Climate-mediated stock redistribution causes increased risk and challenges for fisheries management

Abstract The environmental conditions that marine populations experience are being altered because of climate change. In particular, changes in temperature and increased variability can cause shifts in spatial distribution, leading to changes in local physiological rates and recruitment success. Yet...

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Published in	ICES journal of marine science Vol. 79; no. 4; pp. 1120 - 1132
Main Authors	Jacobsen, Nis S, Marshall, Kristin N, Berger, Aaron M, Grandin, Chris, Taylor, Ian G
Format	Journal Article
Language	English
Published	Oxford University Press 23.05.2022
Subjects	management strategy evaluation movement Pacific hake climate change
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Abstract	Abstract The environmental conditions that marine populations experience are being altered because of climate change. In particular, changes in temperature and increased variability can cause shifts in spatial distribution, leading to changes in local physiological rates and recruitment success. Yet, management of fish stocks rarely accounts for variable spatial dynamics or changes in movement rates when estimating management quantities such as stock abundance or maximum sustainable yield. To address this concern, a management strategy evaluation (MSE) was developed to evaluate the robustness of the international management system for Pacific hake, an economically important migratory stock, by incorporating spatio-temporal population dynamics. Alternative hypotheses about climate-induced changes in age-specific movement rates, in combination with three different harvest control rules (HCR), were evaluated using a set of simulations that coupled single-area estimation models with alternative operating models representing spatial stock complexity. Movement rates intensified by climate change caused a median decline in catches, increased annual catch variability, and lower average spawning biomass. Impacts varied by area and HCR, underscoring the importance of spatial management. Incorporating spatial dynamics and climate change effects into management procedures for fish stocks with spatial complexity is warranted to mitigate risk and uncertainty for exploited marine populations.
AbstractList	Abstract The environmental conditions that marine populations experience are being altered because of climate change. In particular, changes in temperature and increased variability can cause shifts in spatial distribution, leading to changes in local physiological rates and recruitment success. Yet, management of fish stocks rarely accounts for variable spatial dynamics or changes in movement rates when estimating management quantities such as stock abundance or maximum sustainable yield. To address this concern, a management strategy evaluation (MSE) was developed to evaluate the robustness of the international management system for Pacific hake, an economically important migratory stock, by incorporating spatio-temporal population dynamics. Alternative hypotheses about climate-induced changes in age-specific movement rates, in combination with three different harvest control rules (HCR), were evaluated using a set of simulations that coupled single-area estimation models with alternative operating models representing spatial stock complexity. Movement rates intensified by climate change caused a median decline in catches, increased annual catch variability, and lower average spawning biomass. Impacts varied by area and HCR, underscoring the importance of spatial management. Incorporating spatial dynamics and climate change effects into management procedures for fish stocks with spatial complexity is warranted to mitigate risk and uncertainty for exploited marine populations.
Author	Marshall, Kristin N Grandin, Chris Berger, Aaron M Taylor, Ian G Jacobsen, Nis S
Author_xml	– sequence: 1 givenname: Nis S surname: Jacobsen fullname: Jacobsen, Nis S email: nissandjac@gmail.com – sequence: 2 givenname: Kristin N surname: Marshall fullname: Marshall, Kristin N – sequence: 3 givenname: Aaron M surname: Berger fullname: Berger, Aaron M – sequence: 4 givenname: Chris surname: Grandin fullname: Grandin, Chris – sequence: 5 givenname: Ian G surname: Taylor fullname: Taylor, Ian G
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CitedBy_id	crossref_primary_10_1139_cjfas_2023_0202 crossref_primary_10_1016_j_fishres_2023_106650 crossref_primary_10_1007_s11160_022_09726_7 crossref_primary_10_1016_j_marpol_2023_105833 crossref_primary_10_1038_s44183_024_00046_w crossref_primary_10_1111_faf_12724 crossref_primary_10_1139_cjfas_2024_0008 crossref_primary_10_1111_faf_12753
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Keywords	management strategy evaluation movement Pacific hake climate change
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Snippet	Abstract The environmental conditions that marine populations experience are being altered because of climate change. In particular, changes in temperature and...
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Title	Climate-mediated stock redistribution causes increased risk and challenges for fisheries management
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