26 



STRUCTURAL BOTANY 



m. 



n 



o 



The tissue which fills the megaspore is called the 

 prothallus. The prothallus gives rise to the archegonia, 

 or female organs. A cell at the apical end of the 

 prothallus grows larger than the rest, and divides into 

 two by a wall parallel to the outer surface. The upper 

 cell divides by two longitudinal walls, crossing each 

 other at right angles, into four, and each of these four 



cells divides by a transverse wall 

 into two. Thus a neck is formed, 

 consisting of eight cells arranged 

 in two tiers (see Fig. 14, n, n). 

 (Of course only four of the cells 

 can be seen in longitudinal section.) 

 In the mean time the lower cell, 

 which has so far remained un- 

 divided, forms an outgrowth which 

 penetrates between the cells of 



FIG. 14. Selagmella ; , . 



archegonium ready for the neck. IhlS outgrowth IS CUt 



fertilisation ovum ; O ff as a distinct cell, called the 



n, cells of neck; m, 



mucilage in canal. Mag- neck canal -cell. Another smaller 

 nified about 500 dm- u th ventra i canal -cell, is cut 



meters. (After Pfeffer. ) 



off below it ; the remaining lower 



portion of the original central cell is the ovum (cf. Fern- 

 archegonium, p. 6 8, Fig. 35). We see, then, that the devel- 

 opment is just like that in Picea, except that in Selaginella 

 we find two canal-cells instead of one. In Selaginella a real 

 canal is formed, for the canal-cells break down, and an open 

 passage, containing only mucilage, is left between the cells 

 of the neck leading down to the ovum within (see Fig. 14). 

 The first archegonium is sometimes formed before 

 the megaspore is shed. 1 After the dehiscence of the 



1 It has occasionally been observed that fertilization takes place and 

 the embryos develop while the megaspores are still retained in their 

 sporangium. 



