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Sacoglossan gastropods on native and introduced hosts in Lough Hyne, Ireland: larval retention and population asynchrony?

Published online by Cambridge University Press:  25 June 2008

Cynthia D. Trowbridge*
Affiliation:
Department of Zoology, Oregon State University, PO Box 1995, Newport, OR 97365USA
Colin Little
Affiliation:
Beggars Knoll, Long River Road, Newtown, Westbury BA13 3EDUK
Penny Stirling
Affiliation:
Beggars Knoll, Long River Road, Newtown, Westbury BA13 3EDUK
William F. Farnham
Affiliation:
Institute of Marine Sciences, University of Portsmouth, Portsmouth PO4 9LYUK
*
Correspondence should be addressed to: Cynthia D. Trowbridge Department of Zoology, Oregon State UniversityPO Box 1995, Newport, OR 97365USA email: trowbric@onid.orst.edu

Abstract

The north-eastern Atlantic sacoglossan gastropod Elysia viridis was studied on littoral and sublittoral shores of the British Isles from 2001 to 2007 to evaluate its potential role in the known decline of the invasive green alga Codium fragile ssp. fragile. Across its European range, this sacoglossan associates with eight genera of algal hosts within three algal orders and two divisions; these hosts include native and introduced macroalgae. The ‘specialist’ herbivore was investigated primarily within the rocky shore community at Lough Hyne Marine Reserve, County Cork, south-west Ireland, with comparative information from surveys of 95 other sites in the British Isles. In Lough Hyne, E. viridis associated with the green algae Codium, Cladophora and Chaetomorpha as well as the red alga Griffithsia. The sacoglossan associated with Codium, Cladophora and Chaetomorpha as well as the red alga Halurus in Devon, Isle of Wight and the Channel Islands. Recruitment of E. viridis to Codium spp. in the lough was substantially higher than in most areas of the British Isles with 100% of the Codium hosts attacked during annual September surveys. The strong autumn pulse of sacoglossan recruitment, coupled with the asynchronous population dynamics compared to other shores, indicates retention of planktotrophic larvae within the lough. The previously reported decline in sacoglossan density with tidal level was hypothesized to be caused by sublittoral predators. Although our experiments failed to demonstrate an effect by large predators, the foraging of the abundant fingerling fish and small crabs could not be tested conclusively. Field experiments were consistent with the interpretation of intense sacoglossan herbivory in certain areas of the lough. However, even if the sacoglossans contribute to the local decline of C. fragile in the lough, they cannot account for the regional decline of the alga on the north-eastern Atlantic shores.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2008

