Fig. 87. Diagrammatic section of an unincubated Fowl’s egg.
bl. blastoderm; w.y. white yolk. This consists of a central flask-shaped mass and a number of layers concentrically arranged around it. y.y. yellow yolk; v.t. vitelline membrane; x. layer of more fluid albumen immediately surrounding the yolk; w. albumen consisting of alternate denser and more fluid layers; ch.l. chalaza; a.ch. air-chamber at the broad end of the egg. This chamber is merely a space left between the two layers of the shell-membrane. i.s.m. internal layer of shell-membrane; s.m. external layer of shell-membrane; s. shell.

Fig 88. Surface views of the early stages of the segmentation in a Fowl’s egg. (After Coste.)
a. edge of germinal disc; b. vertical furrow; c. small central segment; d. larger peripheral segment.

Fig. 89. Surface view of the germinal disc of Fowl’s egg during a late stage of the segmentation.
c. small central segmentation spheres; b. larger segments outside these; a. large, imperfectly circumscribed, marginal segments; e. margin of germinal disc.

The segmentation commences in the lower part of the oviduct, shortly before the shell has begun to be formed. It is meroblastic, being confined to the germinal disc, through the full depth of which however the earlier furrows do not extend. It is mainly remarkable for being constantly somewhat unsymmetrical (Kölliker)—a feature which is not represented in [fig. 88], copied from Coste. Owing to the absence of symmetry the cells at one side of the germinal disc are larger than those at the other, but the relations between the disc and the axis of the embryo are not known. During the later stages the segmentation is irregular, and not confined to the surface; and towards its close the germinal disc becomes somewhat lenticular in shape; and is formed of segments, which are smallest in the centre and increase in size towards the periphery ([figs. 89] and [90]). The superficial segments in the centre of the germinal disc are moreover smaller than those below, and more or less separated as a distinct layer ([fig. 90]). As development proceeds the segmentation reaches its limits in the centre, but continues at the periphery; and thus eventually the masses at the periphery become of the same size as those at the centre. At the time when the ovum is laid ([fig. 91]) the uppermost layer of segments has given rise to a distinct membrane, the epiblast, formed of a single row of columnar cells (ep). The lower or hypoblast segments are larger, in some cases very much larger, than those of the epiblast, and are so granular that their nuclei can only with difficulty be seen. They form a somewhat irregular mass, several layers deep, and thicker at the periphery than at the centre: they rest on a bed of white yolk, from which they are in parts separated by a more or less developed cavity, which is probably filled with fluid yolk matter about to be absorbed. In the bed of white yolk nuclei are present, which are of the same character, and have the same general fate, as those in Elasmobranchii. They are generally more numerous in the neighbourhood of the thickened periphery of the blastoderm than elsewhere. Peculiar large spherical bodies are to be found amongst the lower layer cells, which superficially resemble the larger cells around them, and have been called formative cells [vide Foster and Balfour (No. [126])]. Their real nature is still very doubtful, and though some are no doubt true cells, others are perhaps only nutritive masses of yolk. In a surface view the blastoderm, as the segmented germinal disc may now be called, appears as a circular disc; the central part of which is distinguished from the peripheral by its greater transparency, and forms what is known in the later stages as the area pellucida. The narrow darker ring of blastoderm, outside the area pellucida, is the commencing area opaca.