394 COMPARATIVE ANATOMY chap. 



definitely arranged, may occur. It is very probable that many of the 

 different forms of pedicellariae, within certain divisions, have developed 

 independently out of spines. 



1. The pedicellarise in the Ophiuroidea. — In Trichnstcr dcgans, from about the 

 thirty-sixtli tentacle pore of an arm onwards, the two tentacle papilla; are replaced 

 on the adoral side of each pore by two hooks movably articulated on a stem. This 

 stem also is articulated with a ventral lateral process of the corresponding brachial 

 vertebral ossicle. The skeleton of this apparatus consists of three pieces, belonging 

 to the stem and to the two diverging hooks. The hooks do not move against one 

 another, the planes of their movement being nearly parallel. On one side a flexor, 

 and on the other an extensor muscle connects each hook with the stem. In 

 Aslrophyton also, similar pedicellariffi are found, and in Ophiothrix fragilis the end 

 of the arm is beset with movable hooks provided with flexor and extensor muscles. 

 Similar hooks occur, further, on the lateral shields of the arms in certain species of 

 Gorgonoccphalus. 



2. The pedicellarise of the Asteroidea (Fig. 342). — In .some groups, e.g. the 

 Asterinidce, Sola stcr idee, and Pterasterida', the pedicellariiB are altogether wanting : 

 in the Astropedinidce they are only very rarely found. 



In the simplest cases, groups of small spines may function as pedicellarin?. The 

 spines of such a group are movably connected with the body, and may be arranged 

 either in two opposite rows of four to five spines each, these rows approximating or 

 diverging ; or else at definite points of the body three or four spines stand close 

 together, forming, when they incline towards one another, a three- or four-sided 

 pyramid. Two .spines even may for-m a group. For instance, on the dorsal surface 

 of Asterlna gibbosa, spines are found sometimes isolated, sometimes united in larger 

 or smaller groups. Among these groups there are couples connected at the base by 

 a transverse muscle, and such spines can move towards one another more energetic- 

 ally than those of the other groups (Fig. 342, A to F). 



In the above cases, we have to a great extent to do with commencing or rudi- 

 mentary pedicellarise, and we recognise, in the larger and smaller groups of spines, 

 the material out of which pedicellarife with two, three, or four forceps maj'^ be 

 developed. {Cf. also what has been remarked on j). 392 on the spines of the Ecliinoidea 

 as organs for the seizing and conveying of prey to the mouth, and p. 390 on tlie 

 smaller sjiincs of tlie Cldaroida.) 



The true pedicellarise of the Asteroidea usually have two blades or valves, less 

 frerpiently three. Stalked and sessile pedicellarise may be distinguished. 



It. Sessile pedicellarise (Fig. 342, G). — The two blades rise 

 directly from the integument. Each consists of a calcareous piece 

 determining its shape, Avhich may be long or short, broad or 

 narrow, pointed or blunt, flat or spoon-like. The two skeletal pieces 

 are directly articidated with a skeletal plate of the integument. In 

 Gymnasteria carinifem, for example, numerous double-bladed pedi- 

 cellarise rise at the edge of the ambulacral furrow. The two blades 

 are connected at their bases in a manner illustrated in the figure, by a 

 transverse muscle, the adductor muscle. Further, each blade at its 

 outer side (?'.<'. at the side turned away from the axis of the pedicel- 

 laria) is also connected with the subjacent calcareous plate of the 

 integument by an opening" muscle (abductor). The bases of the 



