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52 p, 2.5 MB |
A functional size-spectrum model of the global marine ecosystem that resolves zooplankton composition
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Heneghan, Ryan (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Everett, Jason D. (University of Tasmania. Institute of Marine and Antarctic Studies) ;
Sykes, Patrick (University of Queensland. Centre for Applications in Natural Resource Mathematics) ;
Batten, Sonia D. (Marine Biological Association. The CPR Survey (Canada)) ;
Edwards, Martin (Marine Biological Association of the UK) ;
Takahashi, Kunio (National Institute of Polar Research (Japan)) ;
Suthers, Iain M. (University of New South Wales. School of Biological, Earth and Environmental Sciences) ;
Blanchard, Julia (University of Tasmania. Institute of Marine and Antarctic Studies) ;
Richardson, Anthony J. (University of Queensland. Centre for Applications in Natural Resource Mathematics)
Despite their critical role as the main energy pathway between phytoplankton and fish, the functional complexity of zooplankton is typically poorly resolved in marine ecosystem models. Trait-based approaches-where zooplankton are represented with functional traits such as body size-could help improve the resolution of zooplankton in marine ecosystem models and their role in trophic transfer and carbon sequestration. [...]
2020 -  10.1016/j.ecolmodel.2020.109265
Ecological modelling, Vol. 435 (November 2020) , art. 109265
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2.
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Corrigendum to "A functional size-spectrum model of the global marine ecosystem that resolves zooplankton composition", Ecological Modelling, 2020, 435 : 109265
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Heneghan, Ryan (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Everett, Jason D. (University of Queensland. Centre for Applications in Natural Resource Mathematics) ;
Sykes, Patrick (University of Queensland. Centre for Applications in Natural Resource Mathematics) ;
Batten, Sonia D. (Marine Biological Association. The CPR Survey (Canada)) ;
Edwards, Martin (Marine Biological Association of the UK) ;
Takahashi, Kunio (National Institute of Polar Research (Japan)) ;
Suthers, Iain M. (University of New South Wales. School of Biological, Earth and Environmental Sciences) ;
Blanchard, Julia (University of Tasmania. Institute of Marine and Antarctic Studies) ;
Richardson, Anthony J. (University of Queensland. Centre for Applications in Natural Resource Mathematics)
2023 - 10.1016/j.ecolmodel.2023.110309
Ecological Modelling, Vol. 480 (June 2023) , art. 110309
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14 p, 23.0 MB |
Global food insecurity and famine from reduced crop, marine fishery and livestock production due to climate disruption from nuclear war soot injection
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Xia, Lili (Rutgers University. Department of Environmental Sciences) ;
Robock, Alan (Rutgers University. Department of Environmental Sciences) ;
Scherrer, Kim J. N. (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Harrison, Cheryl S. (Louisiana State University. Department of Ocean and Coastal Science) ;
Bodirsky, Benjamin Leon (Potsdam Institute for Climate Impact Research) ;
Weindl, Isabelle (Potsdam Institute for Climate Impact Research) ;
Jägermeyr, Jonas (Potsdam Institute for Climate Impact Research) ;
Bardeen, Charles G. (National Center for Atmospheric Research (Boulder, USA)) ;
Toon, Owen B. (University of Colorado. Department of Atmospheric and Ocean Sciences) ;
Heneghan, Ryan (Queensland University of Technology. School of Mathematical Sciences)
Atmospheric soot loadings from nuclear weapon detonation would cause disruptions to the Earth's climate, limiting terrestrial and aquatic food production. Here, we use climate, crop and fishery models to estimate the impacts arising from six scenarios of stratospheric soot injection, predicting the total food calories available in each nation post-war after stored food is consumed. [...]
