448 COMPARATIVE AXATUMY chap. 



it communicates, bj' means of numerous apertures, with the general 

 body cavity, and at one point of the pseudohiemal ring, in the madre- 

 poritic interradius with the axial sinus. 



The pseudohasmal system, in the Ojihiuividea and Asttroidea, is 

 said to arise, ontogenetically, as a cleft in the connective tissue 

 (mesencliyme), and thus to be a sehizoeoelomie structure. It is, 

 however (as lias been proved in the Holotharioidea), lined with endo- 

 thelium. Such a lining, in the case of a sehizoeoelomie cavity is, how- 

 ever, so incongruous, that we are justified in desiring further evidence. 

 (For the position of these canals, see Figs. 3.32-3:i6, pp. 409-413.) 



Special. — In the Solotliurioidca the oral pseiulohjemal ring is, in the Paractinopoda 

 {,S/ina2>tidcc), separated from each of the radial pseudohiemal canals by a septum. 

 The piseudohaemal canals stretch only a short way backwards. In the Actin023oda, 

 they run the whole length of the body, but are said also to end blindly at both ends, 

 and the pseudohfemal ring is said to be wanting. The same is the case with the 

 well-developed radial pseudohfemal canals of the Echinoidca. In the Crinoidea the 

 canals are certainly very much reduced, their existence is altogether denied by some 

 authors. The pseudohfemal canals of the Ophiiirotdca give off lateral branches at 

 regular segmental intervals ; these branches ascend to the brachial cavity (dorsal 

 canal), and open into it. In the Aslcroidea, both the circular and the radial vessels are 

 divided into two by a longitudinal septum. In the radial canals the septum is vertical, 

 in the pseudohfemal ring it runs slantingly, dividing it into an outer and lower and 

 an inner and upper canal. The latter, the inner and upper canal, in the madreporitic 

 interradius, communicates with the axial sinus ; the former, the outer and lower 

 canal, is in open communication with the body cavity of the disc by means of five 

 ascending, interradial, lateral canals. At regular intervals, between every two 

 consecutive tube-feet, each radial pseudohamial canal is connected with two marginal 

 canals which run longitudinally at the edges of the ambulacral furrow. Each tube- 

 foot receives two canals from the pseudohfemal system, which run to its tip ; one of 

 these comes from the radial canal, and the other from the lateral canal. The lateral 

 canal, further, sends off at each corner between two consecutive ambulacral plates 

 and the contiguous adambulaoral plate, a lateral branch, which runs up between 

 these plates. This lateral branch opens into the brachial cavity. 



Two specially interesting facts deserve notice : (1) the mesentery by means of which 

 the axial organ is attached to the wall of the axial sinus is continued into the septum 

 of the pseudohfemal ring, and through this into the septum of the radial pseudo- 

 hfemal canals ; and (2) the axial organ, although in a reduced condition, may even 

 be produced along a greater or smaller portion of these septa. These facts throw 

 further doubt upon the schizoccelomio nature of the pseudohfemal canals. 



IX. The Epineural System. 



In the Holotlburioideii , the Echinoidea, and the OpJiiuroidea the oral 

 nervous system is accompanied by canals known as the epineural 

 eanals, which run between it and the adjacent body epthelium. 

 This epineural system thus rejaeats on the outer side of the oral 

 nervous system the psendohsemal system which accompanies the 

 nerves on their inner side, and, like the latter system, it consists of 

 an oral circular canal, and radial canals. In the Asteroidea and 



