144 ZOOLOGY. 



The Turbellaria are hermaphroditic, the ovaries andtestes 

 with the accessory apparatus (Fig. 95) being present in the 

 same individual; but in many forms the sexes are distinct. 



Little is known of the development of the flat-worms. 

 In a common marine Planarian, Stylochus elliptica (Girard), 

 which is about two centimetres long, and lives under stones 

 between tide-marks, north of Cape Cod, the eggs are depos- 

 ited in May and June, in a thin, viscid band, on stones and 

 sea- weeds. The eggs undergo total segmentation in four or 

 five days after they are laid. The larva is round, ciliated, 

 with a caudal flagellum. In eight or ten days after the 

 larva has hatched, it stops swimming about, and becomes a 

 "mummy-like body," which Girard calls a "chrysalis." 

 In this state it floats about in the water. Its further his- 

 tory is unknown. 



In Leptoplana (Polycelis), according to Keferstein, the 

 yolk undergoes total segmentation as in Stylochus; the 

 outer layer of cells forms a blastoderm which surrounds the 

 more slowly growing cells within. Keferstein describes 

 and figures the various stages by which the spherical cili- 

 ated embryo attains the form of the adult, whose devel- 

 opment seems. to be less in the nature of a metamorphosis 

 than that of Stylochus. 



The Planarians also in some species mul- 

 tiply by fission, and when cut into pieces, 

 according to H. J. Clark, each piece may 

 eventually become a well-formed Planarian. 

 Clark figures in his " Mind in Nature" two 

 Planarians derived from two sections of 

 Dendroccelum lacteum, which became fully 

 developed within eleven days after the opera- 

 tion. Several Turbellarians are known to 

 undergo spontaneous fission. 



Catenula lemnce Duges, by transverse di- 

 .. vision > forms chain-like aggregations, and 



la .quaterna under- a South African Species, C. OUtttema, of 

 going self-division. ' J 



After Schmarda. Schmarda, has been f ound by him to have the 

 same habit. Fig. 96 represents two individuals (much 

 enlarged) in partial division, and a chain of four individ- 



