14 STRUCTURE AND LIFE-HISTORY OF HAY-SCENTED FERN. 



so that the cell -walls arc abcmt one-fourth the width of the lumens, there 

 are (fig'. 44) two large tracheids slightly thickened, and two in the center 

 wholly unthickened and containing protoplasm. Only with the decay and 

 disruption of the outer layers of the root do the inner cortex and xylem 

 become fully mature (fig. 45). This occurs from 3.5 cm. to 10 cm. from 

 the root tip. One can not as a rule, obtain a transverse section showing 

 all of the tissues mature and intact. 



These facts have an important physiological significance. We suppose 

 the water-supply of the plant to come in through the root-hairs. But 

 where these are functional the xylem, always considered the water-con- 

 ducting tissue, is decidedly immature. It is evident that lignified walls are 

 not necessary for the conduction of water in the cells. It may be, however, 

 that the inner cortex, whose walls thicken at such an early period, is fora 

 time active in water conduction. 



In 25 out of 95 roots examined (/. <?., 26.3 per cent) from localities in 

 Long Island, Pennsylvania, and Maryland, a more or less copious growth 

 of non-septate fungus hyphre was found in the middle cortex (figs. 52, 

 53). One of the most pronounced cases was attached to a rhizome of 

 unusual thickness and width and with an unusually long and rapidly grow- 

 ing meristematic apex. In a root-tip from this plant, hyphse were seen 

 3.07 mm. from the initial cell. They were located in the epidermis and 

 hypodermis, with branches running inward. In an older root, a hypha 

 was seen extending into the root through a root-hair (fig. 53). Once in 

 the middle cortex, strong hyphae run from cell to cell, ramifying in each 

 cell to form a dense granular mass (fig. 53). Sometimes the fungus is 

 found only on one side of the root, or in only a few cells. Occasionally 

 it spreads all the way round. From the undoubted vigor of the host where 

 the fungus occurs, the early stage of the root at which it appears, and the 

 mode of copious branching of the hypha^ in the mcdio-cortex, we feel 

 justified in considering that we have to do with a true mycorhiza. On 

 account of its inconstancy, it may be called facultative. No other poly- 

 podiaceous fern is known to possess such a commensalism, though Jansc 

 (1895) has recorded a similar condition in the aerial roots of Cyathca 

 (species not given). 



Lateral rootlets arise from rhizogcnous cells of the endodermis, opposite 

 the xylem rays, as is universal in ferns. The endodermis has been shown 

 (p. 10) to originate in the root apex with two cells in each segment, /. <?., 

 one in each sextant. After the segment is divided transversely into two 

 layers, there are two endodermal cells to a sextant, one lying nearer the 

 apex than the other. In the two opposite sextants in which the protoxy- 

 lems are later to form, the endodermal cell lying nearer the root apex 

 remains undivided by any radial walls, while its posterior and sister cell, 

 like all the other endodermal cells of the root, is halved radially. This 

 large cell, extending clear across the sextant, is the primitive rhizogenous 