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References

REFERENCES

Ballard, L. and Myers, A. (2000) Observations on the seasonal occurrence and abundance of gelatinous zooplankton in Lough Hyne, Co. Cork, south-west Ireland. Biology and Environment 100B, 7583.Google Scholar
Barnes, D.K.A., Verling, E., Crook, A., Davidson, I. and O'Mahoney, M. (2002) Local population disappearance follows (20 yr after) cycle collapse in a pivotal ecological species. Marine Ecology Progress Series 226, 311313.CrossRefGoogle Scholar
Bassindale, R., Ebling, F.J., Kitching, J.A. and Purchon, R.D. (1948) The ecology of the Lough Ine Rapids with special reference to water currents. Journal of Ecology 36, 305322.CrossRefGoogle Scholar
Bell, J.J. and Okamura, B. (2005) Genetic diversity in a marine nature reserve: re-evaluating diversity criteria in reserve design. Proceedings of the Royal Society of London, Series B: Biological Sciences 272, 10671074.Google Scholar
Colgan, N. (1911) Marine mollusca. Clare Island Survey, part 22. Proceedings of the Royal Irish Academy 31B, 1136.Google Scholar
Gaines, S.D. and Bertness, M.D. (1992) Dispersal of juveniles and variable recruitment in sessile marine species. Nature 360, 579580.CrossRefGoogle Scholar
Greenwood, A., O'Riordan, R. and Barnes, D.K.A. (2001) Seasonality and vertical zonation of zooplankton in a semi-enclosed sea lough. Journal of the Marine Biological Association of the UK 81, 213220.CrossRefGoogle Scholar
Grosberg, R.K. (1982) Intertidal zonation of barnacles: the influence of planktonic zonation of larvae on vertical distribution of adults. Ecology 63, 894899.CrossRefGoogle Scholar
Holligan, P.M. (1981) Biological implications of fronts on the northwest European continental shelf. Philosophical Transactions of the Royal Society of London, Series A 302, 547562.Google Scholar
Jensen, K.R. (1989) Learning as a factor in diet selection by Elysia viridis (Montagu) (Opisthobranchia). Journal of Molluscan Studies 55, 7988.CrossRefGoogle Scholar
Jensen, K.R. (1993) Morphological adaptations and plasticity of radular teeth of the Sacoglossa (=Ascoglossa) (Mollusca: Opisthobranchia) in relation to their food plants. Biological Journal of the Linnean Society 48, 135155.CrossRefGoogle Scholar
Jessopp, M.J. (2007) The quick and the dead: larval mortality due to turbulent tidal transport. Journal of the Marine Biological Association of the UK 87, 675680.CrossRefGoogle Scholar
Jessop, M.J. and McAllen, R.J. (2007) Water retention and limited larval dispersal: implications for short and long distance dispersers in marine reserves. Marine Ecology Progress Series 333, 2736.CrossRefGoogle Scholar
Johnson, M.P. and Costello, M.J. (2002) Local and external components of the summertime plankton community in Lough Hyne, Ireland a stratified marine inlet. Journal of Plankton Research 24, 13051315.CrossRefGoogle Scholar
Johnson, M.P., Costello, M.J. and O'Donnell, D. (1995) The nutrient economy of a marine inlet: Lough Hyne, South West Ireland. Ophelia 41, 137151.CrossRefGoogle Scholar
Kitching, J.A. and Thain, V.M. (1983) The ecological impact of the sea urchin Paracentrotus lividus (Lamarck) in Lough Ine, Ireland. Philosophical Transactions of the Royal Society of London, Series B 300, 513552.Google Scholar
Little, C., Morritt, D. and Stirling, P. (1992) Changes in the shore fauna and flora of Lough Hyne. Irish Naturalists' Journal 24, 8795.Google Scholar
Myers, A.A., Little, C., Costello, M.J. and Partridge, J.C. (1991) The ecology of Lough Hyne. Proceedings of a conference 4–5 September, 1990. Dublin: Royal Irish Academy.Google Scholar
Padilla, D.K. (1998) Inducible phenotypic plasticity of the radula in Lacuna (Gastropoda: Littorinidae). Veliger 41, 201204.Google Scholar
Provan, J., Booth, D., Todd, N.P., Beatty, G.E. and Maggs, C.A. (2007) Tracking biological invasions in space and time: elucidating the true invasive history of the green alga Codium fragile using old DNA. Diversity and Distributions, DOI 10.1111/j.1472-4642.2007.00420.Google Scholar
