Climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging shark

Climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging shark

Climate-driven expansions of ocean hypoxic zones are predicted to concentrate pelagic fish in oxygenated surface layers, but how expanding hypoxia and fisheries will interact to affect threatened pelagic sharks remains unknown. Here, analysis of satellite-tracked blue sharks and environmental modell...

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Main Authors: Marisa Vedor, Nuno Queiroz, Gonzalo Mucientes, Ana Couto, Ivo da Costa, António dos Santos, Frederic Vandeperre, Jorge Fontes, Pedro Afonso, Rui Rosa, Nicolas E Humphries, David W Sims
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2021-01-01
Series:eLife
Subjects:
blue shark
elasmobranch
fish
Online Access:https://elifesciences.org/articles/62508
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spelling doaj-7969711757ae4d3f99f2df742f03df662021-05-05T22:42:06ZengeLife Sciences Publications LtdeLife2050-084X2021-01-011010.7554/eLife.62508Climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging sharkMarisa Vedor0https://orcid.org/0000-0001-7336-3732Nuno Queiroz1https://orcid.org/0000-0002-3860-7356Gonzalo Mucientes2https://orcid.org/0000-0001-6650-3020Ana Couto3Ivo da Costa4António dos Santos5Frederic Vandeperre6Jorge Fontes7Pedro Afonso8Rui Rosa9https://orcid.org/0000-0003-2801-5178Nicolas E Humphries10https://orcid.org/0000-0003-3741-1594David W Sims11https://orcid.org/0000-0002-0916-7363CIBIO/InBIO, Universidade do Porto, Campus Agrário de Vairão, Vairão, Portugal; MARE, Laboratório Marítimo da Guia, Faculdade de Ciências da Universidade de Lisboa, Av. Nossa Senhora do Cabo, Cascais, PortugalCIBIO/InBIO, Universidade do Porto, Campus Agrário de Vairão, Vairão, Portugal; Marine Biological Association of the United Kingdom, The Laboratory, Citadel Hill, Plymouth, United KingdomCIBIO/InBIO, Universidade do Porto, Campus Agrário de Vairão, Vairão, Portugal; Instituto de Investigaciones Marinas, Consejo Superior de Investigaciones Científicas (IIM-CSIC), Vigo, SpainCIBIO/InBIO, Universidade do Porto, Campus Agrário de Vairão, Vairão, PortugalCIBIO/InBIO, Universidade do Porto, Campus Agrário de Vairão, Vairão, PortugalCIBIO/InBIO, Universidade do Porto, Campus Agrário de Vairão, Vairão, PortugalIMAR – Institute of Marine Research, Departamento de Oceanografia e Pescas, Universidade dos Açores, Horta, Portugal; MARE – Marine and Environmental Sciences Centre, Faculdade de Ciências da Universidade de Lisboa, Lisbon, Portugal; Okeanos - Departamento de Oceanografia e Pescas, Universidade dos Açores, Horta, PortugalIMAR – Institute of Marine Research, Departamento de Oceanografia e Pescas, Universidade dos Açores, Horta, Portugal; Okeanos - Departamento de Oceanografia e Pescas, Universidade dos Açores, Horta, PortugalIMAR – Institute of Marine Research, Departamento de Oceanografia e Pescas, Universidade dos Açores, Horta, Portugal; Okeanos - Departamento de Oceanografia e Pescas, Universidade dos Açores, Horta, PortugalMARE, Laboratório Marítimo da Guia, Faculdade de Ciências da Universidade de Lisboa, Av. Nossa Senhora do Cabo, Cascais, PortugalMarine Biological Association of the United Kingdom, The Laboratory, Citadel Hill, Plymouth, United KingdomMarine Biological Association of the United Kingdom, The Laboratory, Citadel Hill, Plymouth, United Kingdom; Centre for Biological Sciences, Highfield Campus, University of Southampton, Southampton, United Kingdom; Ocean and Earth Science, National Oceanography Centre Southampton, Waterfront Campus, University of Southampton, Southampton, United KingdomClimate-driven expansions of ocean hypoxic zones are predicted to concentrate pelagic fish in oxygenated surface layers, but how expanding hypoxia and fisheries will interact to affect threatened pelagic sharks remains unknown. Here, analysis of satellite-tracked blue sharks and environmental modelling in the eastern tropical Atlantic oxygen minimum zone (OMZ) shows shark maximum dive depths decreased due to combined effects of decreasing dissolved oxygen (DO) at depth, high sea surface temperatures, and increased surface-layer net primary production. Multiple factors associated with climate-driven deoxygenation contributed to blue shark vertical habitat compression, potentially increasing their vulnerability to surface fisheries. Greater intensity of longline fishing effort occurred above the OMZ compared to adjacent waters. Higher shark catches were associated with strong DO gradients, suggesting potential aggregation along suitable DO gradients contributed to habitat compression and higher fishing-induced mortality. Fisheries controls to counteract deoxygenation effects on shark catches will be needed as oceans continue warming.https://elifesciences.org/articles/62508blue sharkelasmobranchfish
collection DOAJ
language English
format Article
sources DOAJ
author Marisa Vedor
Nuno Queiroz
Gonzalo Mucientes
Ana Couto
Ivo da Costa
António dos Santos
Frederic Vandeperre
Jorge Fontes
Pedro Afonso
Rui Rosa
Nicolas E Humphries
David W Sims
spellingShingle Marisa Vedor
Nuno Queiroz
Gonzalo Mucientes
Ana Couto
Ivo da Costa
António dos Santos
Frederic Vandeperre
Jorge Fontes
Pedro Afonso
Rui Rosa
Nicolas E Humphries
David W Sims
Climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging shark
eLife
blue shark
elasmobranch
fish
author_facet Marisa Vedor
Nuno Queiroz
Gonzalo Mucientes
Ana Couto
Ivo da Costa
António dos Santos
Frederic Vandeperre
Jorge Fontes
Pedro Afonso
Rui Rosa
Nicolas E Humphries
David W Sims
author_sort Marisa Vedor
title Climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging shark
title_short Climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging shark
title_full Climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging shark
title_fullStr Climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging shark
title_full_unstemmed Climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging shark
title_sort climate-driven deoxygenation elevates fishing vulnerability for the ocean's widest ranging shark
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2021-01-01
description Climate-driven expansions of ocean hypoxic zones are predicted to concentrate pelagic fish in oxygenated surface layers, but how expanding hypoxia and fisheries will interact to affect threatened pelagic sharks remains unknown. Here, analysis of satellite-tracked blue sharks and environmental modelling in the eastern tropical Atlantic oxygen minimum zone (OMZ) shows shark maximum dive depths decreased due to combined effects of decreasing dissolved oxygen (DO) at depth, high sea surface temperatures, and increased surface-layer net primary production. Multiple factors associated with climate-driven deoxygenation contributed to blue shark vertical habitat compression, potentially increasing their vulnerability to surface fisheries. Greater intensity of longline fishing effort occurred above the OMZ compared to adjacent waters. Higher shark catches were associated with strong DO gradients, suggesting potential aggregation along suitable DO gradients contributed to habitat compression and higher fishing-induced mortality. Fisheries controls to counteract deoxygenation effects on shark catches will be needed as oceans continue warming.
topic blue shark
elasmobranch
fish
url https://elifesciences.org/articles/62508
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