Tradeoffs of managing cod as a sustainable resource in fluctuating environments

Sustainable human exploitation of living marine resources stems from a delicate balance between yield stability and population persistence to achieve socioeconomic and conservation goals. But our imperfect knowledge of how oceanic oscillations regulate temporal variation in an exploited species can...

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Published in:Ecological Applications
Main Authors: Goto, Daisuke, Filin, Anatoly A., Howell, Daniel, Bogstad, Bjarte, Kovalev, Yuri A., Gjøsæter, Harald
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Barents Sea
atlantic cod
Gadus morhua
Online Access:https://hdl.handle.net/11250/2838640
https://doi.org/10.1002/eap.2498
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spelling ftimr:oai:imr.brage.unit.no:11250/2838640 2023-05-15T15:27:51+02:00 Tradeoffs of managing cod as a sustainable resource in fluctuating environments Goto, Daisuke Filin, Anatoly A. Howell, Daniel Bogstad, Bjarte Kovalev, Yuri A. Gjøsæter, Harald 2021 application/pdf https://hdl.handle.net/11250/2838640 https://doi.org/10.1002/eap.2498 eng eng Havforskningsinstituttet: REDUS Ecological Applications. 2021, . urn:issn:1051-0761 https://hdl.handle.net/11250/2838640 https://doi.org/10.1002/eap.2498 cristin:1976474 16 Ecological Applications Peer reviewed Journal article 2021 ftimr https://doi.org/10.1002/eap.2498 2022-01-26T23:38:54Z Sustainable human exploitation of living marine resources stems from a delicate balance between yield stability and population persistence to achieve socioeconomic and conservation goals. But our imperfect knowledge of how oceanic oscillations regulate temporal variation in an exploited species can obscure the risk of missing management targets. We illustrate how applying a management policy to suppress fluctuations in fishery yield in variable environments (prey density and regional climate) can present unintended outcomes in harvested predators and the sustainability of harvesting. Using Atlantic cod (Gadus morhua, an apex predatory fish) in the Barents Sea as a case study we simulate age-structured population and harvest dynamics through time-varying, density-dependent and density-independent processes with a stochastic, process-based model informed by 27-year monitoring data. In this model, capelin (Mallotus villosus, a pelagic forage fish), a primary prey of cod, fluctuations modulate the strength of density-dependent regulation primarily through cannibalistic pressure on juvenile cod survival; sea temperature fluctuations modulate thermal regulation of cod feeding, growth, maturation, and reproduction. We first explore how capelin and temperature fluctuations filtered through cod intrinsic dynamics modify catch stability and then evaluate how management to suppress short-term variability in catch targets alters overharvest risk. Analyses revealed that suppressing year-to-year catch variability impedes management responses to adjust fishing pressure, which becomes progressively out of sync with variations in cod abundance. This asynchrony becomes amplified in fluctuating environments, magnifying the amplitudes of both fishing pressure and cod abundance and then intensifying the density-dependent regulation of juvenile survival through cannibalism. Although these transient dynamics theoretically give higher average catches, emergent, quasicyclic behaviors of the population would increase long-term yield variability and elevate overharvest risk. Management strategies that overlook the interplay of extrinsic (fishing and environment) and intrinsic (life history and demography) fluctuations thus can inadvertently destabilize fish stocks, thereby jeopardizing the sustainability of harvesting. These policy implications underscore the value of ecosystem approaches to designing management measures to sustainably harvest ecologically connected resources while achieving socioeconomic security. publishedVersion Article in Journal/Newspaper atlantic cod Barents Sea Gadus morhua Institute for Marine Research: Brage IMR Barents Sea Ecological Applications
institution Open Polar
collection Institute for Marine Research: Brage IMR
op_collection_id ftimr
language English
description Sustainable human exploitation of living marine resources stems from a delicate balance between yield stability and population persistence to achieve socioeconomic and conservation goals. But our imperfect knowledge of how oceanic oscillations regulate temporal variation in an exploited species can obscure the risk of missing management targets. We illustrate how applying a management policy to suppress fluctuations in fishery yield in variable environments (prey density and regional climate) can present unintended outcomes in harvested predators and the sustainability of harvesting. Using Atlantic cod (Gadus morhua, an apex predatory fish) in the Barents Sea as a case study we simulate age-structured population and harvest dynamics through time-varying, density-dependent and density-independent processes with a stochastic, process-based model informed by 27-year monitoring data. In this model, capelin (Mallotus villosus, a pelagic forage fish), a primary prey of cod, fluctuations modulate the strength of density-dependent regulation primarily through cannibalistic pressure on juvenile cod survival; sea temperature fluctuations modulate thermal regulation of cod feeding, growth, maturation, and reproduction. We first explore how capelin and temperature fluctuations filtered through cod intrinsic dynamics modify catch stability and then evaluate how management to suppress short-term variability in catch targets alters overharvest risk. Analyses revealed that suppressing year-to-year catch variability impedes management responses to adjust fishing pressure, which becomes progressively out of sync with variations in cod abundance. This asynchrony becomes amplified in fluctuating environments, magnifying the amplitudes of both fishing pressure and cod abundance and then intensifying the density-dependent regulation of juvenile survival through cannibalism. Although these transient dynamics theoretically give higher average catches, emergent, quasicyclic behaviors of the population would increase long-term yield variability and elevate overharvest risk. Management strategies that overlook the interplay of extrinsic (fishing and environment) and intrinsic (life history and demography) fluctuations thus can inadvertently destabilize fish stocks, thereby jeopardizing the sustainability of harvesting. These policy implications underscore the value of ecosystem approaches to designing management measures to sustainably harvest ecologically connected resources while achieving socioeconomic security. publishedVersion
format Article in Journal/Newspaper
author Goto, Daisuke
Filin, Anatoly A.
Howell, Daniel
Bogstad, Bjarte
Kovalev, Yuri A.
Gjøsæter, Harald
spellingShingle Goto, Daisuke
Filin, Anatoly A.
Howell, Daniel
Bogstad, Bjarte
Kovalev, Yuri A.
Gjøsæter, Harald
Tradeoffs of managing cod as a sustainable resource in fluctuating environments
author_facet Goto, Daisuke
Filin, Anatoly A.
Howell, Daniel
Bogstad, Bjarte
Kovalev, Yuri A.
Gjøsæter, Harald
author_sort Goto, Daisuke
title Tradeoffs of managing cod as a sustainable resource in fluctuating environments
title_short Tradeoffs of managing cod as a sustainable resource in fluctuating environments
title_full Tradeoffs of managing cod as a sustainable resource in fluctuating environments
title_fullStr Tradeoffs of managing cod as a sustainable resource in fluctuating environments
title_full_unstemmed Tradeoffs of managing cod as a sustainable resource in fluctuating environments
title_sort tradeoffs of managing cod as a sustainable resource in fluctuating environments
publishDate 2021
url https://hdl.handle.net/11250/2838640
https://doi.org/10.1002/eap.2498
geographic Barents Sea
geographic_facet Barents Sea
genre atlantic cod
Barents Sea
Gadus morhua
genre_facet atlantic cod
Barents Sea
Gadus morhua
op_source 16
Ecological Applications
op_relation Havforskningsinstituttet: REDUS
Ecological Applications. 2021, .
urn:issn:1051-0761
https://hdl.handle.net/11250/2838640
https://doi.org/10.1002/eap.2498
cristin:1976474
op_doi https://doi.org/10.1002/eap.2498
container_title Ecological Applications
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