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References

  • Adams, P.B. (1980) Life history patterns in marine fishes and their consequences for management. Fishery Bulletin, 78, 112.
  • Adams, T.S. & Sterner, R.W. (2000) The effect of dietary nitrogen content on trophic level 15N enrichment. Limnology and Oceanography, 45, 601607.
  • Azam, F., Fenchel, T., Field, J.G., Gray, J.S., Meyer-Reil, L.A. & Thingstad, F. (1983) The ecological role of water-column microbes in the sea. Marine Ecology Progress Series, 10, 257263.
  • Banse, K. & Moser, S. (1980) Adult body mass and annual production/biomass relationships of field populations. Ecological Monographs, 50, 355379.
  • Bedford, B.C., Woolner, L.E. & Jones, B.W. (1986) Length–weight relationships for commercial fish species and conversion factors for various presentations. Fisheries Research Data Report, MAFF Fisheries Laboratory, Lowestoft, 10, 41 pp.
  • Beverton, R.J.H. (1963) Maturation, growth and mortality of Clupeid and Engraulid stocks in relation to fishing. Rapports et Procés-Verbaux Des Réunions, Conseil International Pour l’Exploration de la Mer, 154, 4467.
  • Beverton, R.J.H. (1987) Longevity in fish: some ecological and evolutionary perspectives. Ageing Processes in Animals (eds A.D.Woodhead, M.Witten & K.Thompson), pp. 161186. Plenum Press, New York.
  • Beverton, R.J.H. (1992) Patterns of reproductive strategy parameters in some marine teleost fishes. Journal of Fish Biology, 41 (Suppl. B), 137160.
  • Beverton, R.J.H. & Holt, S.J. (1959) A review of the lifespan and mortality rates of fish in nature and their relationship to growth and other physiological characteristics. Ciba Foundation Colloquium on Ageing, 5, 142180.
  • Blackburn, T.M., Harvey, P.H. & Pagel, M.D. (1990) Species number, population density and body size relationships in natural communities. Journal of Animal Ecology, 59, 335345.
  • Boudreau, P.R. & Dickie, L.M. (1992) Biomass spectra of aquatic ecosystems in relation to fisheries yield. Canadian Journal of Fisheries and Aquatic Science, 49, 15281538.
  • Boudreau, P.R., Dickie, L.M. & Kerr, S.R. (1991) Body-size spectra of production and biomass as system-level indicators of ecological dynamics. Journal of Theoretical Biology, 152, 329339.
  • Brey, T. (1999) Growth performance and mortality in aquatic macrobenthic invertebrates. Advances in Marine Biology, 35, 153223.
  • Cabana, G. & Rasmussen, J. (1994) Modelling food-chain structure and contaminant bioaccumulation using stable nitrogen isotopes. Nature, 372, 255257.
  • Charnov, E.L. (1993) Life History Invariants: some explorations of symmetry in evolutionary ecology. Oxford University Press, Oxford.
  • Christensen, V. (1995) A model of trophic interactions in the North Sea in 1981, the year of the stomach. Dana, 11, 128.
  • Christensen, V. & Pauly, D. (1992) ECOPATH II: a software for balancing steady-state ecosystem models and calculating network characteristics. Ecological Modelling, 61, 169185.
  • Cohen, D.M. (1989) Papers on the Systematics of Gadiform Fishes. Natural History Museum of Los Angeles County, Los Angeles.
  • Cohen, D.M., Inada, T., Iwamoto, T. & Scialabba, N. (1990) FAO Species Catalogue, vol. 10. Gadiform fishes of the world. FAO Fisheries Synopsis, 125, 442 pp.
  • Cohen, J.E., Pimm, S.L., Yodzis, P. & Saldaña, J. (1993) Body sizes of animal predators and animal prey in food webs. Journal of Animal Ecology, 62, 6778.
  • Cotgreave, P. & Harvey, P.H. (1992) Relationships between body size, abundance and phylogeny in bird communities. Functional Ecology, 6, 248256.
  • Cotgreave, P. & Harvey, P.H. (1994) Phylogeny and the relationship between body size and abundance in bird communities. Functional Ecology, 8, 219228.
  • Coull, K.A., Jermyn, A.S., Newton, A.W., Henderson, G.I. & Hall, W.B. (1989) Length/Weight Relationships for 88 Species of Fish Encountered in the North East Atlantic. Department of Agriculture and Fisheries for Scotland, Aberdeen.
