362 



THE SPERMATOPHYTES 



termed the pollen chamber (Fig. 295, D,p). The pollen grains 

 germinate in the pollen chamber, forming male gametophytes, 

 whose development disorganizes much of the tissue at the tip 



of the nucellus, so that the 

 pollen grain end of the male 

 gametophytes finally hang 

 down just above the em- 

 bryo sac. 



348. The gametophytes 

 of the cycads. The embryo 

 sac of the cycads is said to 

 develop from one of a group 

 of four cells in the interior 

 of the nucellus. Such a 

 group is undoubtedly a 

 tetrad, and each of the four 

 cells corresponds to a mega- 

 spore, but only one produces 

 a female gametophyte, and 

 thus becomes an embryo sac. 

 The nucleus of the em- 

 bryo sac (megaspore nucleus) 

 gives rise to a great many 



FIG. 295. The sperms and ovule of a 

 cycad (Zamia) 



J, lower surface of a stamen, with numer- hundred nuc l e i, and the 

 cms pollen sacs in two groups. />, the two 



large top-shaped motile sperms at the end amount of protoplasm in- 

 of the pollen tube ready to be disdharged d n 



above the archegoma. C, a sperm viewed J 



from the end, showing the spiral hand the embryo Sac Occupies the 

 which hears the cilia. I), diagram of a i c , i 



section of an ovule after pollination : m, lar g er P art f the ^tenor 

 micropyle; /', integument; p, pollen chain- of the llUCellllS in this large 

 her ; n, nucellus containing developing , ^^ , f fi f V 



pollen tubes; a, archegonia, with large OVUle. 



eggs imbedded in the endosperm (female freely in the protoplasm, but, 

 gametophyte). B. C, after Webber ,, <, -, -, 



later, walls are formed and 



the embryo sac becomes filled with a delicate tissue, called the 

 endosperm (Fig. 295, D), which corresponds to the vegetative part 

 of a prothallium in a fern. Several archegonia are developed at 



