REPORT ON THE RADIOLARIA. 1713 



ventral) axis, determining the height of the shell, has on its dorsal (or upper) pole 

 the apex or highest point of the dorsal valve, on its ventral (or lower) pole the apex or 

 lowest point of the ventral valve. The two poles of the frontal (lateral or transverse) 

 axis are equal and are determined by the two parapylse of the capsule, and the corre- 

 sponding points of the shell-fissure between both valves. Usually the main-axis is the 

 longest, the frontal axis the shortest, and between both the sagittal axis. 



In regard to the three dimensive planes which are determined by these three axes, 

 perpendicular to one another, they are rarely of nearly equal size (as in some subspherical 

 species), usually the sagittal plane (separating the right and left halves of the body) is the 

 largest ; the cinctural or equatorial plane (separating oral and aboral halves) is the 

 smallest, and the frontal or lateral plane (separating dorsal and ventral halves) is 

 intermediate in size. The relation of the three perimeters of these three planes 

 corresponds to that proportion ; the sagittal perimeter (in which the keel of the 

 compressed valves lies) is the largest ; the cinctural or equatorial perimeter (separating 

 the anterior phteodium and the posterior central capsule) is the smallest, and the 

 frontal or lateral perimeter (in which the fissure between the valves lies) is intermediate 

 in size. 



The general form of the single valves is very varied in the different species, in the 

 majority boat-shaped or hat-shaped, more or less laterally compressed, in a few forms 

 hemispherical. In Conchopsis (PI. 125) and Conchoceras (PI. 124, figs. 15, 16) the 

 lateral parts of the valves (right and left) are vaulted, whilst their median parts are so 

 strongly compressed that they form a sharp sagittal keel, and then the shell in the 

 dorsal or ventral view appears spindle-shaped (PL 123, fig. 8a ; PL 125, fig. 8). 

 Often the frontal margins of the valves are somewhat constricted (PL 124, fig. 7). 



The junction between the two valves of the shell is always loose, but not so loose 

 as in the two following families. In the Ccelodendrida and Coelographida the two 

 valves are either perfectly free and separated by a frontal zone of jeUy, or in very 

 loose contact on the frontal margins. In the Concharida, however, the margins of both 

 valves seem to be usually in contact, and their connection is effected in a double way. 

 In the subfamily Conchasmida (comprising the genera Concharnim and Conchasma, 

 PL 123, figs. 1—6) the lateral margins of both valves are smooth, not dentated, and 

 fit one into another like the two parts of a box, or like the two valves of a Diatom 

 {Navicula). In the second subfamily, however, Conchopsida (comprising the five 

 other genera. Pis. 124, 125), the lateral margins of the valves are dentate, usually 

 provided with a series of numerous strong conical teeth, and the teeth of both valves 

 so catch into one another, that their union is rather firm (Hke the margin of the shells of 

 Triclacna, Pecten, and other Lamellibranchiata). Besides, a more solid junction is often 

 efi"ected on the posterior or aboral part of the margins, which we shall call the hinge. 

 Here often peculiar strong teeth catch one into another, and in the majority of species 



(ZOOL. CHALL. EXP. — PART XL. — 1886.) Rr 215 



