GROWTH AND MOVEMENT 469 



portion, which steadily wraps itself around the support. In the nature 

 of the case it is not possible for twiners to wrap about large supports, 

 nor those that are too nearly horizontal. Plants differ much in their 

 capacity in these two poim-, a difference which depends chiefly upon the 

 relative length of the growing portion of their stems, and consequently 

 upon the precise distance of the most actively growing region from the 

 apex. Few twiners encircle supports more than 15 cm. in diameter, or 

 those that lie nearer the level than 45 . 



Straightening. — The coils that a twiner forms at first are loose and of 

 low inclination. Later they become steeper and hug the support tightly. 

 This seems to be due to a return, in the last stages of growth, to the 

 apogeotropism that they possessed in the seedling period, so that the 

 stem starts to erect itself, with the effect stated. Very commonly the 

 surface of the stem is rough, being ridged or angled or furnished with 

 stiff hairs, which prevents slipping from a support too easily or sliding 

 along it. Inspection of the stem in the regions no longer growing shows 

 that it is twisted, the longitudinal ridges coursing spirally around the 

 axis in a direction the reverse of the twining. This torsion is mainly 

 the result of the final erection of the stem, though other causes cooperate 

 to increase or diminish it. 



This also is a mechanical necessity of the behavior. It can be imitated by coiling 

 a long piece of rubber tubing on a tabic, marking a crayon line along the upper 

 surface, and then lifting the inner end of the ( oil while the other end is held on the 

 table, both ends being prevented from twisting in the fingers. Then it will be seen 

 that the line apparently passes spirally around the tube, because the latter is twisted 

 by the steepening of its coils. 



The tardy development of the leaves and branches is very evidently 

 an advantage in twining, for they would greatly impede the revolving 

 movement and the subsequent tightening of the coils. When tin- 

 branches do develop, they show the same behavior as the main axis. 



This explanation of twining is not wholly satisfactory, because there are details 



of the process, and some features that appear only under experiment, that are no! 



clearly accounted for ; but it is far the best of the many theories that have been pro- 

 posed, and in the major outlines that have been presented here it iscertainU 



(2) THIGMOTROPISM 



Tendrils.. — Many plant- are sensitive to mechanical stimuli such as 

 contact <>r friction, as shown by the alteration- of the rate of growth 

 thai lead to curvature. This phenomenon i- tkigmotropism. The 