2022 - 10.1038/s43016-022-00573-0
Nature Food, Vol. 3, issue 8 (Aug. 2022) , p. 586-596
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16 p, 7.4 MB |
Disentangling diverse responses to climate change among global marine ecosystem models
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Heneghan, Ryan (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Galbraith, Eric (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Blanchard, Julia (University of Tasmania. Institute for Marine and Antarctic Studies) ;
Harrison, Cheryl (University of Texas. School of Earth Environmental and Marine Science) ;
Barrier, Nicolas (Université Montpellier) ;
Bulman, Catherine (Csiro) ;
Cheung, William W. L. (The University of British Columbia) ;
Coll, Marta (Institut de Ciències del Mar) ;
Eddy, Tyler D. (Memorial University of Newfoundland. Fisheries and Marine Institute) ;
Erauskin-Extramiana, Maite (Alianza Vasca de Investigación y Tecnología) ;
Everett, Jason D. (The University of Queensland. School of Mathematics and Physics) ;
Fernandes, Jose A. (Alianza Vasca de Investigación y Tecnología) ;
Gascuel, Didier (Institut Agro) ;
Guiet, Jérôme (University of Californi. Department of Atmospheric and Oceanic Sciences) ;
Maury, Olivier (Université Montpellier) ;
Palacios-Abrantes, Juliano (University of British Columbia. The Institute for the Oceans and Fisheries) ;
Petrik, Colleen (Texas A&M University. Department of Oceanography) ;
Pontavice, Hubert du (Institut Agro) ;
Richardson, Anthony (The University of Queensland) ;
Steenbeek, Jeroen (Institut de Ciències del Mar) ;
Tai, Travis (University of British Columbia) ;
Volkholz, Jan (Institute for Climate Impact Research) ;
Woodworth-Jefcoats, Phoebe (National Oceanic and Atmospheric A dministration) ;
Tittensor, Derek (Dalhousie University. Department of Biology)
Climate change is warming the ocean and impacting lower trophic level (LTL) organisms. Marine ecosystem models can provide estimates of how these changes will propagate to larger animals and impact societal services such as fisheries, but at present these estimates vary widely. [...]
2021 - 10.1016/j.pocean.2021.102659
Progress in Oceanography, Vol. 198 (November 2021) , art. 102659
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5.
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22 p, 10.8 MB |
Next-generation ensemble projections reveal higher climate risks for marine ecosystems
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Tittensor, Derek (Dalhousie University. Department of Biology) ;
Novaglio, Camilla (University of Tasmania. Institute for Marine and Antarctic Studies) ;
Harrison, Cheryl (University of Texas Rio Grande Valley) ;
Heneghan, Ryan (Queensland University of Technology. School of Mathematical Sciences) ;
Barrier, Nicolas (Université Montpellier) ;
Bianchi, Daniele (University of California Los Angeles. Department of Atmospheric and Oceanic Sciences) ;
Bopp, Laurent (Sorbonne Université. Ecole Polytechnique) ;
Bryndum-Buchholz, Andrea (Dalhousie University. Department of Biology) ;
Britten, Gregory (Massachusetts Institute of Technology) ;
Büchner, Matthias (Potsdam-Institute for Climate Impact Research) ;
Cheung, William W. L. (The University of British Columbia. Institute for the Oceans and Fisheries) ;
Christensen, Villy (The University of British Columbia. Institute for the Oceans and Fisheries) ;
Coll, Marta (Institut de Ciències del Mar) ;
Dunne, Johan (Geophysical Fluid Dynamics Laboratory) ;
Eddy, Tyler D. (Memorial University of Newfoundland. Fisheries and Marine Institute) ;
Everett, Jason D. (The University of Queensland. School of Mathematics and Physics) ;
Fernandes, Jose A. (Alianza Vasca de Investigación y Tecnología) ;
Fulton, Elizabeth A. (University of Tasmania. Center for Marine Socio-ecology) ;
Galbraith, Eric (McGill University. Department of Earth and Planetary Science) ;
Gascuel, Didier (Institut Agro) ;
Guiet, Jérôme (University of California Los Angeles. Department of Atmospheric and Oceanic Sciences) ;
John, Jasmin G. (Geophysical Fluid Dynamics Laboratory) ;
Link, Jason (Noaa Fisheries) ;
Lotze, Heike K.. (Dalhousie University. Department of Biology) ;
Maury, Olivier (Université Montpellier) ;
Ortega-Cisneros, Kelly (University of Cape Town. Department of Biological Sciences) ;
