80G TilE VOYAGE OF H.M.S. CHALLENGER. 



circumpolar meshes (each between two polar and one tropical spine, a h a and e d e); eight 

 quadranoular tropical meshes (each between one polar, one equatorial, and two tropical 

 spines, a h ch and e d c d) ; and four rhomboidal equatorial meshes (between two tropical 

 and two equatorial spines, cb c d). If the fork -branches be again forked (Phractasjyidium, 

 PI. 137, fig. 3), the number of the sutures and sutural meshes is doubled, and the same 

 is the case in Stauraspis, the most simple form of the Tessaraspida. 



A peculiar small group, and an interesting transition from the C 1 a d o p h r a c t a 

 to the P e 1 1 23 h r a e t a, is presented by the Zonaspida among the Tessaraspida 

 {Zonaspis and Dodecaspis). Here only one part of the radial spines bears lattice-plates, 

 the other part not. In Zonaspis the four equatorial spines bear lattice-plates, the 

 sixteen other only free branches of the apophyses. In Dodecasp>is twelve spines are 

 jjrovided with lattice-plates (four ecpatorial and eight polar spines), whilst the eight 

 other (tropical) spines are devoid of them. 



The Peltophracta exhibit a great variety in the form and composition of theii- 

 twenty lattice-plates or fenestrated shields. In the most simple case (a part of Dorat- 

 aspis and Diporaspis) the shell is composed of four (equatorial) hexagonal plates, and 

 sixteen pentagonal plates (four tropical and four polar); in this case the four polar 

 plates meet on each pole in one common point. More commonly, however, the shell 

 seems to be composed of eight hexagonal plates (four equatorial and the four polar 

 spines of the hydrotomical plane) and twelve pentagonal plates (eight tropical and the 

 four polar spines of the geotomical plane); in this case only tw^o (hexagonal) polar plates 

 meet on each pole in a suture which separates the two other (pentagonal) polar plates 

 (PL 138, fig. 4). In the majority of the Dorataspida the composition of the shell is 

 much more complicated and often very difficult to understand. Often the surface of 

 the plates is covered with a network of elevated crests, by which concave blind dimples 

 ;are separated (Ceriaspis, Hystrichaspis, PL 138); and sometimes these dimples become 

 pierced by coronal pores (PL 138, fig. 11, &c.). 



Peculiar by-spines or " accessory spines " cover the outer surface of the shell in a 

 o-reat part of Dorataspida, and commonly these most characteristic by-spines are not 

 placed radially, but parallel to the radial spine, from the lattice-plate of which they 

 arise (PL 135, figs. 1,5; PL 137, figs. 4-8 ; Monogr. d. Radiol., 1862, Taf. xxL figs. 

 8,9). They are commonly placed perpendicular to the sutural condyles, or the branch- 

 ends of the apophyses ; so that close to each suture arises a pair of divergent by-spines, 

 belonging to the meeting apophyses of the two neighbouring spines, which meet in 

 the suture (PL 137, fig. 4). Rarely these thin, bristle-shaped by-spines are quite simple 

 and straight, commonljr they undulate or are zigzag and often armed with recurved 

 hooks. Sometimes they are also forked or arborescent (PL 138, fig. 7). 



Tlie Centred Capsule of the Dorataspida is constantly spherical and about one-third 

 smaller than the enclosing shell, from which it is separated by the spherical calymma. 



