Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-28T03:07:23.195Z Has data issue: false hasContentIssue false

Small-scale variation within a Modiolus modiolus (Mollusca: Bivalvia) reef in the Irish Sea. II. Epifauna recorded by divers and cameras

Published online by Cambridge University Press:  15 February 2008

W.G. Sanderson*
Affiliation:
Countryside Council for Wales, Maes y Ffynnon, Ffordd Penrhos, Bangor, Wales, LL57 2DN, UK
R.H.F. Holt
Affiliation:
Countryside Council for Wales, Maes y Ffynnon, Ffordd Penrhos, Bangor, Wales, LL57 2DN, UK
L. Kay
Affiliation:
Countryside Council for Wales, Maes y Ffynnon, Ffordd Penrhos, Bangor, Wales, LL57 2DN, UK
K. Ramsay
Affiliation:
Countryside Council for Wales, Maes y Ffynnon, Ffordd Penrhos, Bangor, Wales, LL57 2DN, UK
J. Perrins
Affiliation:
ExeGISis, The Old Smithy, Point Lane, Cosheston, Pembroke Dock, Wales, SA72 4UH, UK
A.J. McMath
Affiliation:
Countryside Council for Wales, Maes y Ffynnon, Ffordd Penrhos, Bangor, Wales, LL57 2DN, UK
E.I.S. Rees
Affiliation:
School of Ocean Sciences, Bangor University, Menai Bridge, Ynys Mon, Wales, LL59 5EY, UK
*
Correspondence should be addressed to: W.G. Sanderson Countryside Council for Wales Maes y Ffynnon Ffordd Penrhos Bangor, Wales LL57 2DNUK email: [email protected]

Abstract

The spatial heterogeneity of epifauna on a Modiolus modiolus reef off north-west Wales was investigated using divers. The community associated with these horse mussels was similar to that described previously from Loch Creran and the north basin of Strangford Lough. Some differences in epifauna may be attributable to the less sheltered nature of the site. Modiolus modiolus numbers and the associated epifaunal community were significantly different between ridge and trough sub-habitats. Troughs can be considered ‘reduced’ ridge communities whereas ridges have high densities of horse mussels and certain sessile taxa were correlated with their abundance. Modiolus modiolus aggregation as a competitive response to the feeding environment, enhanced food availability on ridges and sediment deposition amongst mussel clumps may start to explain the undulating bed-form. Patchiness in community composition and periodic cover by ophuroids has implications when considering the monitoring of the horse mussel community. Stratified, in situ recording of the highly populated ridges could improve the statistical sensitivity of monitoring horse mussel reefs whilst simultaneously focusing on the more sensitive indicators of fishing threats.

