Hostname: page-component-cd9895bd7-q99xh Total loading time: 0 Render date: 2024-12-22T23:48:59.436Z Has data issue: false hasContentIssue false

The energetics of tube production by Mercierella enigmatica (Polychaeta: Serpulidae)

Published online by Cambridge University Press:  11 May 2009

David R. Dixon
Affiliation:
Institute for Marine Environmental Research, Prospect Place, The Hoe, Plymouth

Extract

The production of tubes by the serpulid polychaete Mercierella enigmatica is compared with somatic growth and reproduction, and is shown to account for the greatest portion of production energy expenditure.

INTRODUCTION

The tube of a serpulid polychaete consists of two major fractions, a conspicuous calcareous component comprising small crystals of aragonite or calcite, and a more diffuse organic matrix (Hedley, 1956; Neff; 1971). The continuity of the organic matrix was demonstrated by Hedley (1956), who showed that careful decalcifkation failed to disturb the form of the tube of Pomatoceros triqueter (L.).

The serpulid Mercierella enigmatica Fauvel (Ficopomatus enigmaticus cf. ten Hove & Weerdenburg, 1978) secretes a hard, calcareous tube shortly after it settles from the plankton (Rullier, 1955; Vuillemin, 1965). Initially, tube growth is relatively fast, but as the tube increases in length so the rate of growth declines. However, the tube of the adult worm can be as much as 80 mm in length, or more than four times the length of its body.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 1980

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Brody, S., 1945. Bioenergetics and Growth. 1023 pp. New York: Reinhold.Google Scholar
Clark, G. R., 1976. Shell growth in the marine environment: approaches to the problem of marginal calcification. American Zoologist, 16, 617626.CrossRefGoogle Scholar
Clayden, E., 1952. A discussion on the preparation of bone sections by the paraffin wax method with special reference to the control of decalcification. Journal of Medical Laboratory Technology, 10, 103123.Google Scholar
Dixon, D. R., 1976. The energetics of growth and reproduction in the brackish water serpulid polychaete, Mercierella enigmatica Fauvel. In Population Dynamics. Proceedings of the 10th European Symposium on Marine Biology, vol. 2, Ostend, Belgium, 1975 (ed. G., Persoone and E., Jaspers), pp. 197209. Wetteren, Belgium: Universa Press.Google Scholar
Dixon, D. R., 1977. The Energetics of the Brackish Water Serpulid, Mercierella enigmatica Fauvel. Ph.D. Thesis, University of London.Google Scholar
Dragastan, O., 1966. A new serpulid in the upper Jurassic of Rumania. Paleontologicheskii zhurnal, 40,147150.Google Scholar
Ewer, D. W. & Hanson, J., 1945. Some staining reactions of invertebrate mucoproteins. Journal of the Royal Microscopical Society, 65, 4043.CrossRefGoogle Scholar
Hedley, R. H., 1956. Studies of serpulid tube formation. I. The secretion of the calcareous and organic components of the tube of Pomatoceros triqueter. Quarterly Journal of Microscopical Science, 97, 411419.Google Scholar
Heldt, J., 1944. Sur la présence de Mercierella enigmatica Fauvel serpulien d'eau saumâtre dans eaux tres salées du lac de Tunis. Station Océanographique Salammbô, Notes no. 30, 4 pp.Google Scholar
Hove, H. A. Ten & Weerdenburg, J. C. A., 1978. A generic revision of the brackish-water serpulid Ficopomatus Southern 1921 (Polychaeta: Serpulinae), including Mercierella Fauvel 1923, Sphaeropomatus Treadwell 1934, Mercierellopsis Rioja 1945 and Neopomatus Pillai 1960. Biological Bulletin. Marine Biological Laboratory, Woods Hole, Mass., 154, 96120.CrossRefGoogle Scholar
Hughes, R. N., 1970. An energy budget for the tidal-flat population of the bivalve Scrobicularia plana (Da Costa). Journal of Animal Ecology, 39, 357381.CrossRefGoogle Scholar
Hughes, R. N., 1971 a. Ecological energetics of Nerita (Archaeogastropoda, Neritacea) populations on Barbados, West Indies. Marine Biology, 11, 1222.CrossRefGoogle Scholar
Hughes, R. N., 1971 b. Ecological energetics of the keyhole limpet Fissurella barbadensis Gmelin. Journal of Experimental Marine Biology and Ecology, 6, 167178.CrossRefGoogle Scholar
Mitterer, R. M., 1971. Comparative amino acid composition of calcified and non-calcified polychaete worm tubes. Comparative Biochemistry and Physiology, 38 B, 405409.Google Scholar
Muzii, E. O., 1968. A coating membrane in the calcareous tube of serpulids. Pubblicazioni della Stazione zoologica di Napoli, 36,135137.Google Scholar
Neff, J. M., 1971. Ultrastructure of calcium phosphate-containing cells in the serpulid polychaete worm Pomatoceros caerulus. Calcified Tissue Research, 7, 191200.CrossRefGoogle Scholar
Nelson-Smith, A., 1967. Catalogue of Main Marine Fouling Organisms. Vol. 3. Serpulids, 79 pp. Paris: Organisation for Economic Co-operation and Development.Google Scholar
Por, F. D. & Dor, I., 1975. Ecology of the metahaline pool of Di Zahar, Gulf of Elat, with notes on the Siphonocladacea and the typology of near-shore marine pools. Marine Biology, 29, 3744.CrossRefGoogle Scholar
Remy, P., 1937. Sur Marifugia cavatica Absolon et Hrabe, serpulide des eaux douces souterraines du karst adriatique. Bulletin du Muséum d'histoire naturelle, 9, 6672.Google Scholar
Rullier, F., 1955. Développement du serpulien Mercierella enigmatica Fauvel. Vie et milieu, 6, 225240.Google Scholar
Straughan, D., 1972. Ecological studies of Mercierella enigmatica Fauvel (Annelida: Polychaeta) in the Brisbane River. Journal of Animal Ecology, 41, 93135.CrossRefGoogle Scholar
Sutherland, J. P., 1972. Energetics of high and low populations of the limpet, Acmaea scabra (Gould). Ecology, 53, 430437.CrossRefGoogle Scholar
Tebble, N., 1953. A source of danger to harbour structures. Encrustation by a tubed marine worm. Journal of the Institute of Municipal Engineers, 80, 259265.Google Scholar
Vuillemin, S., 1965. Contribution a I'Etude Ecologique du Lac de Tunis. Biologie de Mercierella enigmatica Fauvel. Première thèse pour Docteur-dès-Sciences Naturelles, Paris.Google Scholar