Larval Attachment by Eversion of the Internal Sac in the Marine Bryozoan Bowerbankia gracilis (Ctenostomata: Vesicularioidea): A Muscle‐Mediated Morphogenetic Movement

Abstract

AbstractThe larval morphology and settlement of the vesicularioid ctenostome bryozoan Bowerbankia gracilis has been investigated by light and electron microscopy in an attempt to elucidate the mechanism of attachment to the substratum at the onset of metamorphosis. The oral epithelium in the free‐swimming larva is infolded to form a glandular internal sac at the oral pole. The internal sac is not specialized into distinct regions, but consists of a uniform, simple columnar epithelium filled with secretory granules. The hemispherical internal sac is underlain by a cup‐shaped layer of undifferentiated cells that constitutes the polypide rudiment. The cupiform layer of undifferentiated cells is in turn embraced by a network of muscle fibers called the rete muscularis. At the onset of metamorphosis, the larva constricts oro‐laterally and the internal sac is everted against the substratum. As the sac everts, the glandular cells secrete an adhesive that is wafted up over the metamorphosing larva by the reversed beating of the coronal cilia. At the same time, the cupiform layer of undifferentiated cells flattens in the plane of the oro‐lateral constriction and doubles in thickness. The cells of the cupiform layer undergo a corresponding transformation from short columnar cells to flask‐shaped cells that bulge into the glandular cells of the internal sac. The narrow ends of the flask‐shaped cells abut the strongly contracted muscle fibers of the rete muscularis. It is hypothesized that the contraction of the muscle fibers of the rete muscularis is responsible for the change in shape of the undifferentiated cells and, consequently, for the eversion of the internal sac. On the basis of this study and a review of the literature, it is concluded that attachment to the substratum at the onset of metamorphosis typically is effected by the eversion of an internal sac in larvae of the ctenostome superfamily Vesicularioidea.