@article{ ISI:000294167800011,
Author = {Hinrichsen, Hans-Harald and Dickey-Collas, Mark and Huret, Martin and
   Peck, Myron A. and Vikebo, Frode B.},
Title = {{Evaluating the suitability of coupled biophysical models for fishery
   management}},
Journal = {{ICES JOURNAL OF MARINE SCIENCE}},
Year = {{2011}},
Volume = {{68}},
Number = {{7}},
Pages = {{1478-1487}},
Month = {{JUL}},
Abstract = {{The potential role of coupled biophysical models in enhancing the
   conservation, management, and recovery of fish stocks is assessed, with
   emphasis on anchovy, cod, herring, and sprat in European waters. The
   assessment indicates that coupled biophysical models are currently
   capable of simulating transport patterns, along with temperature and
   prey fields within marine ecosystems; they therefore provide insight
   into the variability of early-life-stage dynamics and connectivity
   within stocks. Moreover, the influence of environmental variability on
   potential recruitment success may be discerned from model hindcasts.
   Based on case studies, biophysical modelling results are shown to be
   capable of shedding light on whether stock management frameworks need
   re-evaluation. Hence, key modelling products were identified that will
   contribute to the development of viable stock recovery plans and
   management strategies. The study also suggests that approaches combining
   observation, process knowledge, and numerical modelling could be a
   promising way forward in understanding and simulating the dynamics of
   marine fish populations.}},
Publisher = {{OXFORD UNIV PRESS}},
Address = {{GREAT CLARENDON ST, OXFORD OX2 6DP, ENGLAND}},
Type = {{Article}},
Language = {{English}},
Affiliation = {{Hinrichsen, HH (Reprint Author), Leibniz Inst Marine Sci, Dusternbrookerweg 20, D-24105 Kiel, Germany.
   Hinrichsen, Hans-Harald, Leibniz Inst Marine Sci, D-24105 Kiel, Germany.
   Dickey-Collas, Mark, Wageningen IMARES, NL-1970 AB Ijmuiden, Netherlands.
   Huret, Martin, IFREMER, Dept Ecol \& Models Fisheries, F-44311 Nantes, France.
   Peck, Myron A., Inst Hydrobiol \& Fisheries Sci, D-22767 Hamburg, Germany.
   Vikebo, Frode B., Inst Marine Res, N-5817 Bergen, Norway.}},
DOI = {{10.1093/icesjms/fsr056}},
ISSN = {{1054-3139}},
Keywords = {{adaptive management strategies; applicability of biophysical models;
   collapsed fish stocks; early-life-stage survival; environmental
   variability}},
Keywords-Plus = {{COD GADUS-MORHUA; ARCTO-NORWEGIAN COD; SPRAT SPRATTUS-SPRATTUS; MARINE
   PROTECTED AREAS; EARLY-LIFE STAGES; NORTH-SEA; ATLANTIC COD;
   ENVIRONMENTAL VARIABILITY; PELAGIC JUVENILES; CLIMATE-CHANGE}},
Research-Areas = {{Fisheries; Marine \& Freshwater Biology; Oceanography}},
Web-of-Science-Categories  = {{Fisheries; Marine \& Freshwater Biology; Oceanography}},
Author-Email = {{hhinrichsen@ifm-geomar.de}},
ResearcherID-Numbers = {{Peck, Myron/H-6164-2011
   Dickey-Collas, Mark/A-8036-2008
   }},
ORCID-Numbers = {{Huret, Martin/0000-0003-0023-378X}},
Funding-Acknowledgement = {{Commission of the European Communities {[}513670 (PROTECT), 044133
   (RECLAIM), 022717 (UNCOVER)]}},
Funding-Text = {{We thank the researchers who contributed to the development of the
   biophysical models utilized within the UNCOVER (UNderstanding the
   mechanisms of stock reCOVERy) programme (EU FP 6), including Marc
   Hufnagl, Ute Daewel, Christoph Petereit, and Matthias Schaber, and Fred
   Serchuk and Niels Daan for their helpful editorial comments on an
   earlier version of this manuscript. The study was carried out with
   financial support from the Commission of the European Communities as a
   contribution to FP6 Specific Targeted Research Projects 513670
   (PROTECT), 044133 (RECLAIM), and 022717 (UNCOVER). The paper does not
   necessarily reflect the views of the Commission.}},
Number-of-Cited-References = {{70}},
Times-Cited = {{35}},
Usage-Count-Last-180-days = {{3}},
Usage-Count-Since-2013 = {{36}},