  • Dickie, L.M., Kerr, S.R. & Boudreau, P.R. (1987) Size-dependent processes underlying regularities in ecosystem structure. Ecological Monographs, 57, 233250.
  • Duplisea, D.E. & Kerr, S.R. (1995) Application of a biomass size spectrum model to demersal fish data from the Scotian shelf. Journal of Theoretical Biology, 177, 263269.
  • Felsenstein, J. (1985) Phylogenies and the comparative method. American Naturalist, 125, 115.
  • France, R., Chandler, M. & Peters, R. (1998) Mapping trophic continua of benthic food webs: body size δ15N relationships. Marine Ecology Progress Series, 174, 301306.
  • Freckleton, R.P. (2000) Phylogenetic tests of ecological and evolutionary hypotheses: checking for phylogenetic independence. Functional Ecology, 14, 129134.
  • Froese, R. & Binohlan, C. (2000) Empirical relationships to estimate asymptotic length, length at first maturity and length at maximum yield per recruit in fishes, with a simple method to evaluate length frequency data. Journal of Fish Biology, 56, 758773.
  • Fry, B. & Quinones, R.B. (1994) Biomass spectra and stable-isotope indicators of trophic level in zooplankton of the northwest Atlantic. Marine Ecology Progress Series, 112, 201204.
  • Fry, B. & Sherr, E.B. (1984) Delta 13C measurements as indicators of carbon flow in marine and freshwater ecosystems. Contributions in Marine Science, 27, 1347.
  • Fry, B. & Sherr, E.B. (1989) Delta 13C measurements as indicators of carbon flow in marine and freshwater ecosystems. Stable Isotopes in Ecological Research (eds P.W.Rundel, J.R.Ehleringer & K.A.Nagy), pp. 196227. Springer-Verlag, Berlin.
  • Gannes, L., O’Brien, D. & Del Rio, C. (1997) Stable isotopes in animal ecology: assumptions, caveats, and a call for more laboratory experiments. Ecology, 78, 12711276.
  • Greenstreet, S.P.R. (1996) Estimation of the Daily Consumption of Food by Fish in the North Sea in Each Quarter of the Year. The Scottish Office Agriculture, Fisheries and Environment Department, Aberdeen, UK.
  • Hall, S.J. (1999) The Effects of Fishing on Marine Ecosystems and Communities. Blackwell Science, Oxford.
  • Hall, S.J. & Raffaelli, D.G. (1993) Food webs: theory and reality. Advances in Ecological Research, 24, 187239.
  • Harvey, P.H. (1996) Phylogenies for ecologists. Journal of Animal Ecology, 65, 255263.
  • Harvey, P.H. & Pagel, M.D. (1991) The Comparative Method in Evolutionary Biology. Oxford University Press, Oxford.
  • Hobson, K.A. & Welch, H.E. (1992) Determination of trophic relationships within a high arctic marine food web using δ13C and δ15N analysis. Marine Ecology Progress Series, 84, 918.
  • Jennings, S. & Beverton, R.J.H. (1991) Intraspecific variation in the life history tactics of Atlantic herring (Clupea harengus L.) stocks. ICES Journal of Marine Science, 48, 117125.
  • Jennings, S., Reynolds, J.D. & Mills, S.C. (1998) Life history correlates of responses to fisheries exploitation. Proceedings of the Royal Society of Biological Sciences, 265, 333339.
  • Kerr, S.R. (1974) Theory of size distribution in ecological communities. Journal of the Fisheries Research Board of Canada, 31, 18591862.
  • Knijn, R.J., Boon, T.W., Heessen, H.J.L. & Hislop, J.R.G. (1993) Atlas of North Sea fishes. ICES Co-operative Research Report, 194, 268 pp.
  • Law, R. & Rowell, C.A. (1993) Cohort structured populations, selection responses, and exploitation of the North Sea cod. The Exploitation of Evolving Resources (eds T.K.Stokes, J.M.McGlade & R.Law), pp. 155173. Springer Verlag, Berlin.
  • Law, R. & Stokes, T.K. (2001) Evolutionary impacts of fishing on target populations. Marine Conservation Biology: the science of maintaining biodiversity (eds L.Crowder & E.Norse), Island Press, New York, in press.
