Global and Regional Marine Ecosystem Models Reveal Key Uncertainties in Climate Change Projections

Tyler D. Eddy, Marine Institute of Memorial University of Newfoundland
Ryan F. Heneghan, Griffith University
Andrea Bryndum-Buchholz, Marine Institute of Memorial University of Newfoundland
Elizabeth A. Fulton, Commonwealth Scientific and Industrial Research Organisation
Cheryl S. Harrison, Louisiana State University
Derek P. Tittensor, Dalhousie University, Faculty of Medicine
Heike K. Lotze, Dalhousie University, Faculty of Medicine
Kelly Ortega-Cisneros, Nelson Mandela University
Camilla Novaglio, University of Tasmania
Daniele Bianchi, University of California, Los Angeles
Matthias Büchner, Leibniz-Gemeinschaft
Catherine Bulman, Commonwealth Scientific and Industrial Research Organisation
William W.L. Cheung, The University of British Columbia
Villy Christensen, The University of British Columbia
Marta Coll, Ecopath International Initiative
Jason D. Everett, The University of Queensland
Denisse Fierro-Arcos, Institute for Marine and Antarctic Studies
Eric D. Galbraith, Université McGill
Didier Gascuel, IFREMER Institut Francais de Recherche pour l'Exploitation de la Mer
Jerome Guiet, University of California, Los Angeles
Steve Mackinson, Scottish Pelagic Fishermen's Association
Olivier Maury, Université de Montpellier
Susa Niiranen, Stockholm Resilience Centre
Ricardo Oliveros-Ramos, Université de Montpellier
Juliano Palacios-Abrantes, The University of British Columbia
Chiara Piroddi, European Commission Joint Research Centre
Hubert du Pontavice, IFREMER Institut Francais de Recherche pour l'Exploitation de la Mer
Jonathan Reum, NOAA Alaska Fisheries Science Center
Anthony J. Richardson, The University of Queensland
Jacob Schewe, Leibniz-Gemeinschaft
Lynne Shannon, University of Cape Town
Yunne Jai Shin, Université de Montpellier
Jeroen Steenbeek, Ecopath International Initiative

Document Type

Article

Publication Date

3-1-2025

Abstract

Climate change is affecting ocean temperature, acidity, currents, and primary production, causing shifts in species distributions, marine ecosystems, and ultimately fisheries. Earth system models simulate climate change impacts on physical and biogeochemical properties of future oceans under varying emissions scenarios. Coupling these simulations with an ensemble of global marine ecosystem models has indicated broad decreases of fish biomass with warming. However, regional details of these impacts remain much more uncertain. Here, we employ CMIP5 and CMIP6 climate change impact projections using two Earth system models coupled with four regional and nine global marine ecosystem models in 10 ocean regions to evaluate model agreement at regional scales. We find that models developed at different scales can lead to stark differences in biomass projections. On average, global models projected greater biomass declines by the end of the 21st century than regional models. For both global and regional models, greater biomass declines were projected using CMIP6 than CMIP5 simulations. Global models projected biomass declines in 86% of CMIP5 simulations for ocean regions compared to 50% for regional models in the same ocean regions. In CMIP6 simulations, all global model simulations projected biomass declines in ocean regions by 2100, while regional models projected biomass declines in 67% of the ocean region simulations. Our analysis suggests that improved understanding of the causes of differences between global and regional marine ecosystem model climate change projections is needed, alongside observational evaluation of modeled responses.

Publication Source (Journal or Book title)

Earth S Future

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