ABSORPTION OF FOOD-SALTS BY LAXD-PLANTS. 89 



oti" and suspended iu the air by a striug. Whether it hangs with the apex upper- 

 most, i.e. iu the position in which it grew naturally, or with the apex towards the 

 ground, it always, in a short space of time, produces roots which spring from the 

 axis between the fleshy foliage-leaves and bending sliarply grow to the earth. Thus 

 in the former case their direction is contrary to the apex of the shoot: in tlie latter, 

 curiously enough, it is in the same direction. If the height at wliich the shoot is 

 suspended is only 2 cm. above the earth, the roots growing towards the ground 

 develoji their root-hairs 2 cm. from their place of origin. But if the shoot is at a 

 distance of 10 cm., the roots only develop their root-hairs when they have attained a 

 length of 10 cm. The rule is, therefore, for the roots to grow until they reach the 

 nutrient soil without developing absorption-cells, and only to provide themselves 

 with them when they are in the earth. It is to be observed that these roots are 

 produced on the suspended shoot at places where, under normal conditions (i.e., if 

 the shoot were not cut ofl' and hung up), no roots would be developed. Subject 

 to abnormal conditions au<i liable to starxatiou, the plant sends out these roots for 

 self-preservation. 



Phenomena of this kind force one to conclude that a plant discerns places which 

 ofler a supply of nutriment, and then throws out anchors for safety to those places. 

 This power of detection may, undoubtedly, be explained by the influence wliich 

 conditions of moistm-e, in addition to the action of gravitation, have on the direction 

 taken by growing roots. The root-hairs can only obtain food-salts when the ground 

 is thoroughly moist; and whenever roots, or rather their branches, have to choose 

 between two regions, one of which is dry and the other wet, they invariably turn 

 towards the latter. If seeds of the garden-cress are placed on the face of a wall of 

 clay which is kept moist, the rootlets, after bursting out of the seeds, grow at first 

 downwards, but later they enter the wall in a lateral direction. The longitudinal 

 f-rowth of the roots is greater on the dry side than on the wet side, and this results 

 in a bending of the whole towards the source of moisture, in this instance the damp 

 wall. It has been established that the tip of a rootlet is very sensitive to the 

 presence of moisture in the environment. Where there is a moist stx'atum on one 

 side and a dry stratum on the other, a root-tip receives a stimulus from the unequal 

 conditions in respect of moisture; the stimulus is propagated to the growing part of 

 the root, which lies behind the tip, and the result is a curvature of the root towards 

 the moist side. Thus, the presence of absorbable nutriment, or rather of moisture, 

 in the groimd explains the divergence of roots from the direction prescribed by 

 gravity. 



The extent to which the direction taken by roots in their search for food is 

 dependent upon the presence of that food, and the fact that roots grow towards 

 places that aflbrd supplies of nutritious material, are strikingly exliiljited, also, 

 by epiphytes growing on the bark of trees, such as tropical orchids and 

 Bromeliacece; and again by plants parasitic on the branches of trees, of which the 

 Mistletoe and other members of the Loranthacece aflbrd examples. Although the 

 absorption of food by these jDlants will not be thoroughly discussed till a .later 