Journal-ISO = {{ICES J. Mar. Sci.}},
Doc-Delivery-Number = {{810YS}},
Unique-ID = {{ISI:000294167800011}},
OA = {{No}},
DA = {{2017-08-17}},
}

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The assessment indicates that coupled biophysical models are currently capable of simulating transport patterns, along with temperature and prey fields within marine ecosystems; they therefore provide insight into the variability of early-life-stage dynamics and connectivity within stocks. Moreover, the influence of environmental variability on potential recruitment success may be discerned from model hindcasts. Based on case studies, biophysical modelling results are shown to be capable of shedding light on whether stock management frameworks need re-evaluation. Hence, key modelling products were identified that will contribute to the development of viable stock recovery plans and management strategies. 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The\n assessment indicates that coupled biophysical models are currently\n capable of simulating transport patterns, along with temperature and\n prey fields within marine ecosystems; they therefore provide insight\n into the variability of early-life-stage dynamics and connectivity\n within stocks. Moreover, the influence of environmental variability on\n potential recruitment success may be discerned from model hindcasts.\n Based on case studies, biophysical modelling results are shown to be\n capable of shedding light on whether stock management frameworks need\n re-evaluation. Hence, key modelling products were identified that will\n contribute to the development of viable stock recovery plans and\n management strategies. The study also suggests that approaches combining\n observation, process knowledge, and numerical modelling could be a\n promising way forward in understanding and simulating the dynamics of\n marine fish populations.}},\nPublisher = {{OXFORD UNIV PRESS}},\nAddress = {{GREAT CLARENDON ST, OXFORD OX2 6DP, ENGLAND}},\nType = {{Article}},\nLanguage = {{English}},\nAffiliation = {{Hinrichsen, HH (Reprint Author), Leibniz Inst Marine Sci, Dusternbrookerweg 20, D-24105 Kiel, Germany.\n Hinrichsen, Hans-Harald, Leibniz Inst Marine Sci, D-24105 Kiel, Germany.\n Dickey-Collas, Mark, Wageningen IMARES, NL-1970 AB Ijmuiden, Netherlands.\n Huret, Martin, IFREMER, Dept Ecol \\& Models Fisheries, F-44311 Nantes, France.\n Peck, Myron A., Inst Hydrobiol \\& Fisheries Sci, D-22767 Hamburg, Germany.\n Vikebo, Frode B., Inst Marine Res, N-5817 Bergen, Norway.}},\nDOI = {{10.1093/icesjms/fsr056}},\nISSN = {{1054-3139}},\nKeywords = {{adaptive management strategies; applicability of biophysical models;\n collapsed fish stocks; early-life-stage survival; environmental\n variability}},\nKeywords-Plus = {{COD GADUS-MORHUA; ARCTO-NORWEGIAN COD; SPRAT SPRATTUS-SPRATTUS; MARINE\n PROTECTED AREAS; EARLY-LIFE STAGES; NORTH-SEA; ATLANTIC COD;\n ENVIRONMENTAL VARIABILITY; PELAGIC JUVENILES; CLIMATE-CHANGE}},\nResearch-Areas = {{Fisheries; Marine \\& Freshwater Biology; Oceanography}},\nWeb-of-Science-Categories = {{Fisheries; Marine \\& Freshwater Biology; Oceanography}},\nAuthor-Email = {{hhinrichsen@ifm-geomar.de}},\nResearcherID-Numbers = {{Peck, Myron/H-6164-2011\n Dickey-Collas, Mark/A-8036-2008\n }},\nORCID-Numbers = {{Huret, Martin/0000-0003-0023-378X}},\nFunding-Acknowledgement = {{Commission of the European Communities {[}513670 (PROTECT), 044133\n (RECLAIM), 022717 (UNCOVER)]}},\nFunding-Text = {{We thank the researchers who contributed to the development of the\n biophysical models utilized within the UNCOVER (UNderstanding the\n mechanisms of stock reCOVERy) programme (EU FP 6), including Marc\n Hufnagl, Ute Daewel, Christoph Petereit, and Matthias Schaber, and Fred\n Serchuk and Niels Daan for their helpful editorial comments on an\n earlier version of this manuscript. 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