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Abundance, Life History and Ligulosis in the Gobies (Teleostei) of the Inner Severn Estuary

Published online by Cambridge University Press:  11 May 2009

P. N. Claridge ,
M. W. Hardisty ,
I. C. Potter  and
C. V. Williams
P. N. Claridge
Affiliation:
School of Biological Sciences, University of Bath, Claverton Down, Bath BA2 7AY
M. W. Hardisty
Affiliation:
School of Biological Sciences, University of Bath, Claverton Down, Bath BA2 7AY
I. C. Potter
Affiliation:
School of Biological Sciences, University of Bath, Claverton Down, Bath BA2 7AY
C. V. Williams
Affiliation:
School of Biological Sciences, University of Bath, Claverton Down, Bath BA2 7AY
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Extract

Eight species of the Gobiidae were recorded in weekly samples taken between July 1972 and June 1977 from the intake screens of Oldbury Power Station in the inner Severn Estuary. Buenia jeffreysii, Aphia minuta, Gobius paganellus and Gobius niger occurred infrequently and Crystallogobius linearis was only common in the late spring and summer of 1975 and 1976. Pomatoschistus microps, which peaked in numbers in the winter, increased in abundance each year between 1972 and 1977. The most numerous gobies were those belonging to the Pomatoschistus minutus complex which were separated into P. minutus and P. lozanoi only between June 1974 and July 1975. Seasonal trends in the abundance of these two species were similar, with elevated numbers occurring between July and September 1974 and in January 1975. Gonadosomatic indices and other data indicate that the decline in numbers after the latter month represented an emigration to spawning areas further down the estuary or in the Bristol Channel. Although P. minutus attained a larger body size than P. lozanoi, both these species and P. microps typically had a one year life cycle with only a small number of individuals surviving for a further few months. The fecundity of P. lozanoi, which ranged from 410–2453 (mean 1270), was lower than that reported for P. minutus in this and other studies. Analysis of stomach contents showed that the diet of both species was similar, consisting predominantly of gammarids and mysids. While both species were infected with Ligula intestinalis, the incidence of infection and the parasite index was greater in P. lozanoi than in P. minutus.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 65 , Issue 4 , November 1985 , pp. 951 - 968
Copyright
Copyright © Marine Biological Association of the United Kingdom 1985

