would easily be permeated by rain.  But as soon as the petals wither, the sepals rise up and enclose the young capsule, forming a perfect roof over it as soon as the sub-peduncle has bent itself downwards.  By its subsequent upward movement, the capsule stands when ripe at a greater height above the ground by twice the length of the sub-peduncle, than it did when dependent, and is thus able to scatter its seeds to a greater distance.  The sepals, which enclose the ovarium whilst it is young, present an additional adaptation by expanding widely when the seeds are ripe, so as not to interfere with their dispersal.  In the case of Oxalis acetosella, the capsules are said sometimes to bury themselves under loose leaves or moss on the ground, but this cannot occur with those of O. carnosa, as the woody stem is too high.

Oxalis acetosella.—­The peduncles are furnished with a joint in

Fig. 189.  Oxalis acetosella:  course pursued by the upper part of a peduncle, whilst rising, traced from 11 A.M.  June 1st to 9 A.M. 3rd.  Figure here reduced to one-half of the original scale.

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