690 THE VOYAGE OF H.M.S. CHALLENGEK. 



Since the spiral line lies in the median plane, we will call it the spiral plane ; it separates 

 the right half from the left. The axis of the body, around which the spiral turns (with- 

 out touching it), is the spiral axis. The latticed part of the cortical shell, which turns 

 around them, is the spiral lamella. Only in one genus of our family, viz., Tholospira, are 

 the spiral axis, the lateral axis, the spiral plane, and the sagittal plane quite as in 

 Nautilus. In all other genera this disposition is different or is uncertain. This depends 

 on the different part of the cortical shell, from which the spiral growth begins. In this 

 respect we can distinguish four different modes. 



In the Larcospirida (or the Lithelida with Zarnac^7Za-shaped medullary shell) the spiral 

 growth exhibits four quite different forms. It begins here with Larcospira, in which 

 already the first cortical girdle of the Diplozonaria determines the spiral growth ; one wing 

 of this girdle, the transverse girdle of Amphipyle, grows more swiftly than the other, 

 overgrows it, and thus turns around the principal axis. In Pylospira the first or 

 transverse girdle is already perfectly formed (as in Amphipyle), and the spiral growth is 

 introduced by the second or lateral girdle of Tetrapyle ; one wing of it (the right or 

 the left) grows more swiftly than the other, overgrows it, and thus turns around the 

 sagittal axis. In Tholospira also the second girdle is complete, and the spiral growth 

 begins from the third or sagittal girdle. One of its wings grows more swiftly than the 

 other, overgrows it, and thus turns around the transverse axis. Consequently we see 

 that each of the three dimensive planes of the lenteUiptical Larcoid-body may be the 

 spiral plane : in Larcosp>ira the transverse plane, in Pylosjnra the lateral plane, in 

 Tholospira the sagittal plane. Correspondingly the spiral axis in the first genus is the 

 principal, in the second the sagittal, in the third the trsnsverse axis of the central 

 Larnacilla-shell. Therefore in these three genera the spiral plane is the plane of the 

 latticed girdle, which determines the spiral growth, one of Iwth its wings overgroAving 

 the other. 



In each of the three above mentioned genera the spiral may be simple or double ; 

 it remains simple if only one of both Avings of the turning girdle overgrow the other, 

 and this latter remain a simple half-girdle (or tube-like wing). Whereas the spiral 

 becomes double if the second wing of the girdle afterwards follow the example of the first 

 wing and now turn around it in the same direction. As this happens in all three genera, 

 we can subdivide them into six subgenera. 



A quite peculiar form of spiral growth is produced in Spironium, in which the 

 direction of growth in both lateral wings of the transverse girdle is inverse from the 

 beginning. The left wing grows against the posterior, the right wing against the anterior 

 pole of the principal axis, turning around it in crossed, eight-like spirals. The whole 

 shell afterwards assumes a lenteUiptical form. 



Commonly between the embracing spiral turnings or convolutions a great number of 

 radial beams is developed, irregularly disposed and often branching ; they support the 



