The functional morphology of the organs of feeding and digestion of the hydrothermal vent bivalve Calyptogena magnifica (Vesicomyidae)

Abstract

The discovery, around Galapagos Rift hydrothermal vents, of an unique community of animals dependent upon the chemoautotrophic oxidation of hydrogen sulphide by bacteria, has aroused wide interest. In the gutless pogonophoran Riftia pachyptila. trophosomal symbiotic bacteria are thought to be principally responsible for this unique form of nutrition. Similar symbiotic bacteria have been postulated for the ctenidia of the Rift clam Calyptogena magnifica. Such a mode of nutrition was deemed necessary since Calyptogena was thought not to possess ctenidial food grooves, thereby making normal filter‐feeding impossible. This study reports upon the anatomy of a specimen of C. magnifica and demonstrates the presence of narrow ctenidial food grooves and the normal bivalve complement of feeding and digestive organs. Using a variety of general bacterial and DNA specific stains, no evidence of symbiotic intracellular bacteria has been found in the ctenidia (or any other tissues). It is concluded that C. magnifica is principally a filter feeder, albeit with modification for collecting and processing a diet of bacterial cells, with the possibility (as in all bivalves) of direct absorption. High chemoautotrophic activity levels in the ctenidia probably result from entrapment of vent water bacteria collected during filter feeding.