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Dimensions of biodiversity in Chesapeake Bay demersal fishes: patterns and drivers through space and time
Lefcheck, Jonathan S. Buchheister, Andre Laumann, Katie May Stratton, Mark A. Sobocinski, Kathryn L. Chak, Soloman Clardy, Todd R. Reynolds, Pamela L. Latour, Robert J. Duffy, Emmett J.
Lefcheck, Jonathan S.
Buchheister, Andre
Laumann, Katie May
Stratton, Mark A.
Sobocinski, Kathryn L.
Chak, Soloman
Clardy, Todd R.
Reynolds, Pamela L.
Latour, Robert J.
Duffy, Emmett J.
Abstract
Biodiversity has typically been described in terms of species richness and composition, but theory and growing empirical evidence indicate that the diversity of functional traits, the breadth of evolutionary relationships, and the equitability with which individuals or biomass are distributed among species better characterize patterns and processes within ecosystems. Yet, the advantages of including such data come at the expense of measuring traits, sequencing genes, and counting or weighing individuals, and it remains unclear whether this greater resolution yields substantial benefits in describing diversity. We summarized a decade of high-resolution trawl data from a bimonthly trawl survey to investigate spatial and seasonal patterns of demersal fish diversity in the Chesapeake Bay, USA, with the goal of identifying areas and times of mismatch between different dimensions of diversity, and their response to environmental forcing. We found moderate to strong positive relationships among all metrics of diversity, and that functional and phylogenetic differences were well-reflected in an index derived from taxonomic (Linnaean) hierarchy. Compared with species richness and species diversity, functional, phylogenetic, and taxonomic indices peaked later in the year, which was a consequence of the distribution of biomass among functionally and evolutionarily divergent species. Generalized additive models revealed that spatial, temporal, and environmental variables explained roughly similar proportions of deviance across all aspects of diversity, suggesting that these three factors do not differentially affect the functional and phylogenetic aspects of community structure. We conclude that an index of diversity derived from taxonomic hierarchy served well as a practical surrogate for functional and phylogenetic diversity of the demersal fish community in this system. We also emphasize the importance of evenness in understanding diversity patterns, especially since most ecological communities in nature are dominated by one or few species.
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2014-01-01
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Multispecies Research Group Peer Reviewed Articles
Biological Sciences Peer-Reviewed Articles
Fisheries Science Peer-Reviewed Articles, RAOS QUADRATIC ENTROPY; FUNCTIONAL DIVERSITY; PHYLOGENETIC DIVERSITY; SPECIES-DIVERSITY; MEDITERRANEAN SEA; CONTINENTAL-SHELF; FEEDING-HABITS; GROUNDFISH ASSEMBLAGES; COMMUNITY COMPOSITION; GENERAL COEFFICIENT
Citation
Lefcheck, J. S., A. Buchheister, K. M. Laumann, M. A. Stratton, K. L. Sobocinski, S. T. C. Chak, T. R. Clardy, P. L.
Reynolds, R. J. Latour, and J. E. Duffy. 2014. Dimensions of biodiversity in Chesapeake Bay demersal fishes: patterns and
drivers through space and time. Ecosphere 5(2):14. http://dx.doi.org/10.1890/ES13-00284.1
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Virginia Institute of Marine Science
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https://doi.org/10.1890/ES13-00284.1