32 W. G. RIDEWOOD. 



The number of plumes is not constant. The commonest number is fourteen, 

 but there may be as many as sixteen and as few as twelve plumes. A study of 

 the buds shows that, as in Cephalodiscus dodecalophus, the full complement of plumes 

 does not develop simultaneously, but successively, and the occasional presence of a 

 very small plume among thirteen or fourteen large ones in a full-grown individual 

 suggests that the number may be subject to increase even after the adult stage has 

 been reached. 



Stolon. 



The stolon is stout, short as compared with that of C. dodecalophus, roughly 

 circular in section, and with a pigmented and transversely wrinkled surface. It 

 does not taper, but is of fairly uniform diameter ; its free or posterior end is 

 hemispherical, and from the margin of this extremity the buds are developed. 

 The angle at which the stolon stands out from the body differs in polypides 

 found in tubes and those found free (see p. 26). 



The longitudinal muscles in the stolon are disposed in the form of a thick- 

 walled tube surrounding a mass of compacted coelomic corpuscles and trabeculae. 

 There is no median septum in the greater part of the length of the stolon, it 

 extends hardly beyond the base of that organ. 



There is little variation in the shape of the stolon. In a full-grown individual 

 with many buds it is always short, cylindrical and stout ; but from the wrinkling 

 of the superficial epithelium one may conclude that the organ has been fixed 

 by the preservative fluid in a condition of extreme contraction. As is explained 

 later in the remarks upon budding, a large bud may develop at that end of its stalk 

 which is attached to the parent stolon a small bud of its own. On the separation 

 of the bud from the parent form, its stalk becomes its stolon, and the bud already 

 present at its end, and those developed later, have relations to this stolon similar 

 to those which the buds of the parent form bore to the parent stolon. The 

 interesting feature to be noted here is that the stalk of the large bud in question is 

 not always found in a state of contraction ; in most cases it is two or three times 

 as long as the stolon of the parent, and is slender in proportion. 



If one assumes that the parental stolon is in a fully contracted state, the 

 explanation of the granular mass in the middle of it is not far to seek. The stolon 

 is to be regarded as a hollow structure, with the coelomic cavity traversed by 

 connective tissue strands with the characteristic prominent lateral nuclei, and by 

 an excessive diminution in the length of the stolon these threads and nuclei 

 become all crowded together and form a dense core, the coelomic cavity as a cavity 

 disappears in the stolon itself, and only remains recognisable in the basal part. 

 In a male individual with large testes a limb of one of them may extend into the 

 basal part of this granular core of the stolon. 



The question why the stolon of full-grown individuals is invariably contracted 