  • Millner, R.S. & Whiting, C.L. (1996) Long-term changes in growth and population abundance of sole in the North Sea from 1940 to the present. ICES Journal of Marine Science, 53, 11851195.
  • Minagawa, M. & Wada, E. (1984) Stepwise enrichment of 15N along food chains: further evidence and the relation between 15N and animal age. Geochemica et Cosmochimica Acta, 48, 11351140.
  • Nelson, J.S. (1994) Fishes of the World. Wiley, New York.
  • Owens, N.J.P. (1987) Natural variations in 15N in the marine environment. Advances in Marine Biology, 24, 389451.
  • Pauly, D. (1980) On the interrelationships between natural mortality, growth parameters and mean environmental temperature in 175 fish stocks. Journal Du Conseil, Conseil International Pour l’Exploration de la Mer, 39, 175192.
  • Pauly, D., Christensen, V., Dalsgaard, J., Froese, R. & Torres, F. (1998) Fishing down marine food webs. Science, 279, 860863.
  • Pauly, D., Christensen, V. & Walters, C. (2000) Ecopath, Ecosim and Ecospace as tools for evaluating ecosystem impact of fisheries. ICES Journal of Marine Science, 57, 697706.
  • Peters, R.H. (1983) The Ecological Implications of Body Size. Cambridge University Press, Cambridge.
  • Peterson, B.J. & Fry, B. (1987) Stable isotopes in ecosystem studies. Annual Review of Ecology and Systematics, 18, 293320.
  • Peterson, B.J., Howarth, R.W. & Garritt, R.H. (1985) Multiple stable isotopes used to trace the flow of organic matter in estuarine food webs. Science, 227, 13611363.
  • Pinnegar, J.K. & Polunin, N.V.C. (1999) Differential fractionation of δ13C and δ15N among fish tissues: implications for the study of trophic interactions. Functional Ecology, 13, 225231.
  • Platt, T. & Denman, K. (1978) The structure of the pelagic marine ecosystem. Rapports et Procés-Verbaux Des Réunions, Conseil International Pour l’Exploration de la Mer, 173, 6065.
  • Polunin, N.V.C. & Pinnegar, J.K. (2002) Ecology of fishes in marine food webs. Handbook of Fish and Fisheries (eds P.J.B.Hart & J.D.Reynolds). Blackwell, Oxford, in press.
  • Ponsard, S. & Averbuch, P. (1999) Should growing and adult animals fed on the same diet show different δ15N values? Rapid Communications in Mass Spectrometry, 13, 13051310.
  • Pope, J.G., Stokes, T.K., Murawski, S.A. & Iodoine, S.I. (1988) A comparison of fish size composition in the North Sea and on Georges Bank. Ecodynamics: contributions to theoretical ecology (eds W.Wolff, C.J.Soeder & F.R.Drepper), pp. 146152. Springer Verlag, Berlin.
  • Post, D.M., Pace, M.L. & Hairston, N.G. (2000) Ecosystem size determines food-chain length in lakes. Nature, 405, 1047–1049.
  • Preston, T. (1992) The measurement of stable isotope natural abundance variations. Plant Cell and Environment, 15, 10911097.
  • Preston, T. & Owens, N.J.P. (1983) Interfacing an automatic elemental analyser with an isotope ratio mass spectrometer: the potential for fully automated total nitrogen and nitrogen-15 analysis. Analyst, 108, 971977.
  • Reynolds, J.D., Jennings, S. & Dulvy, N.K. (2001) Life histories of fishes and population responses to exploitation. Conservation of Exploited Species (eds J.D.Reynolds, G.M.Mace, K.H.Redford & J.G.Robinson). Oxford University Press, Oxford, in press.
  • Rice, J.C., Daan, N., Pope, J.G. & Gislason, H. (1991) The stability of estimates of suitabilities in MSVPA over four years of data from predator stomachs. ICES Marine Science Symposia, 193, 3445.
  • Rice, J. & Gislason, H. (1996) Patterns of change in the size spectra of numbers and diversity of the North Sea fish assemblage, as reflected in surveys and models. ICES Journal of Marine Science, 53, 12141225.
  • Rickman, S.J., Dulvy, N.K., Jennings, S. & Reynolds, J.D. (2000) Recruitment variation related to fecundity in marine fishes. Canadian Journal of Fisheries and Aquatic Science, 57, 116124.