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

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

REFERENCES

Asmus, H. (1987) Secondary production of an intertidal mussel bed community related to its storage and turnover compartments. Marine Ecology Progress Series 39, 251266.CrossRefGoogle Scholar
Auster, P.J. and Langton, R.W. (1999) The effects of fishing on fish habitat. In Benaka, L. (ed.) Fish habitat: essential fish habitat and rehabilitation. Bethesda: American Fisheries Society, Symposium no. 22, pp. 150187.Google Scholar
Bunker, F.St.P.G. (1999) Sublittoral survey of the North Pen Llŷn. Contract Science Report, Countryside Council for Wales, Bangor, no. 370, 36 pp.Google Scholar
Clarke, K.R. and Gorley, R.N. (2006) PRIMER v6: user manual/tutorial. Plymouth: Primer-E Ltd. 190 pp.Google Scholar
Cranfield, H.J., Manighetti, B., Michael, K.P. and Hill, A. (2003) Effects of oyster dredging on the distribution of bryozoan biogenic reefs and associated sediments in Foveaux Strait, southern New Zealand. Continental Shelf Research 23, 13371357.CrossRefGoogle Scholar
Crooks, J.A. (1998) Habitat alteration and community-level effects of an exotic mussel, Musculista senhousia. Marine Ecology Progress Series 162, 137152.CrossRefGoogle Scholar
Connor, D.W., Allen, J.H., Golding, N., Howell, K.L., Leiberknecht, L.M., Northen, K.O. and Reker, J.B. (2004) The marine habitat classification for Britain and Ireland v.04.05. Peterborough: Joint Nature Conservation Council. 222 pp.Google Scholar
Erwin, D.G., Picton, B.E., Connor, D.W., Howson, C.M., Gilleece, P. and Bogues, M.J. (1990) Inshore marine life of Northern Ireland. Department of Environment Northern Ireland/Ulster Museum: HMSO.Google Scholar
Fréchette, M. and Bourget, E. (1985) Food-limited growth of Mytilus edulis L. in relation to the benthic boundary layer. Canadian Journal of Fisheries and Aquatic Sciences 42, 11661170.CrossRefGoogle Scholar
Gunther, C.P. (1996) Development of small Mytilus beds and its effects on resident intertidal macrofauna. Publicazioni della Stazione Zoologica di Napoli: Marine Ecology 17, 117130.CrossRefGoogle Scholar
Hall-Spencer, J.M. and Moore, P.G. (2000) Limaria hians (Mollusca: Limacea): a neglected reef-forming keystone species. Aquatic Conservation: Marine and Freshwater Ecosystems 10, 267277.3.0.CO;2-B>CrossRefGoogle Scholar
Hill, A.S., Brand, A.R., Veale, L.O. and Hawkins, S.J. (1997) The assessment of the effects of scallop dredging on benthic communities. MAFF Report, no. CSA2332. 112 pp.Google Scholar
Hill, A.S., Veale, L.O., Pennington, D., Whyte, S.G., Brand, A.R. and Hartnoll, R.G. (1999) Changes in Irish Sea benthos: possible effects of 40 years of dredging. Estuarine, Coastal and Shelf Science 48, 739750.CrossRefGoogle Scholar
Holland, A.F., Shaignessy, A.T. and Hiegel, M.H. (1987) Long-term variations in mesohaline Chesapeake Bay benthos: spatial and temporal patterns. Estuaries 10, 227245.CrossRefGoogle Scholar
Holme, N.A. (1984) Fluctuations of Ophiothrix fragilis in the western English Channel. Journal of the Marine Biological Association of the United Kingdom 64, 351378.CrossRefGoogle Scholar
Holt, T.J., Rees, E.I.S., Hawkins, S.J. and Seed, R. (1998) Biogenic reefs. An overview of dynamic and sensitivity characteristics for conservation management of marine SACs. UK Marine SACs Project for SNH, DOE (NI), CCW, EN, JNCC & SAMS, IX, 170 pp.Google Scholar
Hydrographic Office (1992) Cardigan Bay: northern part. Admiralty Chart no. 1971. Taunton: United Kingdom Hydrographic Office.Google Scholar
Krebs, C.J. (1999) Ecological methodology. New York: Harper Collins Publishers Inc.Google Scholar
Lenihan, H.S. (1999) Physical–biological coupling on oyster reefs: how habitat structure influences individual performance. Ecological Monographs 69, 251275.Google Scholar
Lesser, M.P., Witman, J.D. and Sebens, K.P. (1994) Effects of flow and seston availability on scope for growth of benthic suspension feeding invertebrates from the Gulf of Maine. Biological Bulletin. Marine Biological Laboratory, Woods Hole 187, 319335.CrossRefGoogle ScholarPubMed
Lindenbaum, C., Bennell, J.D., Rees, E.I.S., McClean, D., Cook, W., Wheeler, A.J. and Sanderson, W.G. (2008) Small-scale variation within a Modiolus modiolus (Mollusca: Bivalvia) reef in the Irish Sea. I. Seabed mapping and reef morphology. Journal of the Marine Biological Association of the United Kingdom in press.CrossRefGoogle Scholar
Lintas, C. and Seed, R. (1994) Spatial variation in the fauna associated with Mytilus edulis on a wave-exposed rocky shore. Journal of Molluscan Studies 60, 165174.CrossRefGoogle Scholar
Magorrian, B.H. (1996) The impact of commercial trawling on the benthos of Strangford Lough, Northern Ireland. PhD thesis, Queen's University Belfast, UK.Google Scholar
Magorrian, B.H. and Service, M. (1998) Analysis of underwater visual data to identify the impact of physical disturbance on horse mussel (Modiolus modiolus) beds. Marine Pollution Bulletin 36, 354359.CrossRefGoogle Scholar
Mair, J.M., Moore, C.G., Kingston, P.F. and Harries, D.B. (2000) A review of the status, ecology and conservation of horse mussel Modiolus modiolus beds in Scotland. Commissioned Report, Scottish Natural Heritage, Edinburgh. no F99PA08, 64 pp.Google Scholar
