IV 



PHYLUM CCELJNTERATA 129 



taken at right angles to its long axis, a laige number of radii about twenty- 

 four can be drawn from the centre outwards, all passing through similar parts, 

 i.e. along the axis of a tentacle and through similar portions of the body and 

 manubrium. But in the medusa (B) the case is different. The presence of the 

 four radial canals allows us to distinguish four principal radii or per -radii. Half 

 wa} r between any two per-radii a radius of the second order, or inter-radius, may 

 be taken ; half way between any per-radius and the inter-radius on either side a 

 radius of the third order, or ad-radius, and half way between any ad-radius and 

 the adjacent per- or inter-radius, a radius of the fourth order, or sub-radius. Thus 

 there are four per-radii, four inter-radii, eight ad-radii, and sixteen sub-radii. 

 In Obelia the radial canals, the angles of the mouth, and four of the tentacles are 

 per-radial, four more tentacles are inter-radial, and the remaining eight tentacles, 

 bearing the lithocysts, are ad-radial. The sub-radii are of no importance in this 

 particular form. 



Reproduction. In the description of the fixed Obelia-colony 

 no mention was made of cells set apart for reproduction, like 

 the ova and sperms of a sponge. As a matter of fact, such sexual 

 cells are found only in their fully developed condition, at least in 

 the medusae. Hanging at equal distances from the sub-umbrella, 

 in immediate relation with the radial canal, and therefore pef- 

 radial in position, are four ovoid bodies (Figs. 87 and 88, gon). 

 each consisting of an outer layer of ectoderm, continuous with 

 that of the sub-umbrella, an inner layer of endoderm, continuous 

 with that of the radial canal and enclosing a prolongation of the 

 latter, and of an intermediate mass of cells which have become 

 differentiated into ova or sperms. As each medusa bears organs 

 of one sex only (testes or ovaries, as the case may be), the individual 

 medusae are dmcipus. It will be noticed that the gonad has the 

 same general structure as an immature zo'oid an outpushing 

 of the body-wall consisting of ectoderm and endoderm, and 

 containing a prolongation of the enteric cavity. 



Development. When the gonads are ripe the sperms of the 

 male medusae are shed into the water and carried by currents to 

 the females, impregnating the ova, which thus become oosperms 

 or unicellular embryos. The oosperm undergoes complete seg- 

 mentation (Fig. 91, A F), and is converted into an ov'oidal body 

 called a planida (G, H), consisting of an outer laj^er of ciliated 

 ectoderm cells and an inner mass of endoderm cells in. which a 

 space appears, the rudiment of the enteron. The planula swims 

 freely for a time (H), then settles down on a piece of timber, sea- 

 weed, &c., fixes itself by one end (K), and becomes converted into 

 a liydrula or simple polype (L, M), having a disc of attachment at 

 its proximal end, and at its distal end a manubrium and circlet of 

 tentacles. Soon the hydrula sends out lateral buds, and, by a 

 frequent repetition of this process, becomes converted into the 

 complex Obelia-colony with which we started. 



This remarkable life-history furnishes the first example we have 

 ret met with of alternation of generations, or metagenesis (see p. 39). 