  • Rijnsdorp, A.D. (1993) Selection differentials in male and female North Sea plaice and changes in maturation and fecundity. The Exploitation of Evolving Resources (eds T.K.Stokes, J.M.McGlade & R.Law), pp. 1936. Springer Verlag, Berlin.
  • Rijnsdorp, A.D. & Van Leeuwen, P.I. (1996) Changes in growth of North Sea plaice since 1950 in relation to density, eutrophication, beam-trawl effort and temperature. ICES Journal of Marine Science, 53, 11991213.
  • Rowell, C.A. (1993) The effects of fishing on the timing of maturity in North Sea cod (Gadus morhua L.). The Exploitation of Evolving Resources (eds T.K.Stokes, J.M.McGlade & R.Law), pp. 4461. Springer-Verlag, Berlin.
  • Sadovy, Y.J. (1996) Reproduction of reef fishery species. Reef Fisheries (eds N.V.C.Polunin & C.M.Roberts), pp. 1559. Chapman & Hall, London.
  • Schoella, D. (1999) Isotope fractionation: why aren’t we what we eat? Journal of Archaeological Science, 26, 667673.
  • Schwinghamer, P., Hargrave, B., Peer, D. & Hawkins, C.M. (1986) Partitioning of production and respiration among size groups of organisms in an intertidal benthic community. Marine Ecology Progress Series, 31, 131142.
  • Sheldon, R.W., Prakash, A. & Sutcliffe, W.H. (1972) The size distribution of particles in the Ocean. Limnology and Oceanography, 17, 327340.
  • Sholtodouglas, A.D., Field, J.G., James, A.G. & Vandermerwe, N.J. (1991) C-13/ C-12 and N-15/N-14 isotope ratios in the southern Benguela ecosystem-indicators of food web relationships among different size classes of plankton and pelagic fish differences between fish muscle and bone-collagen tissues. Marine Ecology Progress Series, 78, 2331.
  • Siemann, E., Tilman, D. & Haarstad, J. (1996) Insect species diversity, abundance and body size relationships. Nature, 380, 704706.
  • Sprules, W.G. & Stockwell, J.D. (1995) Size based biomass and production models in the St Lawrence Great Lakes. ICES Journal of Marine Science, 52, 705710.
  • Stamps, J.A., Mangel, M. & Phillips, J.A. (1998) A new look at relationships between size at maturity and asymptotic size. American Naturalist, 152, 470479.
  • Stearns, S.C. (1976) Life-history tactics: a review of the ideas. Quarterley Review of Biology, 51, 347.
  • Stearns, S.C. (1992) The Evolution of Life Histories. Oxford University Press, Oxford.
  • Stokes, T.K. & Blythe, S.P. (1993) Size selective harvesting and age at maturity 2. Real populations and management options. The Exploitation of Evolving Resources (eds T.K.Stokes, J.M.McGlade & R.Law), pp. 232247. Springer Verlag, Berlin.
  • Thiebaux, M.L. & Dickie, L.M. (1992) Models of aquatic biomass size spectra and the common structure of their solutions. Journal of Theoretical Biology, 159, 147161.
  • Toresen, R. (1990) Long-term changes in growth of Norwegian spring spawning herring. Journal Du Conseil, Conseil International Pour l’Exploration de la Mer, 47, 4856.
  • Walters, C.J., Christensen, V. & Pauly, D. (1997) Structuring dynamic models of exploited ecosystems from trophic mass–balance assessments. Reviews in Fish Biology and Fisheries, 7, 139172.
  • Warnes, S. & Jones, B.W. (1995) Species distributions from English Celtic Sea groundfish surveys. 1984–91. Fisheries Research Technical Report 58, Ministry of Agriculture, Fisheries and Food, Directorate of Fisheries Research, Lowestoft, UK.
  • Wheeler, A. (1969) The Fishes of the British Isles and North-West Europe. Macmillan, London.
  • Yang, J. (1982) A tentative analysis of the trophic levels of North Sea fish. Marine Ecology Progress in Series, 7, 247252.
  • Zanden, M.J.V., Casselman, J.M. & Rasmussen, J.B. (1999) Stable isotope evidence for the food web consequences of species invasions in lakes. Nature, 401, 464467.