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References

Abou-Seedo, F. W. & Potter, I. C., 1979. The estuarine phase in the spawning run of the river lamprey Lampetra fluviatilis. Journal of Zoology, 188, 525.CrossRefGoogle Scholar
Arme, C., 1968. Effects of plerocercoid larva of a pseudophyllidean cestode, Ligula intestinalis, on the pituitary gland and gonads of its host. Biological Bulletin. Marine Biological Laboratory, Woods Hole, Mass., 134, 1525.CrossRefGoogle Scholar
Arme, C. & Owen, W. R., 1968. Occurrence and pathology of Ligula intestinalis infections in British fishes. Journal of Parasitology, 54, 212288.CrossRefGoogle ScholarPubMed
Badsha, K. S. & Sainsbury, M., 1978 a. Aspects of the biology and heavy metal accumulation of Ciliata mustela. Journal of Fish Biology, 12, 213—220.CrossRefGoogle Scholar
Badsha, K. S. & Sainsbury, M., 1978 b. Some aspects of the biology and heavy metal accumulation of the fish Liparis liparis in the Severn Estuary. Estuarine and Coastal Marine Science, 7, 381391.CrossRefGoogle Scholar
Bassindale, R., 1941. The invertebrate fauna of the southern shores of the Bristol Channel and Severn Estuary. Proceedings of the Bristol Naturalists’ Society, 9, 143201.Google Scholar
Casabianca, M. L. De, & Kiener, A., 1969. Gobiides des etangs corses: systematique, écologie, régime alimentaire et position dans les chaines trophiques. Vie et milieu (sér. A), 20, 611623.Google Scholar
Claridge, P. N. & Gardner, D. C., 1977. The biology of the northern rockling, Ciliata septentrionalis, in the Severn Estuary and Bristol Channel. Journal of the Marine Biological Association of the United Kingdom, 57, 839848.CrossRefGoogle Scholar
Claridge, P. N. & Gardner, D. C., 1978. Growth and movements of the twaite shad, Alosa fallax (Lacépede) in the Severn Estuary. Journal of Fish Biology, 12, 203211.CrossRefGoogle Scholar
Claridge, P. N. & Potter, I. C., 1983. Movements, abundance, age composition and growth of bass, Dicentrarchus labrax, in the Severn Estuary and inner Bristol Channel. Journal of the Marine Biological Association of the United Kingdom, 63, 871879.CrossRefGoogle Scholar
Claridge, P. N. & Potter, I. C., 1984. Abundance, movements and size of gadoids (Teleostei) in the Severn Estuary. Journal of the Marine Biological Association of the United Kingdom, 64, 771790.CrossRefGoogle Scholar
Claridge, P. N. & Potter, I. C., 1985. Distribution, abundance and size composition of mullet populations in the Severn Estuary and Bristol Channel. Journal of the Marine Biological Association of the United Kingdom, 65, 325335.CrossRefGoogle Scholar
Collett, R., 1878. On Latrunculus and Crystallogobius, two remarkable forms of gobioid fishes. Proceedings of the Zoological Society of London, 1878, 318339.CrossRefGoogle Scholar
Croll, N. A., 1968. The Ecology of Parasites. London: Heinemann.Google Scholar
Day, F., 1879. On the fishes of Weston-Super-Mare. Proceedings of the Zoological Society of London, 48, 642763.Google Scholar
Fonds, M., 1973. Sand gobies of the Dutch Wadden Sea (Pomatoschistus, Gobiidae, Pisces). Netherlands Journal of Sea Research, 6, 417478.CrossRefGoogle Scholar
Fouda, M. M. & Miller, P. J., 1981. Age and growth in common goby, Pomatoschistus microps, on the south coast of England. Estuarine, Coastal and Shelf Science, 12, 121129.CrossRefGoogle Scholar
Gibson, R. N. & Ezzi, I. A., 1981. The biology of the Norway goby. Pomatoschistus norvegicus (Collett), on the west coast of Scotland. Journal of Fish Biology, 19, 697714.CrossRefGoogle Scholar
Hardisty, M. W. & Huggins, R. J., 1973. Lamprey growth and biological conditions in the Bristol Channel region. Nature, London, 243, 229231.CrossRefGoogle Scholar
Harris, M. T. & Wheeler, A., 1974. Ligula infestation of bleak Alburnus alburnus (L.) in the tidal Thames. Journal of Fish Biology, 6, 181188.CrossRefGoogle Scholar
Hass, G., 1939. Gobius minutus Pallas und Gobius microps Krøyer als zwischenwirte des Cestoden Schistocephalus solidus Müller. Schriften des Naturwissenschaftlichen Vereins für Schleswig-Holstein (B), 23, 140141.Google Scholar
Healey, M. C., 1971 a. The distribution and abundance of sand gobies, Gobius minutus, in the Ythan Estuary. Journal of Zoology, 163, 177—229.CrossRefGoogle Scholar
Healey, M. C., 1971 b. Gonad development and fecundity of the sand goby, Gobius minutus Pallas. Transactions of the American Fisheries Society, 100, 520526.2.0.CO;2>CrossRefGoogle Scholar
Hesthagen, I. H., 1971. The winter food of the gobies from one of the deeper channels of the Belt Sea, with particular reference to the sand goby, Pomatoschistus minutus (Pallas). Kieler Meeresforschungen, 27, 2835.Google Scholar
Hesthagen, I. H., 1975. Seasonal occurrence and length variation in the sand goby, Pomatoschistus minutus (Pallas), in the shore zone of the inner Oslofjord. Norwegian Journal of Zoology, 23, 235242.Google Scholar
Hesthagen, I. H., 1977. Migrations, breeding and growth in Pomatoschistus minutus (Pallas) (Pisces, Gobiidae) in Oslofjorden. Sarsia, 63, 1726.CrossRefGoogle Scholar
Jones, D. & Miller, P. J., 1966. Seasonal migrations of the common goby, Pomatoschistus microps (Krøyer), in Morecambe Bay and elsewhere. Hydrobiologia, 27, 515528.CrossRefGoogle Scholar
