288 



THE EVOLUTION OF MAX. 



of dark, multilateral entcderm-cells (i), and covered by a. 

 light-coloured globular membrane, which is composed of a 

 single stratum of exoderm-cells (e). A transparent bright- 

 coloured liquid now collects at a point between the two 

 germ-layers ; and this increases so greatly that it expands 

 the exoderm cellular membrane into a large globular vesicle. 

 The mass of entoderm-cells, forming a ball of smaller 

 diameter, remains attached to one point of the exoderm; 

 (according to Van Beneden, this point is that of the yelk- 

 plug, o). The entoderm mass now becomes flattened, first 

 assuming a hemispherical, then a lentil-shaped, and finally 

 a discoidal form : this is accomplished by a movement 

 among the cells, which spread themselves out in a one- 

 layered circular disc. 



FIG. 71. Gastrula of a Mam- 

 mal {Ampliigastrula of a Eabbit) 

 in longitudinal section through 

 the axis : e, exoderm-cells (64, 

 lighter-coloured and smaller) ; i, 

 entoderm-cells (32, darker and 

 larger) ; d, central entoderm-eells, 

 occupying the primitive intes- 

 tinal cavity; o, peripheric ento- 

 derm-cells, plugging the primi- 

 tive mouth-opening (the yelk- 

 plug in the " anus of Rusconi"). 



This vesicular condition of the mammalian germ was 

 detected two centuries ago (1677) by Regner de Graaf. He 

 discovered small, globular, transparent vesicles, with a 

 double membrane, lying free in the uterus of a Rabbit four 

 days after impregnation. But Graaf's statement was not 

 accepted. It was not till 1827 that these vesicles were 



