1 National Institute of Aquatic Resources, Technical University of Denmark2 Section for Ecosystem based Marine Management, National Institute of Aquatic Resources, Technical University of Denmark3 Department of Fisheries and Oceans4 Waaldijk 39, 6621KH Dreumel, The Netherlands
Functional redundancy of species sharing a feeding strategy and/or maximum size has been hypothesized to contribute to increased resilience of marine fish communities (the “portfolio effect”). A consistent time-series of survey data of fish in the North Sea was used to examine if trophic functional groups or maximum length of species (Lmax) groups with larger numbers of species had lower coefficients of variation in abundance and biomass over time than did groupings with fewer species. Results supported this hypothesis. However, the stabilizing effect of numbers of species in a group on variation in abundance or biomass could be accounted for by the Law of Large Numbers, providing no evidence that specific ecological processes or co-adaptations are necessary to produce this effect. This implies that successful conservation policies to maintain the resilience of a marine fish community could be based on strategies to maintain the number of species in functional groups, without having to know the detailed ecological interactions between the species.
Ices Journal of Marine Science, 2013, Vol 70, Issue 4, p. 734-742
Fish community; Functional group; North Sea; Portfolio effect; Resilience