Raine, R., O'Mahony, J., McMahon, T. and Roden, C. (1990) Hydrography and phytoplankton of waters off south-west Ireland. Estuarine, Coastal and Shelf Science 30, 579592.CrossRefGoogle Scholar
Rawlinson, K.A., Davenport, J. and Barnes, D.K.A. (2005) Tidal exchange of zooplankton between Lough Hyne and the adjacent coast. Estuarine, Coastal and Shelf Science 62, 205215.CrossRefGoogle Scholar
Renouf, L.P.W. (1931) Preliminary work of a new biological station (Lough Ine, Co. Cork, I.F.S.). Journal of Ecology 19, 410438.CrossRefGoogle Scholar
Renouf, L.P.W. (1939) Faunistic notes from the south coast of County Cork, Eire. Annals and Magazine of Natural History 4, 520525.CrossRefGoogle Scholar
Silva, P.C. (1955) The dichotomous species of Codium in Britain. Journal of the Marine Biological Association of the UK 34, 565577.CrossRefGoogle Scholar
Simpson, J.H. (1981) The shelf-sea fronts: implications of their existence and behaviour. Philosophical Transactions of the Royal Society of London, Series A 302, 531546.Google Scholar
Trowbridge, C.D. (1992a) Mesoherbivory: the ascoglossan sea slug Placida dendritica may contribute to the restricted distribution of its algal host. Marine Ecology Progress Series 83, 207220.CrossRefGoogle Scholar
Trowbridge, C.D. (1992b) Phenology and demography of a marine specialist herbivore: Placida dendritica (Gastropoda: Opisthobranchia) along the central coast of Oregon. Marine Biology 114, 443452.CrossRefGoogle Scholar
Trowbridge, C.D. (1993) Interactions between an ascoglossan sea slug and its green algal host: branch loss and role of epiphytes. Marine Ecology Progress Series 101, 263272.CrossRefGoogle Scholar
Trowbridge, C.D. (1998) Ecology of the green macroalga Codium fragile (Suringar) Hariot 1889: invasive and non-invasive subspecies. Oceanography and Marine Biology: an Annual Review 36, 164.Google Scholar
Trowbridge, C.D. (2000) The missing links: larval and post-larval development of the ascoglossan opisthobranch Elysia viridis. Journal of the Marine Biological Association of the UK 80, 10871094.CrossRefGoogle Scholar
Trowbridge, C.D. (2001) Coexistence of introduced and native congeneric algae: Codium fragile and C. tomentosum on Irish rocky intertidal shores. Journal of the Marine Biological Association of the UK 81, 931937.CrossRefGoogle Scholar
Trowbridge, C.D. (2002) Local elimination of Codium fragile on Argyll shores: indirect evidence of sacoglossan herbivory? Journal of the Marine Biological Association of the UK 82, 10291030.CrossRefGoogle Scholar
Trowbridge, C.D. (2004) Emerging associations on marine rocky shores: specialist herbivores on introduced macroalgae. Journal of Animal Ecology 73, 294308.CrossRefGoogle Scholar
Trowbridge, C.D. (2006) A global proliferation of non-native marine and brackish macroalgae. Invited chapter in: Critchley, A.T., Ohno, M. and Largo, D.B. (eds) World seaweed resources—an authoritative reference and system. DVD-ROM, version 1.0. Amsterdam: ETI Bioinformatics (publisher).Google Scholar
Trowbridge, C.D. and Todd, C.D. (1999) The familiar is exotic: II. Codium fragile ssp. tomentosoides on Scottish rocky intertidal shores. Botanical Journal of Scotland 50, 161179.CrossRefGoogle Scholar
Trowbridge, C.D. and Todd, C.D. (2001) Host-plant changes of marine specialist herbivores: ascoglossan sea slugs on the introduced Codium fragile. Ecological Monographs 71, 219243.CrossRefGoogle Scholar
Trowbridge, C.D. and Farnham, W.F. (2004) Spatial variation in littoral Codium assemblages on Jersey, Channel Islands (southern English Channel). Botanica Marina 47, 501503.CrossRefGoogle Scholar
Trowbridge, C.D., Farnham, W.F. and White, L. (2004) Thriving populations of the native macroalga Codium tomentosum on Guernsey rocky shores. Journal of the Marine Biological Association of the UK 84, 873877.CrossRefGoogle Scholar
Trowbridge, C.D., Hirano, Y.J. and Hirano, Y.M. (2008) Sacoglossan opisthobranchs associated with the green macroalgae Codium spp. on Pacific rocky shores of Japan. Venus 66, 175190.Google Scholar