ORGAN OF SIGHT IN FISHES. 



333 



217 



meridians of a globe, to two opposite points or poles of the sphe- 

 roid : in the Salmonidce and Shark, they converge to a linear tract 

 or septum at each pole, as in fig 

 218. In the fibres of the lens 

 of a cod Brewster discovered 

 the marginal teeth, like those of 

 rack-work, by which the fibres 

 are interlocked together, as in 

 fig. 217. 



This acute observer computes 

 five millions of fibres and sixty- 

 two thousand five hundred mil- 

 lions of teeth in the lens of a cod : 

 yet in the living and fresh state 

 this organ is transparent. 



The radiating fibres and elong- 

 ated cells of the hyaloid tissue, 1 

 with the interstitial ( vitreous 



hlimOUr,' present a firmer COn- Fibres of lens, highly magnified, showing inter- 

 . ,1 ,1 locking of their toothed margins, ccxm 



sistency than in the human eye, 



and show their intimate structure and arrangement more clearly 



under the microscope than in Mammalia. 



The membranes situated between the retina and sclerotica, 

 called collectively ( choroid 

 tunic,' are three in num- 

 ber : the external layer in 

 Osseous Fishes, called ( mem- 

 Irana aryenteaj fig. 216, e, is 

 composed chiefly of micro- 

 scopical acicular crystals 

 reflecting a silvery, or some 

 times a golden lustre, with a 

 delicate cellular basis, which 

 assumes more firmness where 

 it is continued upon the iris. 

 The second or middle layer 

 is the ( membrana vasculosaj 

 sen ' Halleriy ib. jf, and, as 

 its name implies, is the chief 



. . Arrangement of fibres of leiis, Salmon, ccxiu. 



seat of the ramifications of 



the choroid vessels : it also supports the ciliary nerves. The 



218 



1 LXY. 



