Differing marine animal biomass shifts under 21st century climate change between Canada’s three oceans

Differing marine animal biomass shifts under 21st century climate change between Canada’s three oceans

Under climate change, species composition and abundances in high-latitude waters are expected to substantially reconfigure with consequences for trophic relationships and ecosystem services. Outcomes are challenging to project at national scales, despite their importance for management decisions. Us...

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Main Authors: Andrea Bryndum-Buchholz, Faelan Prentice, Derek P. Tittensor, Julia L. Blanchard, William W.L. Cheung, Villy Christensen, Eric D. Galbraith, Olivier Maury, Heike K. Lotze
Format: Article
Language:English
Published: Canadian Science Publishing 2020-03-01
Series:FACETS
Subjects:
climate change
ensemble modeling
marine ecosystem models
canada exclusive economic zone
fish-mip
projection uncertainty
Online Access:https://www.facetsjournal.com/doi/10.1139/facets-2019-0035
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spelling doaj-5416b5a9d08848f19598a8cf1bc2f9332021-01-14T20:30:16ZengCanadian Science PublishingFACETS2371-16712020-03-015105 12210.1139/facets-2019-0035Differing marine animal biomass shifts under 21st century climate change between Canada’s three oceansAndrea Bryndum-Buchholz0Faelan Prentice1Derek P. Tittensor2Julia L. Blanchard3William W.L. Cheung4Villy Christensen5Eric D. Galbraith6Olivier Maury7Heike K. Lotze8Department of Biology, Dalhousie University, 1355 Oxford Street, Halifax, NS B3H 4R2, CanadaDepartment of Biology, Dalhousie University, 1355 Oxford Street, Halifax, NS B3H 4R2, CanadaDepartment of Biology, Dalhousie University, 1355 Oxford Street, Halifax, NS B3H 4R2, CanadaInstitute for Marine and Antarctic Studies and Center for Marine Socioecology, University of Tasmania, 20 Castray Esplanade, Battery Point TAS 7004, Private Bag 129, Hobart, Tasmania 7001, AustraliaNippon Foundation-UBC Nereus Program and Changing Ocean Research Unit, Institute for the Oceans and Fisheries, University of British Columbia, Vancouver, BC V6T 1Z4, CanadaInstitute for the Oceans and Fisheries, University of British Columbia, Vancouver, BC V6T 1Z4, CanadaInstitució Catalana de Recerca i Estudis Avançats (ICREA), 08010 Barcelona, Spain Department of Mathematics, Institut de Ciència i Tecnologia Ambientals (ICTA), Universitat Autonoma de Barcelona, 08193 Barcelona, SpainInstitut de Recherche pour le Développement (IRD), MARBEC (IRD, University of Montpellier, IFREMER, CNRS), 34203 Sète, France Department of Oceanography, Marine Research Institute, University of Cape Town, 7701 Rondebosch, South AfricaDepartment of Biology, Dalhousie University, 1355 Oxford Street, Halifax, NS B3H 4R2, CanadaUnder climate change, species composition and abundances in high-latitude waters are expected to substantially reconfigure with consequences for trophic relationships and ecosystem services. Outcomes are challenging to project at national scales, despite their importance for management decisions. Using an ensemble of six global marine ecosystem models we analyzed marine ecosystem responses to climate change from 1971 to 2099 in Canada’s Exclusive Economic Zone (EEZ) under four standardized emissions scenarios. By 2099, under business-as-usual emissions (RCP8.5) projected marine animal biomass declined by an average of −7.7% (±29.5%) within the Canadian EEZ, dominated by declines in the Pacific (−24% ± 24.5%) and Atlantic (−25.5% ± 9.5%) areas; these were partially compensated by increases in the Canadian Arctic (+26.2% ± 38.4%). Lower emissions scenarios projected successively smaller biomass changes, highlighting the benefits of stronger mitigation targets. Individual model projections were most consistent in the Atlantic and Pacific, but highly variable in the Arctic due to model uncertainties in polar regions. Different trajectories of future marine biomass changes will require regional-specific responses in conservation and management strategies, such as adaptive planning of marine protected areas and species-specific management plans, to enhance resilience and rebuilding of Canada’s marine ecosystems and commercial fish stocks.https://www.facetsjournal.com/doi/10.1139/facets-2019-0035climate changeensemble modelingmarine ecosystem modelscanada exclusive economic zonefish-mipprojection uncertainty
collection DOAJ
language English
format Article
sources DOAJ
author Andrea Bryndum-Buchholz
Faelan Prentice
Derek P. Tittensor
Julia L. Blanchard
William W.L. Cheung
Villy Christensen
Eric D. Galbraith
Olivier Maury
Heike K. Lotze
spellingShingle Andrea Bryndum-Buchholz
Faelan Prentice
Derek P. Tittensor
Julia L. Blanchard
William W.L. Cheung
Villy Christensen
Eric D. Galbraith
Olivier Maury
Heike K. Lotze
Differing marine animal biomass shifts under 21st century climate change between Canada’s three oceans
FACETS
climate change
ensemble modeling
marine ecosystem models
canada exclusive economic zone
fish-mip
projection uncertainty
author_facet Andrea Bryndum-Buchholz
Faelan Prentice
Derek P. Tittensor
Julia L. Blanchard
William W.L. Cheung
Villy Christensen
Eric D. Galbraith
Olivier Maury
Heike K. Lotze
author_sort Andrea Bryndum-Buchholz
title Differing marine animal biomass shifts under 21st century climate change between Canada’s three oceans
title_short Differing marine animal biomass shifts under 21st century climate change between Canada’s three oceans
title_full Differing marine animal biomass shifts under 21st century climate change between Canada’s three oceans
title_fullStr Differing marine animal biomass shifts under 21st century climate change between Canada’s three oceans
title_full_unstemmed Differing marine animal biomass shifts under 21st century climate change between Canada’s three oceans
title_sort differing marine animal biomass shifts under 21st century climate change between canada’s three oceans
publisher Canadian Science Publishing
series FACETS
issn 2371-1671
publishDate 2020-03-01
description Under climate change, species composition and abundances in high-latitude waters are expected to substantially reconfigure with consequences for trophic relationships and ecosystem services. Outcomes are challenging to project at national scales, despite their importance for management decisions. Using an ensemble of six global marine ecosystem models we analyzed marine ecosystem responses to climate change from 1971 to 2099 in Canada’s Exclusive Economic Zone (EEZ) under four standardized emissions scenarios. By 2099, under business-as-usual emissions (RCP8.5) projected marine animal biomass declined by an average of −7.7% (±29.5%) within the Canadian EEZ, dominated by declines in the Pacific (−24% ± 24.5%) and Atlantic (−25.5% ± 9.5%) areas; these were partially compensated by increases in the Canadian Arctic (+26.2% ± 38.4%). Lower emissions scenarios projected successively smaller biomass changes, highlighting the benefits of stronger mitigation targets. Individual model projections were most consistent in the Atlantic and Pacific, but highly variable in the Arctic due to model uncertainties in polar regions. Different trajectories of future marine biomass changes will require regional-specific responses in conservation and management strategies, such as adaptive planning of marine protected areas and species-specific management plans, to enhance resilience and rebuilding of Canada’s marine ecosystems and commercial fish stocks.
topic climate change
ensemble modeling
marine ecosystem models
canada exclusive economic zone
fish-mip
projection uncertainty
url https://www.facetsjournal.com/doi/10.1139/facets-2019-0035
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