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Evidence for a population collapse of European eel (Anguilla anguilla) in the Bristol Channel

Published online by Cambridge University Press:  30 August 2011

Peter A. Henderson ,
Shaun J. Plenty ,
Lyn C. Newton  and
David J. Bird
Peter A. Henderson*
Affiliation:
Pisces Conservation Ltd, IRC House, The Square, Pennington, Lymington, Hampshire, SO41 8GN, UK
Shaun J. Plenty
Affiliation:
School of Life Sciences, University of the West of England, Bristol, BS16 1QY, UK
Lyn C. Newton
Affiliation:
School of Life Sciences, University of the West of England, Bristol, BS16 1QY, UK
David J. Bird
Affiliation:
School of Life Sciences, University of the West of England, Bristol, BS16 1QY, UK
*
Correspondence should be addressed to: P.A. Henderson, Pisces Conservation Ltd, IRC House, The Square, Pennington, Lymington, Hampshire SO41 8GN, UK email: [email protected]
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Abstract

A 30-year study of the estuarine population of yellow eel, Anguilla anguilla, abundance in Bridgwater Bay, Somerset, UK, shows that the population number has collapsed. Since 1980, the decline has averaged 15% per year. The abundance of eel in 2009 is estimated at only 1% of that in 1980. This is one of the greatest systematically quantified crashes of a fish population ever reported. Collections of eels impinged on cooling water filter screens were made monthly at Hinkley Point power station between 1980 and 2010 and from Oldbury power station between 1996 and 1998. Eels are always present in the Severn Estuary, although there are large seasonal variations in abundance. At Oldbury, in the upper estuary, eels are least abundant in January. In contrast, in the outer estuary in Bridgwater Bay, eels are most abundant between November and March. The size-distribution of yellow eels ranged from <200 to >700 mm indicating an age-range since the glass eel stage of 2 to >25 years. The mean size-range has not changed since the 1980s indicating that the population collapse is not caused by a sudden recruitment failure. It is suggested that there has been a continual long-term failure of recruitment to compensate for losses. The reason for this is unidentified, but is unlikely to be changes in the North Atlantic Oscillation or other natural environmental variability. A major effort to improve eel survival to adulthood is required if this species is not to gently fade to extinction. This would likely involve a cessation of elver fishing, a reduction in the volume of estuarine water extracted for power station cooling and other purposes during which eels are entrained and killed, and the removal of obstructions which increase mortality during migration.

Keywords

eel population declinelong-term samplingNorth Atlantic Oscillation Indexpower station monitoringsalinityseasonal variationwater temperature
Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 92 , Issue 4: Coral Reefs, the Aquarium Trade and the Maritime Industry , June 2012 , pp. 843 - 851
Copyright
Copyright © Marine Biological Association of the United Kingdom 2011

