Gametic, morphometric, and physiological variables influencing clutch size in the Chilean oyster, Ostrea chilensis (Philippi, 1845)

A number of marine bivalve taxa, including species of the genus Ostrea, have adopted brooding of the young in the mantle cavity as a reproductive mechanism. In spite of the importance of brooding in the reproductive success of such species, little is known about the most important variables influencing the process, including those limiting clutch size. This study addresses the regulation of brood size in the hermaphroditic oyster Ostrea chilensis. During spawning, oysters released all their oocytes into the mantle cavity. No residual oocytes remained in the gonad, so a second spawning during the same brooding season was not possible. There was a weak correlation between the number of embryos incubated during the early phase of brooding and the dry tissue weight of the brooding oyster, and between the number incubated and the shell length of the brooding adult during the later phases of brooding. The number of embryos was also correlated with the area of the labial palps of the brooder during the later stages, suggesting that the loss of veligers observed at this time may be at least partially attributable to a limitation of space around the palps, which manipulate the larvae and with which the larvae are closely associated. The oxygen consumption rate of brooders incubating a normal clutch of embryos was not significantly different from that of oysters in which clutch size had been experimentally reduced by 50%. Experimental increase of the normal clutch size by 100% significantly increased the oxygen consumption of the brooder, suggesting that there is a physiological as well as a spatial limit to brood size. Thus the number of embryos brooded by an oyster is initially dependent on its production of oocytes and secondarily by the high metabolic costs of incubating large numbers of embryos. As development proceeds, space available for brooding apparently becomes a limiting factor as the larvae grow. The fate of the excess larvae is not known at present, but any larvae released prematurely cannot be competent to settle, since development is synchronous and there is a complete release of all pediveligers at the end of the brooding period. (c) 2008 Elsevier B.V All rights reserved.