Emerging asymmetric interactions between forage and predator fisheries impose management trade-offsa

A size and trait‐based marine community model was used to investigate interactions, with potential implications for yields, when a fishery targeting forage fish species (whose main adult diet is zooplankton) co‐occurs with a fishery targeting larger‐sized predator species. Predicted effects on the s...

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Veröffentlicht in:Journal of fish biology 2013-10, Vol.83 (4), p.890-904
Hauptverfasser: Houle, J. E., Andersen, K. H., Farnsworth, K. D., Reid, D. G.
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container_issue 4
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container_title Journal of fish biology
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creator Houle, J. E.
Andersen, K. H.
Farnsworth, K. D.
Reid, D. G.
description A size and trait‐based marine community model was used to investigate interactions, with potential implications for yields, when a fishery targeting forage fish species (whose main adult diet is zooplankton) co‐occurs with a fishery targeting larger‐sized predator species. Predicted effects on the size structure of the fish community, growth and recruitment of fishes, and yield from the fisheries were used to identify management trade‐offs among the different fisheries. Results showed that moderate fishing on forage fishes imposed only small effects on predator fisheries, whereas predator fisheries could enhance yield from forage fisheries under some circumstances.
doi_str_mv 10.1111/jfb.12163
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subjects EAFM
Fisheries
size spectrum
size-based model
trophic cascade
title Emerging asymmetric interactions between forage and predator fisheries impose management trade-offsa
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