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The role of wind-forcing in the distribution of larval fish in Galway Bay, Ireland

Published online by Cambridge University Press:  13 September 2012

Stephen Comerford  and
Deirdre Brophy
Stephen Comerford*
Affiliation:
Commercial Fisheries Research Group, Galway–Mayo Institute of Technology, Galway, Ireland
Deirdre Brophy
Affiliation:
Commercial Fisheries Research Group, Galway–Mayo Institute of Technology, Galway, Ireland
*
Correspondence should be addressed to: S. Comerford, Commercial Fisheries Research Group, Galway–Mayo Institute of Technology, Galway, Ireland email: stephen.comerford@gmail.com
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Abstract

The ichthyoplankton of Galway Bay was sampled over the spring and summer of 2007 and 2008 to determine what environmental factors influenced the distribution of larval and early juvenile fish. A total of 549 fish representing 27 taxa were caught. Catches decreased throughout each sampling season, and were generally poor in 2007. Catches were numerically dominated by sprat (Sprattus sprattus), dab (Limanda limanda), sand eel (Hyperoplus immaculatus) and whiting (Merlangius merlangus). Environmental factors driving distribution of fish were modelled using a binomial generalized linear model. The strength and direction of wind in the five days preceding sampling was the only significant environmental factor. Sustained onshore winds increased the probability of encountering larval fish in the areas sampled. The rainfall, tidal state, tow depth and wind conditions during sampling were not significant. Among the parameters measured it appears that onshore winds sufficiently strong to overcome the residual circulation are the main physical driver for the distribution of larval fish in Galway Bay.

Keywords

Galway Baylarval fishgeneralized linear modelwindenvironmentcirculationSpecial Area of Conservation
Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 93 , Special Issue 2: Fish and Fisheries , March 2013 , pp. 471 - 478
Copyright
Copyright © Marine Biological Association of the United Kingdom 2012