Millar, R.H. (1970) British Ascidians. Tunicata: Ascidiacea. Key notes for the identification of the species. London: Academic Press. [Synopses of the British Fauna, no. 1.]Google Scholar
Munro, C. (2005) Macrofauna techniques In Elefheriou, A. and McIntyre, A. (eds) Methods for the study of marine benthos 3rd edn. Oxford: Blackwell Publishing, pp. 112159.CrossRefGoogle Scholar
Peterson, C.H. and Black, R. (1987) Resource depletion by active suspension feeders on tidal flats: influence of local density and tidal elevation. Limnology and Oceanography 32, 143166.CrossRefGoogle Scholar
Picton, B.E. (1993) A field guide to the shallow water echinoderms of the British Isles. London: Immel Publishing.Google Scholar
Ragnarsson, S.A. and Raffaelli, D. (1999) Effects of the mussel Mytilus edulis L. on the invertebrate fauna of sediments. Journal of Experimental Marine Biology and Ecology 241, 3143.CrossRefGoogle Scholar
Rees, E.I.S., Sanderson, W.G., Mackie, A.S.Y. and Holt, R.H.F. (2008) Small-scale variation within a Modiolus modiolus (Mollusca: Bivalvia) reef in the Irish Sea. Crevice, infauna and epifauna from targeted cores. Journal of the Marine Biological Association of the United Kingdom, in press.CrossRefGoogle Scholar
Roberts, C.D. (1975) Investigations into a Modiolus modiolus (L.) (Mollusca: Bivalvia) community in Strangford Lough, N. Ireland. Report of the Underwater Association 1, 2749.Google Scholar
Roberts, D., Davies, C., Mitchell, A., Moore, H., Picton, B., Portig, A., Preston, J., Service, M., Smyth, D., Strong, D. and Vize, S. (2004) Strangford Lough ecological change investigation. Belfast: Queen's University.Google Scholar
Seed, R. (1996) Patterns of biodiversity in the macro-invertebrate fauna associated with mussel patches on rocky shores. Journal of the Marine Biological Association of the United Kingdom 76, 203210.CrossRefGoogle Scholar
Seed, R. and Suchanek, T.H. (1992) Population and community ecology of Mytilus. In Gosling, E. (ed.) The mussel Mytilus: ecology, physiology, genetics and culture. Amsterdam: Elsevier, pp. 589.Google Scholar
Service, M. and Magorrian, B.H. (1997) The extent and temporal variation of disturbance to epibenthic communities in Strangford Lough, Northern Ireland. Journal of the Marine Biological Association of the United Kingdom 77, 11511164.CrossRefGoogle Scholar
Stewart, T.W., Miner, J.G. and Lowe, R.L. (1998) Macroinvertebrate communities on hard substrates in western Lake Erie: structuring effects of Dressena. Journal of Great Lakes Research 24, 868879.CrossRefGoogle Scholar
Suchanek, T.H. (1980) Diversity in natural and artificial mussel bed communities of Mytilus californianus. American Zoologist 20, 807–807.Google Scholar
Thiel, M. and Ullrich, N. (2002) Hard rock versus soft bottom: the fauna associated with intertidal mussel beds on hard bottoms along the coast of Chile, and considerations on the functional role of mussel beds. Helgoland Marine Research 56, 2130.CrossRefGoogle Scholar
Thorson, G. (1971) Life in the sea. London: McGraw-Hill.Google Scholar
Tsuchiya, M. (2002) Faunal structures associated with patches of mussels on East Asian coasts. Helgoland Marine Research 56, 3136.CrossRefGoogle Scholar
Tsuchiya, M. and Nishihira, M. (1985) Islands of Mytilus edulis as a habitat for small intertidal animals—effect of island size on community structure. Marine Ecology Progress Series 25, 7181.CrossRefGoogle Scholar
Tsuchiya, M. and Nishihira, M. (1986) Islands of Mytilus edulis as a habitat for small intertidal animals—effect of Mytilus age structure on the species composition of the associated fauna and community organization. Marine Ecology Progress Series 31, 171178.CrossRefGoogle Scholar
Underwood, A.J. (1997) Experiments in ecology. Cambridge: Cambridge University Press.Google Scholar
Valentine, J.F. and Heck, K.L. (1993) Mussels in seagrass meadows—their influence on macroinvertebrate abundance and secondary production in the Northern Gulf of Mexico. Marine Ecology Progress Series 96, 6374.CrossRefGoogle Scholar
Veale, L.O., Hill, A.S., Hawkins, S.J. and Brand, A.R. (2001) Distribution and damage to the by-catch assemblages of the northern Irish Sea scallop dredge fisheries. Journal of the Marine Biological Association of the United Kingdom 81, 8596.CrossRefGoogle Scholar
Watling, L. and Norse, A.E. (1998) Disturbance of the seabed by mobile fishing gear: a comparison with forest clear-cutting. Conservation Biology 12, 11801197.CrossRefGoogle Scholar
Wildish, D.J. and Kristmanson, D.D. (1984) Importance of mussels of the benthic boundary layer. Canadian Journal of Fisheries and Aquatic Sciences 41, 16181625.CrossRefGoogle Scholar
Wildish, D.J. and Kristmanson, D.D. (1985) Control of suspension feeding bivalve production by current speed. Helgoländer Meeresuntersuchungen 39, 237243.CrossRefGoogle Scholar
Wildish, D.J., Fader, G.B.J., Lawton, P. and MacDonald, A.J. (1998) The acoustic detection and characterization of sublittoral bivalve reefs in the Bay of Fundy. Continental Shelf Research 18, 105113.CrossRefGoogle Scholar