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Epibiosis in deep-sea crab populations as indicator of biological and behavioural characteristics of the host

Published online by Cambridge University Press:  11 May 2009

P. Abelló
Affiliation:
Institut de Ciències del Mar, Passeig Nacional s/n, 08039 Barcelona, Spain
R. Villanueva
Affiliation:
Institut de Ciències del Mar, Passeig Nacional s/n, 08039 Barcelona, Spain
J. M. Gili
Affiliation:
Institut de Ciències del Mar, Passeig Nacional s/n, 08039 Barcelona, Spain

Extract

Incidence of epibiosis has been studied in the deep-water portunid crab Bathynectes piperitus in the Benguela upwelling region. The serpulid polychaete Spirorbis cf. patagonicus, the hydroid Stegopoma plicatile and the stalked cirripede Poecilasma kaempferi were the commonest epizoitic species. Analysis revealed some biological and ecological features of the host population: the species does not have a terminal moult; both sexes show different moulting patterns; sexual maturity occurs at around 35 mm carapace length; there is asynchronous moulting among different sub-populations in different geographical areas; burying behaviour appears to be not very widespread.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 1990

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References

Abelló, P. & Macpherson, E., 1989. Distribution of Bathynectes piperitus (Brachyura: Portunidae) in the Benguela upwelling region and its relationship with some environmental parameters. Journal of Crustacean Biology, 9, 373380.CrossRefGoogle Scholar
Barnes, H. & Bagenal, T.B., 1951. Observations on Nephrops norvegicus (L.) and on an epizoic population of Balanus crenatus Brug. Journal of the Marine Biological Association of the United Kingdom, 30, 369380.CrossRefGoogle Scholar
Bowers, R.L., 1968. Observations on the orientation and feeding behavior of barnacles associated with lobsters. Journal of Experimental Marine Biology and Ecology, 2, 105112.CrossRefGoogle Scholar
Carlisle, A.I., 1953. Observations on the behaviour of Dromia vulgaris Milne Edwards with simple ascidians. Pubblicazioni della Stazione Zoologica di Napoli, 24, 142151.Google Scholar
Choy, S.C., 1988. Reproductive biology of Liocarcinus puber and L. holsatus (Decapoda, Brachyura Portunidae) from the Gower Peninsula, South Wales. Marine Ecology, 9, 227241.CrossRefGoogle Scholar
Connell, J.H. & Keough, M.J., 1985. Disturbance and patch dynamics of subtidal marine animals on hard substrata. In The Ecology of Natural Disturbance and Patch Dynamics (ed. S.T.A, Pickett and P.S, White), pp. 125151. San Diego: Academic Press, Inc.Google Scholar
Connell, J.H. & Slatyer, R.O., 1977. Mechanisms of succession in natural communities and their role in community stability and organization. American Naturalist, 111, 11191144.CrossRefGoogle Scholar
Coutress, C., Ross, D.M. & Sutton, L., 1970. The association of Calliactis tricolor with its pagurid, calappid, and majid partners in the Caribbean. Canadian Journal of Zoology, 48, 371376.CrossRefGoogle Scholar
Gili, J.M., Wervoort, W. & Pagé, F., 1989. Hydroids from the West African coast: Guinea Bissau, Namibia and South Africa. Scientia Marina, 53, 67112.Google Scholar
González-Gurriarán, E., 1985. Reproducci´on de la nécora Macropipus puber (L.) (Decapoda, Brachyura), y ciclo reproductive en la Ríde Arousa (Galíci-a, NW Espafta). Boletín del Instituto Espanol de Oceanograft'a, 2, 1032.Google Scholar
Hartnoll, R.G., 1969. Mating in the Brachyura. Crustaceana, 16, 161181.CrossRefGoogle Scholar
Lewis, E.G., 1976. Epizoites associated with Bathynectes superbus (Decapoda: Portunidae). Fishery Bulletin. National Oceanic and Atmospheric Administration of the United States, 74, 225227.Google Scholar
Macpherson, E., Roel, B. & Morales, B., 1985. Reclutamiento de la merluza y distribución de diferentes especies comerciales en las divisiones 1.4 y 1.5 durante 1983–1984. Collection of Scientific Papers International Commission for the South East Atlantic Fisheries, 12, 161.Google Scholar
Margolis, L., Esch, G.W., Holmes, J.C., Kuris, A.M. & Schad, G. A., 1982. The use of ecological terms in parasitology (report of an ad hoc committee of the American Society of Parasitologists). Journal of Parasitology 68, 131133.CrossRefGoogle Scholar
Melville-Smith, R., 1985. Density distribution by depth of Geryon maritae on the northern crab grounds of South West Africa Namibia determined by photography in 1983, with notes on the portunid crab Bathynectes piperitus. South African Journal of Marine Science 3, 5562.CrossRefGoogle Scholar
Mori, M. & Zunino, P., 1987. Aspects of the biology of Liocarcinus depurator (L.) in the Ligurian Sea. Investigación Pesquera, 51 (supplement 1), 135145.Google Scholar
Ross, D.M., 1983. Symbiotic relations. In The Biology of Crustacea, vol. 7. Behavior and Ecology (ed. Vernberg, S. J and Vernberg, W.B), pp. 163212. New York: Academic Press.Google Scholar
Seed, R., 1985. Ecological pattern in the epifaunal communities of coastal macroalgae. In The Ecology of Rocky Coasts (ed. Moore, P. G and Seed, R), pp. 2235. London: Hodder and Stoughton.Google Scholar
Williams, R. & Moyse, J, 1988. Occurrence, distribution, and orientation of Poecilasma kaempferi Darwin (Cirripedia: Pedunculata) epizoic on Neolithodes grimaldi Milne-Edwards and Bouvier (Decapoda: Anomura) in the northeast Atlantic. Journal of Crustacean Biology, 8, 177186.CrossRefGoogle Scholar