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References

REFERENCES

Boehlert, G.W. and Mundy, B.C. (1988) Roles of behaviour and physical factors in larval and juvenile fish recruitment to estuarine nursery areas. American Fisheries Society Symposium 3, 5167.Google Scholar
Booth, D.A. (1975) The water structure and circulation of Killary Harbour and of Galway Bay. MSc thesis. National University of Ireland, Galway.Google Scholar
Burnham, K.P. and Anderson, D.R. (2002) Model selection and multimodel inference: a practical information-theoretic approach. New York: Springer-Verlag.Google Scholar
Castro, L.R., Salinas, G.R. and Hernandez, E.H. (2000) Environmental influence on winter spawning of the anchoveta Engraulis ringens off central Chile. Marine Ecology Progress Series 197, 247258.Google Scholar
Catalan, I.A., Rubin, J.P., Navarro, G. and Prieto, L. (2006) Larval fish distribution in two different hydrographic situations in the Gulf of Cadiz. Deep-Sea Research II 53, 13771390.Google Scholar
Cushing, D.H. (1990) Plankton production and year-class strength in fish populations: an update of the match/mismatch hypothesis. Advances in Marine Biology 26, 249294.Google Scholar
De Raedemaecker, F., Keating, J., Brophy, D., O'Connor, I. and McGrath, D. (2011) Spatial variability in diet, condition and growth of juvenile plaice (Pleuronectes platessa) at sandy beach nursery grounds on the south-west coast of Ireland. Journal of the Marine Biological Association of the United Kingdom 91, 12151223.CrossRefGoogle Scholar
De Raedemaecker, F., Brophy, D., O'Connor, I. and Comerford, S. (2012) Habitat characteristics promoting high density and condition of juvenile flatfish at nursery grounds on the west coast of Ireland. Journal of Sea Research 73, 717.Google Scholar
De Veen, J.F. (1978) On selective tidal transport in the migration of North Sea plaice (Pleuronectes platessa) and other flatfish species. Netherlands Journal of Sea Research 12, 115147.Google Scholar
Doyle, M.J., Picquelle, S.J., Mier, K.L., Spillane, M.C. and Bond, N.A. (2009) Larval fish abundance and physical forcing in the Gulf of Alaska, 1981–2003. Progress in Oceanography 80, 163187.Google Scholar
Dunne, J.J. (1972) A survey of the teleost larval stages occurring in the plankton of outer Galway Bay. MSc thesis. National University of Ireland, Galway.Google Scholar
Epifanio, C.E. and Garvine, R.W. (2001) Larval transport on the Atlantic continental shelf of North America: a review. Estuarine, Coastal and Shelf Science 52, 5177.Google Scholar
Fives, J.M. (1970) Investigations of the plankton of the west coast of Ireland—IV. Larval and post-larval stages of fishes taken from the plankton of the west coast in surveys during the years 1958–1966. Proceedings of the Royal Irish Academy 70B, 1593.Google Scholar
Fives, J.M. and O'Brien, F.I. (1976) Larval and post-larval stages of fish recorded from the plankton of Galway Bay, 1972–73. Journal of the Marine Biological Association of the United Kingdom 56, 197211.Google Scholar
Fortier, L. and Leggett, W.C. (1983) Vertical migrations and transport of larval fish in a partially mixed estuary. Canadian Journal of Fisheries and Aquatic Sciences 40, 15431555.Google Scholar
Garrido, S., Santos, A.M.P., dos Santos, A. and , P. (2009) Spatial distribution and vertical migrations of fish larvae communities off north-western Iberia sampled with LHPR and bongo nets. Estuarine, Coastal and Shelf Science 84, 463475.Google Scholar
Grainger, R.J.R. (1980) The distribution and abundance of early herring (Clupea harengus L.) larvae in Galway Bay in relation to oceanographic conditions. Proceedings of the Royal Irish Academy 80, 4760.Google Scholar
Haynes, P.S., Allen, B.M., Brophy, D. and McGrath, D. (2008) Fin-ray count variations in 0-group flatfish: plaice (Pleuronectes platessa (L.)) and flounder (Platichthys flesus (L.)) on the west coast of Ireland. Biology and Environment: Proceedings of the Royal Irish Academy 108, 6167.Google Scholar
Haynes, P.S., Brophy, D., McGrath, D., O'Callaghan, R., Comerford, S. and Casburn, P. (2010) Annual and spatial variation in the abundance length and condition of juvenile turbot (Psetta maxima L.) on nursery grounds on the west coast of Ireland: 200–2007. Journal of Sea Research 64, 494504.Google Scholar
Hernandez-Miranda, E., Palma, A.T. and Ojeda, F.P. (2003) Larval fish assemblages in nearshore coastal waters off central Chile: temporal and spatial patterns. Estuarine, Coastal and Shelf Science 56, 10751092.Google Scholar
Houde, E.D. (2008) Emerging from Hjort's shadow. Journal of Northwest Atlantic Fishery Science 41, 5370.Google Scholar
Kingsford, M.J. and Choat, J.H. (1986) Influence of surface slicks on the distribution and onshore movements of small fish. Marine Biology 91, 161171.CrossRefGoogle Scholar