Palacios-Abrantes, Juliano (The University of British Columbia. Institute for the Oceans and Fisheries) ;
Petrik, Colleen (Texas A&M University. Department of Oceanography) ;
Pontavice, Hubert du (Institut Agro) ;
Rault, Jonathan (Université Montpellier) ;
Richardson, Anthony (The University of Queensland. School of Mathematics and Physics) ;
Shannon, Lynne (University of Cape Town. Department of Biological Sciences) ;
Shin, Yunne-Jai (Université Montpellier) ;
Steenbeek, Jeroen (Ecopath International Initiative Research Association) ;
Stock, Charles (Geophysical Fluid Dynamics Laboratory) ;
Blanchard, Julia (University of Tasmania. Institute for Marine and Antarctic Studies)
Projections of climate change impacts on marine ecosystems have revealed long-term declines in global marine animal biomass and unevenly distributed impacts on fisheries. Here we apply an enhanced suite of global marine ecosystem models from the Fisheries and Marine Ecosystem Model Intercomparison Project (Fish-MIP), forced by new-generation Earth system model outputs from Phase 6 of the Coupled Model Intercomparison Project (CMIP6), to provide insights into how projected climate change will affect future ocean ecosystems. [...]
2021 - 10.1038/s41558-021-01173-9
Nature Climate Change, Vol. 11 (November 2021) , p. 973-981
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6.
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13 p, 907.0 KB |
The global ocean size spectrum from bacteria to whales
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Hatton, Ian (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Heneghan, Ryan (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Bar-On, Yinon (Weizmann Institute of Science (Israel). Department of Plant and Environmental Sciences) ;
Galbraith, Eric (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals)
It has long been hypothesized that aquatic biomass is evenly distributed among logarithmic body mass size classes. Although this community structure has been observed regionally, mostly among plankton groups, its generality has never been formally tested across all marine life over the global ocean, nor have the impacts of humans on it been globally assessed. [...]
2021 - 10.1126/sciadv.abh3732
Science advances, Vol. 7, Issue 46 (November 2021) , art. eabh3732
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7.
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11 p, 1.5 MB |
Marine wild-capture fisheries after nuclear war
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Scherrer, Kim J. N. (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Harrison, Cheryl (University of Texas Rio Grande Valley. School of Earth, Environmental and Marine Science (USA)) ;
Heneghan, Ryan (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Galbraith, Eric (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Bardeen, Charles G. (University of Colorado. Laboratory for Atmospheric and Space Physics (USA)) ;
Coupe, Joshua (Rutgers University. Department of Environmental Sciences (USA)) ;
Jägermeyr, Jonas (National Aeronautics and Space Administration. Goddard Institute for Space Studies (USA)) ;
Lovenduski, Nicole S. (University of Colorado. Department of Atmospheric and Oceanic Sciences (USA)) ;
Luna, August (University of Texas Rio Grande Valley. School of Earth, Environmental and Marine Science (USA)) ;
Robock, Alan (Rutgers University. Department of Environmental Sciences (USA)) ;
Stevens, Jessica (University of Texas Rio Grande Valley. School of Earth, Environmental and Marine Science (USA)) ;
Stevenson, Samantha (University of California. Bren School (USA)) ;
Toon, Owen B. (University of Colorado. Laboratory for Atmospheric and Space Physics (USA)) ;
Xia, Lili (Rutgers University. Department of Environmental Sciences (USA))
Nuclear war, beyond its devastating direct impacts, is expected to cause global climatic perturbations through injections of soot into the upper atmosphere. Reduced temperature and sunlight could drive unprecedented reductions in agricultural production, endangering global food security. [...]
2020 - 10.1073/pnas.2008256117
Proceedings of the National Academy of Sciences of the United States of America, Vol. 117, Issue 47 (November 2020) , p. 29748-29758
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