Patterns of change in the size spectra of numbers and diversity of the North Sea fish assemblage, as reflected in surveys and models

Trends were analysed over two decades in the size spectra of numbers and diversity of the North Sea fish assemblage. In trawl survey data, the abundance spectrum was smoothly linear each year. Both slopes and intercepts increased significantly over the period, reflecting the eVects offishing. The diversity size spectrum was curvilinear, with diversity increasing among smaller sizes and decreasing linearly over larger sizes. The slope of the linear component of the spectrum varied with a multi-year pattern, but without an overall trend. The much greater stability of the diversity spectrum compared with the abundance spectrum suggests that thefish community structure has remained fairly stable over the period, despite significant increases in harvesting on component populations. To explore the hypothesis that the regulation of the community structure arises from trophic interactions, the same community metrics were calculated from the output of a multi-species virtual population analysis of the major exploitedfish predators and prey, parameterized with extensive catch data and feeding habits. Although many fewer species were included in the modelled assemblage than in the survey data, overall patterns were very similar. Annual abundance spectra were linear and slopes increased significantly and fairly smoothly over the 20 years, indicating significant eVects of fishing on the size composition of the exploited fish assemblage. The annual diversity spectra were more dome-shaped than in the survey data. The shape showed no overall trend, but diversity of smaller size classes showed ad i Verent temporal pattern from the diversity of intermediate and large size classes. The patterns in modelled output are consistent with, but do not prove, the hypothesis that trophic interactions are an important factor in thefish community structure in the North Sea. ? 1996 International Council for the Exploration of the Sea

[1]  Structure of the Body-Size Spectrum of the Biomass in Aquatic Ecosystems: A Consequence of Allometry in Predator–Prey Interactions , 1993 .

[2]  L. M. Dickie,et al.  Biomass Spectra of Aquatic Ecosystems in Relation to Fisheries Yield , 1992 .

[3]  Charles E. McCulloch,et al.  MULTIVARIATE ANALYSIS IN ECOLOGY AND SYSTEMATICS: PANACEA OR PANDORA'S BOX? , 1990 .

[4]  A. Magurran Ecological Diversity and Its Measurement , 1988, Springer Netherlands.

[5]  P. Yodzis,et al.  Predator-Prey Theory and Management of Multispecies Fisheries , 1994 .

[6]  Andrew Sih,et al.  Predation: direct and indirect impacts on aquatic communities , 1988 .

[7]  Stephen J. Smith,et al.  Improving the Precision of Abundance Estimates of Eastern Scotian Shelf Atlantic Cod from Bottom Trawl Surveys , 1993 .

[8]  W. G. Sprules,et al.  Size-based structure and production in the Pelagia of Lakes Ontario and Michigan , 1994 .

[9]  Robert K. Peet,et al.  The Measurement of Species Diversity , 1974 .

[10]  R. W. Sheldon,et al.  The Size Distribution of Particles in the OCEAN1 , 1972 .

[11]  B. Rothschild Dynamics of marine fish populations , 1987 .

[12]  William W. Murdoch,et al.  POPULATION REGULATION IN THEORY AND PRACTICE , 1994 .

[13]  W. Ricker Computation and interpretation of biological statistics of fish populations , 1977 .

[14]  C. Walters,et al.  Quantitative Fisheries Stock Assessment , 1992, Springer US.

[15]  John H. Steele,et al.  A comparison of terrestrial and marine ecological systems , 1985, Nature.

[16]  S. Pimm,et al.  Ecological Stability in the Context of Multispecies Fisheries , 1987 .

[17]  U. Borgmann Models on the Slope of, and Biomass Flow up, the Biomass Size Spectrum , 1987 .

[18]  Stephen J. G. Hall,et al.  Fishing and the Ground-Fish Assemblage Structure in the North-Western North Sea: An Analysis of Long-Term and Spatial Trends , 1996 .

[19]  M. Hill,et al.  Data analysis in community and landscape ecology , 1987 .

[20]  Norman R. Draper,et al.  Applied regression analysis (2. ed.) , 1981, Wiley series in probability and mathematical statistics.

[21]  Colin W. Clark,et al.  Management of Multispecies Fisheries , 1979, Science.

[22]  S. Murawski,et al.  Multispecies Size Composition: A Conservative Property of Exploited Fishery Systems? , 1992 .

[23]  J. Pope,et al.  A Comparison of Fish Size-Composition in the North Sea and on Georges Bank , 1988 .

[24]  Michael Pennington,et al.  Efficient Estimators of Abundance, for Fish and Plankton Surveys , 1983 .

[25]  L. M. Dickie,et al.  Body-size spectra of production and biomass as system-level indicators of ecological dynamics , 1991 .

[26]  Hugh G. Gauch,et al.  Multivariate analysis in community ecology , 1984 .

[27]  K. Mann,et al.  Physical oceanography, food chains, and fish stocks: a review , 1993 .

[28]  Daniel Simberloff,et al.  Ecological Communities: Conceptual Issues and the Evidence , 1984 .

[29]  L. M. Dickie,et al.  Models of aquatic biomass size spectra and the common structure of their solutions , 1992 .

[30]  N. Daan,et al.  Multispecies models relevant to management of living resources , 1990 .