Abstract
A population of Littorina littorea on the north shore of Southampton Water, UK, has been examined for the occurrence of epifauna. Epifaunal cover was not affected by shore level below MTL but was greatest on larger shells, which were commoner on the lower shore close to MLWS. Epifaunal components included barnacles, serpulids and bryozoans. The polychaete Polydora ciliata occurred most frequently on the lower shore where it excavates galleries in periwinkle shells. Heaviest infestations were found in larger shells. P. ciliata settles preferentially in or beside irregularities on the shell surface. Settlement of barnacles close to the shell aperture, where new shell growth takes place, produces shell distortion which creates sites for settlement of R ciliata. The angle between serpulid tubes and the shell surface also attracts P ciliata. It is suggested that colonisation by barnacles and serpulids facilitates settlement by R ciliata, and that the latter decreases survival of the host by progressively destroying the shell.
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References
Ambariyanto & R. Seed, 1991. The infestation of Mytilus edulis Linnaeus by Polydora ciliata ( Johnston) in the Conway Estuary, North Wales. J. moll. Stud. 57: 413–424.
Blake, J. A., 1969. Reproduction and larval development of Polydora from northern New England ( Polychaeta: Spionidae). Ophelia 7: 1–63.
Buckley, W. J. & J. P. Ebersole, 1994. Symbiotic organisms increase the vulnerability of a hermit crab to predation. J. exp. mar. Biol. Ecol. 182: 49–64.
Butler, A. J., 1991. Effect of patch size on communities of sessile invertebrates in Gulf St Vincent, South Australia. J. exp. mar Biol. Ecol. 153: 255–280.
Crisp, D. J. & H. Barnes, 1954. The orientation and distribution of barnacles at settlement with particular reference to surface contour. J. anim. Ecol. 23: 142–162.
Dorsett, D. A., 1961. The behaviour of Polydora ciliata (Johnst.). Tube-building and burrowing. J. mar. biol. Ass. UK 41: 577–590. Fish, J. D., 1972. The breeding cycle and growth of open coast and estuarine populations of Littorina littorea. J. mar. biol. Ass. UK 52: 1011–1019.
Fretter, V. & A. Graham, 1994. British prosobranch molluscs, 2nd edition. Ray Soc. London, 820 pp.
Harper, E. M. & P. W. Skelton, 1993. A defensive value of the thickened periostracum in the Mytiloidea. Veliger 36: 36–42.
Huxham, M., D. Raffaelli & A. Pike, 1993. The influence of Cryptocotyle lingua (Digenea: Platyhelminthes) infections on the survival and fecundity of Littorina littorea ( Gastropoda: Prosobranchia); an ecological approach. J. exp. mar. Biol. Ecol. 168: 223–238.
Jackson, J. B. C., 1977. Habitat area, colonization, and development of epibenthic community structure. In Keegan, B. F., P. O’Céidigh & P. J. S. Boaden (eds), Biology of Benthic Organisms. Pergamon Press, Oxford: 349–358.
Kent, R. M. L., 1979. The influence of heavy infestations of Polydora ciliata on the flesh content of Mytilus edulis. J. mar. biol. Ass. UK 59: 289–297.
Keough, M. J., 1984. Effects of patch size on the abundance of sessile marine invertebrates. Ecology 65: 423–437.
Kumar, S. A. & K. Ayyakkannu, 1991. Periostracum of the gastropod Hemifusus pugilinus: natural inhibitor of boring and encrusting organisms. J. mar. biol. Ass. India 33: 374–378.
Orrhage, L., 1969. On the shell growth of Littorina littorea (Linné) (Prosobranchiata Gastropoda) and the occurrence of Polydora ciliata (Johnston) (Polychaeta Sedentaria). Zool. Bidr. Upps. 38: 137–153.
Smith, J. E. & G. E. Newell, 1955. The dynamics of the zonation of the common periwinkle Littorina littorea (L.) on a stony beach. J. anim. Ecol. 24: 35–56.
Wahl, M., 1989. Marine epibiosis. I. Fouling and antifouling: some basic aspects. Mar. Ecol. Prog. Ser. 58: 175–189.
Wahl, M., 1996. Fouled snails in flow: potential of epibionts on Littorina littorea to increase drag and reduce snail growth rates. Mar. Ecol. Prog. Ser. 138: 157–168.
Wahl, M. & M. E. Hay, 1995. Associational resistance and shared doom. Oecologia 102: 329–340.
Wahl, M. & H. Sönnichsen, 1992. Marine epibiosis. IV. The periwinkle Littorina littorea lacks typical antifouling defences - why are some populations so little fouled? Mar. Ecol. Prog. Ser. 88: 225–235.
Wargo, R. N. & S. E. Ford, 1993. The effect of shell infestation by Polydora sp. and infection by Haplosporidium nelsoni (MSX) on the tissue condition of oysters, Crassostrea virginica. Estuaries 16: 229–234.
Williams, E. E., 1964. The growth and distribution of Littorina littorea (L.) on a rocky shore in Wales. J. anim. Ecol. 33: 413432.
Williams, I. C. & C. Ellis, 1975. Movements of the common periwinkle Littorina littorea (L.), on the Yorkshire coast in winter and the influence of infection with larval Digenea. J. exp. mar. Biol. Ecol. 17: 47–58.
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Warner, G.F. (1997). Occurrence of epifauna on the periwinkle, Littorina littorea (L.), and interactions with the polychaete Polydora ciliata (Johnston). In: Naumov, A.D., Hummel, H., Sukhotin, A.A., Ryland, J.S. (eds) Interactions and Adaptation Strategies of Marine Organisms. Developments in Hydrobiology, vol 121. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-1907-0_5
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DOI: https://doi.org/10.1007/978-94-017-1907-0_5
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