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References

REFERENCES

Aguilar, A., Alvarez, M.F., Leiro, J.M. and Sanmartin, M.L. (2005) Parasite populations of the European eel (Anguilla anguilla L.) in the Rivers Ulla and Tea (Galicia, northwest Spain). Aquaculture 249, 8594.CrossRefGoogle Scholar
Amiard-Triquet, C., Amiard, J.C., Andersen, A.C., Elie, P. and Metayer, C. (1987) The eel (Anguilla anguilla L.) as a bioindicator of metal pollution—factors limiting its use. Water Science and Technology 19, 12291232.CrossRefGoogle Scholar
Bark, A., Williams, B. and Knights, B. (2007) Current status and temporal trends in stocks of European eel in England and Wales. ICES Journal of Marine Science 64, 13681378.CrossRefGoogle Scholar
Bird, D.J., Rotchell, J.M., Hesp, S.A., Newton, L.C., Hall, N.G. and Potter, I.C. (2008) To what extent are hepatic concentrations of heavy metals in Anguilla anguilla at a site in a contaminated estuary related to body size and age and reflected in metallothionein concentrations? Environmental Pollution 151, 641651.CrossRefGoogle Scholar
Bonhommeau, S., Chassot, E. and Rivot, E. (2008) Fluctuations in European eel (Anguilla anguilla) recruitment resulting from environmental changes in the Sargasso Sea. Fisheries Oceanography 17, 3244.CrossRefGoogle Scholar
Castonguay, M., Hodson, P.V., Moriarty, C., Drinkwater, K.F. and Jessop, B.M. (1994) Is there a role of ocean environment in American and European eel decline? Fisheries Oceanography 3, 197203.CrossRefGoogle Scholar
CITES (2007) Proposals for amendment of appendices I and II. Fourteenth meeting of the conference of the parties. CoP 14 Document 68, 62 pp.Google Scholar
Claridge, P.N., Potter, I.C. and Hardisty, M.W. (1986) Seasonal changes in movements, abundance, size composition and diversity of the fish fauna of the Severn Estuary. Journal of the Marine Biological Association of the United Kingdom 66, 229258.CrossRefGoogle Scholar
Collins, N.R. and Williams, R. (1981) Zooplankton of the Bristol Channel and Severn Estuary. The distribution of four copepods in relation to salinity. Marine Biology 64, 273283.CrossRefGoogle Scholar
Creutzberg, F. (1958) Use of tidal streams by migrating elvers (Anguilla vulgaris Turt.). Nature 181, 857858.CrossRefGoogle Scholar
Daverat, F., Limburg, K.E., Thibault, I., Shiao, J.C., Dodson, J.J., Caron, F.O., Tzeng, W.N., Iizuka, Y. and Wickstrom, H. (2006) Phenotypic plasticity of habitat use by three temperate eel species, Anguilla anguilla, A. japonica and A. rostrata. Marine Ecology Progress Series 308, 231241.CrossRefGoogle Scholar
Deelder, C.L. (1958) On the behaviour of elvers (Anguilla vulgaris Turt.) migrating from the sea into fresh water. Journal du Conseil International pour l'Exploration de la Mer 24, 135146.CrossRefGoogle Scholar
Deelder, C.L. (1984) Synopsis of biological data on the eel. FAO Fisheries Synopsis Document 80, 73 pp.Google Scholar
Dekker, W. (2000) The fractal geometry of the European eel stock. ICES Journal of Marine Science 57, 109121.CrossRefGoogle Scholar
Dekker, W. (2003) Did lack of spawners cause the collapse of the European eel, Anguilla anguilla? Fisheries Management and Ecology 10, 365376.CrossRefGoogle Scholar
Dekker, W., Casselman, J.M., Cairns, D.K., Tsukamoto, K., Jellyman, D.J. and Lickers, H. (2003) Worldwide decline of eel resources necessitates action: Québec declaration of concern. Fisheries 28, 2830.Google Scholar
Desaunay, Y. and Guerault, D. (1997) Seasonal and long-term changes in biometrics of eel larvae: a possible relationship between recruitment variation and North Atlantic ecosystem productivity. Journal of Fish Biology 51, 317339.CrossRefGoogle Scholar
Feunteun, E. (2002) Management and restoration of European eel population (Anguilla anguilla): an impossible bargain. Ecological Engineering 18, 575591.CrossRefGoogle Scholar
Feunteun, E., Laffaille, P., Robinet, T.T., Briand, C., Baisez, A., Olivier, J.M. and Acou, A. (2003) A review of upstream migration and movements in inland waters by anguillid eels: toward a general theory. In Aida, K., Tsukamoto, K. and Yamauchi, K. (eds) Eel biology. Tokyo: Springer-Verlag, pp. 192222.Google Scholar
Friedland, K.D., Miller, M.J. and Knights, B. (2007) Oceanic changes in the Sargasso Sea and declines in recruitment of the European eel. ICES Journal of Marine Science 64, 519530.CrossRefGoogle Scholar
Henderson, P.A. (1989) On the structure of the inshore fish community of England and Wales. Journal of the Marine Biological Association of the United Kingdom 69, 145163.CrossRefGoogle Scholar
