504 COMPARATIVE ANATOMY 



XX. Capacity for Regeneration and Asexual Reproduction by means of 

 Fission and Gemmation. 



The cajtacity tor regeneration is, as a rule, highly developed in Echinoderms. 

 Defects in tlie body wall are in this way easilj' and quickly repaired in all Echino- 

 denns. The Ecliinoidca, even, in which this capacity is in other ways slightly 

 developed, easily repair smaller or greater defects in the body epithelium which covers 

 the test. For example, in Dorocidaris papillata, portions of the test over which 

 the epithelium has been damaged or destroyed are cast oft", and as soon as a fresh 

 integument has formed a new test can undoubtedly be produced below it. 



The capacity for regeneration may increase to an extraordinary degree within the 

 difl"erent divisions, and the sensitiveness to external stimulus increases in proportion, 

 till a stage is reached when voluntary aminitation by meaiis of muscular contraction 

 takes place in response to external stimuli. 



The Crinoids completely regenerate lost viscera, and it even appears as if such 

 loss is not altogether involuntary, in certain species and under certain conditions 

 voluntary amputation taking place. This, however, is not certain. 



Crinoids easily regenerate broken-off portions of arms or whole arms ; several oi- 

 indeed all the arms may, under favourable circumstances, be regenerated. The arms 

 break off' easily at their bases ; it even apjiears as U Ante don, in response to injurious 

 stimuli, voluntarily throws off" its arms. 



The regeneration of the portions of arms (bitten off", possibly by enemies) or of 

 whole arms takes place very easily in many Asteroidea and OpMuroidca. The 

 frequency with which Asteroids and OjMurids with regenerated arms or arm tips are 

 met with demonstrates both the frequency of mutilation and the great utility of 

 regeneration. 



Species of Asteroids in which the disc with the other arms are regenerated at the 

 base of broken-off" arms are less common. Such regenerations give rise to the well- 

 known "comet" form oi Asteroids {Y\g. 397, B). Regeneration of the whole body 

 from one arm never occurs in Opliiurids. It has been suggested that the difl'erence 

 between Asteroids and Ophiurids in this respect is connected with the fact that, in 

 Asteroids, intestinal diverticula project into the arms, and that the genital products 

 are often developed in them, which is never the case in Ophiurids. 



Animals in which half the disc is retained can regenerate the rest of the body 

 both among the Ophiuroidea and the Asteroidea. 



Defects both great and small in the disc are repaired. 



In Linekia mnltifora, an Asteroid distinguished by an extraordinary capacity for 

 regeneration, cases have Iieen known in which, after the animal lias lost the greater 

 part of an arm, two new tips have been formed by the wounded surface, and in one 

 case regeneration led to the formation of a complete new Asteroid at such a 

 point. This latter case is illustrated in outline in Fig. 397 C. The new animal 

 consists of two discs Avitli their arms, connected by the regenerating stumj) of the 

 arm. 



Holothurioidea. — Here also the capacity for generation seems to be very great. 

 Not only are tentacles and integumental defects repaired, but the ejected viscera 

 (intestine, respiratory trees, and even the calcareous ring, the water vascular ring, 

 and the gonads) can be regenerated. In Synapta, after the body has been completely 

 cut to pieces, its antei'ior portion can regenerate the whole. In a Cucmnarin, the 

 two sejiarate halves can grow into complete animals. 



Increase in the capacity for regeneration is accompanied by increased irritability. 

 Many Holothurioidea, especially Aspidochirota:, when strongly stimulated, contract 



