Morphology and orientation of tube extensions on aggregations of the polychaete annelid Phragmatopoma californica

The morphology of organisms can influence fluid flow near their surfaces which, in turn, can influence the rates of mass exchange as well as the ability of the animals to capture and retain particles. In this paper, the morphologies and orientations of extensions on the tubes of aggregated individuals of the sabellariid polychaete Phragmatopoma californica from different habitats are described. The effects of these structures on fluid exchange and feeding-tentacle deflection are also assessed. The tube shape of aggregated P. californica varies among habitats. In exposed habitats, extensions on tubes (flares) encircle the entire circumference of the worms' apertures. In more protected habitats, extensions (hoods) partially encircle the circumference of apertures and are oriented so that the opening of the hood faces into the predominant direction of water flow over the aggregation. After the surface structures are damaged, hoods are repaired more quickly than flares. In this study, all damaged hodds were repaired within 24 h while flares were fully repaired only after 240 h. The repaired hoods are oriented in the same direction as the original structures Both hoods and flares decrease the rate of fluid exchange between the aggregation surface and the mainstream water flow. These structures also decrease the deflection of the feeding tentacles by the water flow. The orientation of the hoods relative to the direction of water flow affects both the rates of fluid exchange and the deflection of the tentacles.Present address: Hawaii Institute of Marine Biology, P.O. Box 1346, Kaneohe, Hawaii 96744, USA