Henderson, P.A. and Bird, D.J. (2010) Fish and macro-crustacean communities and their dynamics in the Severn Estuary. Marine Pollution Bulletin 61, 100114.CrossRefGoogle ScholarPubMed
Henderson, P.A. and Holmes, R.H.A. (1991) On the population dynamics of dab, sole and flounder within Bridgwater Bay in the lower Severn Estuary, England. Netherlands Journal of Sea Research 27, 337344.CrossRefGoogle Scholar
Hutchings, J.A. and Reynolds, J.D. (2004) Marine fish population collapses: consequences for recovery and extinction risk. BioScience 54, 297309.CrossRefGoogle Scholar
ICES (2002) Report of the EIFAC/ICES working group on eels. ICES Document CM 2002: 13, 55 pp.Google Scholar
ICES (2006) Reports of the EIFAC/ICES working group on eels. ICES Document CM 2006: 16, 101 pp.Google Scholar
Jones, P.D., Jonsson, T. and Wheeler, D. (1997) Extension to the North Atlantic Oscillation using early instrumental pressure observations from Gibraltar and south-west Iceland. International Journal of Climatology 17, 14331450.3.0.CO;2-P>CrossRefGoogle Scholar
Kirk, R.S. (2003) The impact of Anguillicola crassus on European eels. Fisheries Management and Ecology 10, 385394.CrossRefGoogle Scholar
Knights, B. (1997) Risk assessment and management of contamination of eels (Anguilla spp.) by persistent xenobiotic organochlorine compounds. Fisheries Management and Ecology 13, 171212.Google Scholar
Knights, B. (2003) A review of the possible impacts of the long-term oceanic and climatic changes and fishing mortality on recruitment of anguillid eels of the Northern Hemisphere. Science of the Total Environment 310, 237244.CrossRefGoogle ScholarPubMed
Langston, W.J., Chesman, B.S., Burt, G.R., Hawkins, S.J., Readman, J. and Worsfold, P. (2003) Characterisation of the South West European Marine Sites: the Severn Estuary pSAC, SPA. 13, 1–206. Plymouth, UK: Marine Biological Association of the United Kingdom occasional publication No. 13.Google Scholar
Lobon-Cervia, J. and Iglesias, T. (2008) Long-term numerical changes and regulation in a river stock of European eel Anguilla anguilla. Freshwater Biology 53, 18321844.CrossRefGoogle Scholar
McCleave, J.D. (2001) Simulation of the impact of dams and fishing weirs on reproductive potential of silver-phase American eels in the Kennebec River basin, Maine. North American Journal of Fisheries Management 21, 592605.2.0.CO;2>CrossRefGoogle Scholar
McCleave, J.D., Brickley, P.J., O'Brien, K.M., Kistner, D.A., Wong, M.W., Gallagher, M. and Watson, S.M. (1998) Do leptocephali of the European eel swim to reach continental waters? Status of the question. Journal of the Marine Biological Association of the United Kingdom 78, 285306.CrossRefGoogle Scholar
Moriarty, C. (1996) The decline in catches of European elver 1980–1992. Archives of Polish Fisheries 4, 245248.Google Scholar
Moriarty, C. and Dekker, W. (1997) Management of the European eel. Fisheries Bulletin 15, 110.Google Scholar
Potter, I.C., Bird, D.J., Claridge, P.N., Clarke, K.R., Hyndes, G.A. and Newton, L.C. (2001) Fish fauna of the Severn Estuary. Are there long-term changes in abundance and species composition and are the recruitment patterns of the main marine species correlated? Journal of Experimental Marine Biology and Ecology 258, 1537.CrossRefGoogle ScholarPubMed
Robinet, T.T. and Feunteun, E.E. (2002) Sublethal effects of exposure to chemical compounds: a cause for the decline in Atlantic eels? Ecotoxicology 11, 265277.CrossRefGoogle ScholarPubMed
Tesch, F.W. (2003) The eel. Oxford: Blackwell Publishing, 408 pp.CrossRefGoogle Scholar
Turnpenny, A.W.H. (1981) An analysis of mesh sizes required for screening fishes at water intakes. Estuaries 4, 363368.CrossRefGoogle Scholar
White, E.M. (1994) A study of the exploitation, migration and management of elvers and juvenile eel (Anguilla anguilla L.) in the Rivers Severn and Avon. PhD thesis. London, University of Westminister, 186 pp.Google Scholar
White, E.M. and Knights, B. (1994) Elver and eel migration and stocks in the Rivers Severn and Avon. Bristol: National Rivers Authority NRA R & D Project Record: 256/13/ST, 141 pp.Google Scholar
White, E.M. and Knights, B. (1997a) Dynamics of upstream migration of the European eel, Anguilla anguilla (L.), in the Rivers Severn and Avon, England, with special reference to the effects of man-made barriers. Fisheries Management and Ecology 4, 311324.CrossRefGoogle Scholar
White, E.M. and Knights, B. (1997b) Environmental factors affecting migration of the European eel in the Rivers Severn and Avon, England. Journal of Fish Biology 50, 11041116.CrossRefGoogle Scholar