GERM LAYERS. 



67 



homologous with the simpler protentoderm formation from the crescentic 

 groove (blastopore) in Reptiles. (Compare Fig. 51 with Fig. 42.) As the 

 protentoderm grows forward in the medial line it apparently replaces the yolk 

 entoderm, so that the roof of the new cavity the archenteron is formed of 

 protentoderm. The area where the protentoderm fuses with the yolk entoderm 

 is, as in Reptiles, the "completion plate." 



The only real difference between gastrulation in Reptiles and in Birds is 

 that in Birds the crescentic groove (original blastopore) becomes transformed 

 into the primitive groove which remains open only at its anterior end (Hensen's 

 node), while in Reptiles the blastopore may be of any form, crescentic, round, oval, 

 etc., but does not usually present a longitudinal linear appearance. Thus in the 

 latter case the primitive intestinal invagination (the head process, "primitive 



" 

 Area pellucida . 



"Completion plate" 

 -Head process 



ry folds 

 Hensen's node. 



Primitive streak 



FIG. 50. Surface view of chick blastoderm. Bonnet. 



intestinal cord ") grows forward from the original point of invagination near the 

 posterior margin of the disk. 



Gastrulation in Mammals. 



Reference to the description of segmentation in the mammalian ovum and 

 its peculiarities (p. 51) makes it evident that these peculiarities must deter- 

 mine further modifications in the development of the germ disk as compared 

 with lower forms. It will be remembered that segmentation in the mamma- 

 lian ovum had been carried to the differentiation of two kinds of cells (p. 52), 

 an outer cell layer (trophoderm) and an inner cell mass (Fig. 33). In lower 

 forms the first cell differentiation came with the formation of the two primary 

 germ layers, the ectoderm and the entoderm, and these with the enclosed cavity 

 constituted the gastrula. The first cell differentiation in Mammals has, how- 

 ever, an entirely different significance, the trophoderm having nothing to 

 do with the formation of the embryo but being destined to give rise to extra- 

 embrvonic structures. It is the cells of the inner cell mass or embryonal bud 



