The Biological Bulletin, Vol 193, Issue 1 90-96, Copyright © 1997 by Marine Biological Laboratory

PHYSIOLOGY

Reduction of Growth Rate as the Major Process in the Miniaturization of the Sand Dollar Sinaechinocyamus mai

C. P. Chen and C. M. Chao
Institute of Zoology, Academia Sinica, Nankang, Taipei, Taiwan 115, Republic of China

Sinaechinocyamus mai is an extremely small sand dollar, the maximum size being 10.9 mm. It has been suggested that Sinaechinocyamus is a miniaturized progenetic sand dollar that closely resembles the juveniles of Scaphechinus. In this study, we investigated the mechanisms responsible for the miniaturization. Our analysis of population dynamics, maturity, and annual reproductive cycles suggests that the growth rates of S. mai are about 19% the growth rates of Scaphechinus mirabilis, which reaches a maximum size of 88 mm. The developmental stages of oral and aboral surfaces were defined on the basis of the number of discontinuous interambulacral plates and the number of tube-foot porepairs, pairs, respectively. The patterns of the oral and aboral surfaces of the two species were compared, both at original size and after the Scaphechinus mirabilis pattern had been reduced to a size proportional to that of S. mai (i.e., to 19% original). On the oral surface, the patterns were different at the original sizes, but similar when the proportional sizes were compared; this indicates that the development of the oral plates is age-dependent in S. mai. On the aboral surface, the patterns were similar at the original sizes, but different in the proportional comparison, indicating that the development of the aboral plates is size-dependent in S. mai. S. mai becomes sexually mature at the age of 2 years, and Scaphechinus mirabilis matures probably at about the same age. Our data suggest that the reduction of growth rate (neoteny) is a more important mechanism of miniaturization in S. mai than is precocious cessation (progenesis).