Kennedy, C. R. & Burrough, R. J., 1981. The establishment and subsequent history of a population of Ligula intestinalis in roach Rutilus rutilus (L.). Journal of Fish Biology, 19, 105126.CrossRefGoogle Scholar
Kerr, T., 1948. The pituitary in normal and parasitised roach. Quarterly Journal of Microscopical Science, 89, 129138.Google Scholar
Kuhl, H., 1961. Nahrungsuntersuchungen an einigen Fischen in Elbe-Mündungsgebiet. Bericht der Deutschen wissenschaftlichen Kommission für Meeresforschung, 16, 90104.Google Scholar
Lee, S. C., 1975. Biology of the Sand Goby, Pomatoschistus minutus (Pallas) (Teleostei, Gobioidei), in the Plymouth Area. Ph.D. Thesis, University of Bristol.Google Scholar
Lloyd, A. J., 1941. Studies on the biology of the Bristol Channel. V. The marine fish fauna of the southern shores of the Bristol Channel. Proceedings of the Bristol Naturalists’ Society, 9, 202230.Google Scholar
Markowski, S., 1935. Robaki pasorzytnicze Gobius minutus Pall. z polskiego Baltyku die parasitichen wurmer von Gobius minutus Pall. des Polonishen Balticumus. Bulletin international de l'Académie polonaise des sciences et des lettres (sér. B II), 2, 251260.Google Scholar
Matthews, L. H., 1933. The sea fish and fisheries of the Bristol district. Proceedings of the Bristol Naturalists’ Society, 7, 442462.Google Scholar
Miller, P. J., 1963. Studies on the Biology and Taxonomy of British Gobiid Fishes. Ph.D. Thesis, University of Liverpool.Google Scholar
Miller, P. J., 1973. Gobiidae. In Check-list of the Fishes of the North-eastern Atlantic and the Mediterranean (ed. J., Hureau and Monod, T. R.), pp. 483515. Paris: UNESCO.Google Scholar
Miller, P. J., 1975. Age structure and life-span in the common goby, Pomatoschistus microps. Journal of Zoology, 177, 425448.CrossRefGoogle Scholar
Miller, P. J., 1984. The tokology of gobiid fishes. In Fish Reproduction – Strategies and Tactics (ed. Potts, G. W. and Wootton, R. J.), pp. 119153. London: Academic Press.Google Scholar
Moore, J. W., Moore, I. A. & Claridge, P. N., 1979. Seasonal changes in the density, composition and reproductive biology of crustacean populations in the Severn Estuary. Crustaceana, 36, 113122.CrossRefGoogle Scholar
Nelson, J. S., 1976. Fishes of the World. New York: Wiley-Interscience.Google Scholar
Palmer, C. J. & Culley, M. B., 1983. Aspects of the biology of the sandsmelt Atherina boyeri Risso, 1810 (Teleostei: Atherinidae) at Oldbury-upon-Severn, Gloucestershire, England. Estuarine, Coastal and Shelf Science, 16, 163173.CrossRefGoogle Scholar
Palmer, C. J., Culley, M. B. & Claridge, P. N., 1979. A further occurrence of Atherina boyeri Risso in North-Eastern Atlantic waters. Environmental Biology of Fishes, 4, 7175.CrossRefGoogle Scholar
Pollard, D. A., 1974. The biology of a landlocked form of the normally catadromous salmoniform fish Galaxias maculatus (Jenyns). VI. Effects of cestode and nematode parasites. Australian Journal of Marine and Freshwater Research, 25, 105—120.CrossRefGoogle Scholar
Potter, I. C. & Claridge, P. N., 1985. Seasonal catches, size and meristic data for sprat, Sprattus sprattus, in the Severn Estuary. Journal of the Marine Biological Association of the United Kingdom, 65, 667675.CrossRefGoogle Scholar
Radford, P. J. & Joint, I. R., 1980. The application of an ecosystem model to the Bristol Channel and Severn Estuary. Journal of the Institute of Water Pollution Control, no. 2, 244254.Google Scholar
Russell, F. S., 1980. On the distribution of postlarval fish in the Bristol Channel. Bulletin of Marine Ecology, 8, 283290.Google Scholar
Swedmark, M., 1958. Sur la variation géographique de Gobius minutus Pallas. I. Biologie et croissance. Archives de zoologie expérimentale et générale, 95, 3251.Google Scholar
Swedmark, M., 1968. Sur la variation géographique de Gobius minutus Pallas. II. Caractères morphologiques, chromatiques et numériques. Cahiers de biologie marine, 9, 297345.Google Scholar
Titmus, G., Claridge, P. N. & Potter, I. C., 1978. Growth and abundance of O-group herrings, Clupea harengus L. in the Severn Estuary. Zoological Journal of the Linnean Society, 64, 251260.CrossRefGoogle Scholar
Van Den Broek, W. L. F., 1979. A seasonal survey of fish populations in the lower Medway Estuary, Kent, based on power station screen samples. Estuarine and Coastal Marine Science, 9, 115.CrossRefGoogle Scholar
Wallis, G. P. & Beardmore, J. A., 1980. Genetic evidence for naturally occurring fertile hybrids between two goby species Pomatoschistus minutus and P. lozanoi (Pisces, Gobiidae). Marine Ecology – Progress Series, 3, 309315.CrossRefGoogle Scholar
Wallis, G. P. & Beardmore, J. A., 1984. An electrophoretic study of the systematic relationships of some closely related goby species (Pisces, Gobiidae). Biological Journal of the Linnean Society, 22, 107123.CrossRefGoogle Scholar
Webb, C. J., 1980. Systematics of the Pomatoschistus minutus complex (Teleostei: Gobioidei). Philosophical Transactions of the Royal Society (B), 291, 201241.Google Scholar
Webb, C. J. & Miller, P. J., 1975. A redescription of Pomatoschistus norvegicus (Collett, 1903) (Teleostei: Gobioidei) based on syntype material Journal of Fish Biology, 7, 735747.CrossRefGoogle Scholar
Wheeler, A., 1978. Key to the Fishes of Northern Europe. London: Macmillan.Google Scholar