Lee, O., Nash, R.D.M. and Danilowicz, B.S. (2005) Small-scale spatio-temporal variability in ichthyoplankton and zooplankton distribution in relation to a tidal-mixing front in the Irish Sea. ICES Journal of Marine Science 62, 10211036.Google Scholar
Leggett, W.C. and Deblois, E. (1994) Recruitment in marine fishes: is it regulated by starvation and predation in the egg and larval stages? Netherlands Journal of Sea Research 32, 119134.Google Scholar
Marine Institute (2010) Annual review of the fish stocks in 2010. http://oar.marine.ie/handle/10793/27 (accessed 5 October 2011).Google Scholar
Nakata, H., Fujihara, M., Suenaga, Y., Nagasawa, T. and Fujii, T. (2000) Effect of wind blows on the transport and settlement of brown sole (Pleuronectes herzensteini) larvae in a shelf region of the Sea of Japan: numerical experiments and the Euler–Lagrangian model. Journal of Sea Research 44, 91100.CrossRefGoogle Scholar
Nielsen, E., Bagge, O. and MacKenzie, B.R. (1997) Wind-induced transport of plaice (Pleuronectes platessa) early life-history stages in the Skagerrak–Kattegat. Journal of Sea Research 39, 1128.Google Scholar
Norcross, B.L. and Shaw, R.F. (1984) Oceanic and estuarine transport of fish eggs and larvae: a review. Transactions of the American Fisheries Society 113, 153165.2.0.CO;2>CrossRefGoogle Scholar
Norcross, B.L., Blanchard, A. and Holladay, B.A. (1999) Comparison of models for defining nearshore flatfish nursery areas in Alaskan waters. Fisheries Oceanography 8, 5067.Google Scholar
Office of Public Works of Ireland (2007) http://www.opw.ie/hydro/index.asp (accessed 6 November 2011).Google Scholar
PrasadaRao, C.V.K. and Baba, M. (1996) Observed wave characteristics during growth and decay: a case study. Continental Shelf Research 16, 15091520.CrossRefGoogle Scholar
Prieto, L., Navarro, G., Rodriguez-Galvez, S., Huertas, I.E., Naranjo, J.M. and Ruiz, J. (2009) Oceanographic and meteorological forcing of the pelagic ecosystem on the Gulf of Cadiz shelf (SW Iberian Peninsula). Continental Shelf Research 29, 21222137.CrossRefGoogle Scholar
R Development Core Team (2010) R: A language and environment for statistical computing. Vienna: R Foundation for Statistical Computing. ISBN 3-900051-07-0, URL http://www.R-project.org Google Scholar
Ruiz, J., Garcia-Isarch, E., Huertas, I.E., Prieto, L., Juarez, A., Munoz, J.L., Sanchez-Lamadrid, A., Rodriguez-Galvez, S., Naranjo, J.M. and Baldo, F. (2006) Meteorological and oceanographic factors influencing Engraulis encrasicolus early life states and catches in the Gulf of Cadiz. Deep-Sea Research II 53, 13631376.Google Scholar
Russell, F.S. (1976) The eggs and planktonic stages of British marine fishes. London: Academic Press.Google Scholar
Secor, D.H. (2007) The year-class phenomenon and the storage effect in marine fishes. Journal of Sea Research 57, 91103.Google Scholar
Simionato, C.G., Berasategui, A., Meccia, V.L., Acha, M. and Mianzan, H. (2008) Short time-scale wind forced variability in the Rio de la Plata Estuary and its role on ichthyoplankton retention. Estuarine, Coastal and Shelf Science 76, 211225.CrossRefGoogle Scholar
Stoner, A.W., Manderson, J.P. and Pessutti, J.P. (2001) Spatially explicit analysis of estuarine habitat for juvenile winter flounder: combining generalized additive models and geographic information systems. Marine Ecology Progress Series 213, 253271.Google Scholar
Tully, O. and O'Ceidigh, P. (1989a) The ichthyoneuston of Galway Bay (Ireland) I. The seasonal, diel and spatial distribution of larval, post-larval and juvenile fish. Marine Biology 101, 2741.Google Scholar
Tully, O. and O'Ceidigh, P. (1989b) The ichthyoneuston of Galway Bay (west of Ireland). II. Food of post-larval and juvenile neustonic and pseudoneustonic fish. Marine Ecology Progress Series 51, 301310.Google Scholar
Van der Veer, H.W., Geffen, A.J. and Witte, J. (2000) Exceptionally strong year classes in plaice Pleuronectes platessa: are they generated during the pelagic stage only, or also in the juvenile stage? Marine Ecology Progress Series 199, 255262.Google Scholar
Voss, R. and Hinrichsen, H.-H. (2003) Sources of uncertainty in ichthyoplankton surveys: modelling the influence of wind forcing and survey strategy on abundance estimates. Journal of Marine Systems 43, 87103.Google Scholar
Werner, F.E., Quinlan, J.A., Blanton, B.O. and Luettich, R.A. Jr (1997) The role of hydrodynamics in explaining variability in fish populations. Journal of Sea Research 37, 195212.Google Scholar
White, M. (1996) Tidal dynamics of Galway Bay and associated 2-layer flow. In Keegan, B.F. and O'Connor, R. (eds) Irish Marine Science 1995, 465474.Google Scholar
Young, I.R. (1997) The growth rate of finite depth wind-generated waves. Coastal Engineering 32, 181195.Google Scholar
Zuur, A.F., Ieno, E.N., Walker, N., Savaliev, A.A. and Smith, G.M. (2009) Mixed effects models and extensions in ecology with R. New York: Springer.Google Scholar