Global Connectivity of Southern Ocean Ecosystems
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2021 |
| Outros Autores: | , , , , , , , , , , , , , , , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) |
| Texto Completo: | http://hdl.handle.net/10316/95712 https://doi.org/10.3389/fevo.2021.624451 |
Resumo: | Southern Ocean ecosystems are globally important. Processes in the Antarctic atmosphere, cryosphere, and the Southern Ocean directly influence global atmospheric and oceanic systems. Southern Ocean biogeochemistry has also been shown to have global importance. In contrast, ocean ecological processes are often seen as largely separate from the rest of the global system. In this paper, we consider the degree of ecological connectivity at different trophic levels, linking Southern Ocean ecosystems with the global ocean, and their importance not only for the regional ecosystem but also the wider Earth system. We also consider the human system connections, including the role of Southern Ocean ecosystems in supporting society, culture, and economy in many nations, influencing public and political views and hence policy. Rather than Southern Ocean ecosystems being defined by barriers at particular oceanic fronts, ecological changes are gradual due to cross-front exchanges involving oceanographic processes and organism movement. Millions of seabirds and hundreds of thousands of cetaceans move north out of polar waters in the austral autumn interacting in food webs across the Southern Hemisphere, and a few species cross the equator. A number of species migrate into the east and west ocean-basin boundary current and continental shelf regions of the major southern continents. Human travel in and out of the Southern Ocean region includes fisheries, tourism, and scientific vessels in all ocean sectors. These operations arise from many nations, particularly in the Northern Hemisphere, and are important in local communities as well as national economic, scientific, and political activities. As a result of the extensive connectivity, future changes in Southern Ocean ecosystems will have consequences throughout the Earth system, affecting ecosystem services with socio-economic impacts throughout the world. The high level of connectivity also means that changes and policy decisions in marine ecosystems outside the Southern Ocean have consequences for ecosystems south of the Antarctic Polar Front. Knowledge of Southern Ocean ecosystems and their global connectivity is critical for interpreting current change, projecting future change impacts, and identifying integrated strategies for conserving and managing both the Southern Ocean and the broader Earth system. © Copyright © 2021 Murphy, Johnston, Hofmann, Phillips, Jackson, Constable, Henley, Melbourne-Thomas, Trebilco, Cavanagh, Tarling, Saunders, Barnes, Costa, Corney, Fraser, Höfer, Hughes, Sands, Thorpe, Trathan and Xavier. |
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Global Connectivity of Southern Ocean EcosystemsClimate changeEcological connectionsFisheriesFood websGlobal connectivityScaleSocio-economicSouthern OceanSouthern Ocean ecosystems are globally important. Processes in the Antarctic atmosphere, cryosphere, and the Southern Ocean directly influence global atmospheric and oceanic systems. Southern Ocean biogeochemistry has also been shown to have global importance. In contrast, ocean ecological processes are often seen as largely separate from the rest of the global system. In this paper, we consider the degree of ecological connectivity at different trophic levels, linking Southern Ocean ecosystems with the global ocean, and their importance not only for the regional ecosystem but also the wider Earth system. We also consider the human system connections, including the role of Southern Ocean ecosystems in supporting society, culture, and economy in many nations, influencing public and political views and hence policy. Rather than Southern Ocean ecosystems being defined by barriers at particular oceanic fronts, ecological changes are gradual due to cross-front exchanges involving oceanographic processes and organism movement. Millions of seabirds and hundreds of thousands of cetaceans move north out of polar waters in the austral autumn interacting in food webs across the Southern Hemisphere, and a few species cross the equator. A number of species migrate into the east and west ocean-basin boundary current and continental shelf regions of the major southern continents. Human travel in and out of the Southern Ocean region includes fisheries, tourism, and scientific vessels in all ocean sectors. These operations arise from many nations, particularly in the Northern Hemisphere, and are important in local communities as well as national economic, scientific, and political activities. As a result of the extensive connectivity, future changes in Southern Ocean ecosystems will have consequences throughout the Earth system, affecting ecosystem services with socio-economic impacts throughout the world. The high level of connectivity also means that changes and policy decisions in marine ecosystems outside the Southern Ocean have consequences for ecosystems south of the Antarctic Polar Front. Knowledge of Southern Ocean ecosystems and their global connectivity is critical for interpreting current change, projecting future change impacts, and identifying integrated strategies for conserving and managing both the Southern Ocean and the broader Earth system. © Copyright © 2021 Murphy, Johnston, Hofmann, Phillips, Jackson, Constable, Henley, Melbourne-Thomas, Trebilco, Cavanagh, Tarling, Saunders, Barnes, Costa, Corney, Fraser, Höfer, Hughes, Sands, Thorpe, Trathan and Xavier.This work was supported by the UK RI- Natural Environment Research Council (NERC) through the British Antarctic Survey (BAS) ALI-Science Southern Ocean ecosystems project of the BAS Ecosystems Programme. EH was supported by the United States National Science Foundation Grant OPP-1643652. SH was supported by the United Kingdom Natural Environment Research Council through Grant NE/K010034/1. CF was also supported by a Rutherford Discovery Fellowship from the Royal Society of New Zealand (RDF-UOO1803) and by the New Zealand Antarctic Science Platform (Project 3). SC was also supported by the Australian Fisheries Research Development Corporation through Grant FRDC2018/133. JH was supported by ANID (FONDAP-IDEAL 15150003) and FONDECYT (Regular 1211338). ICED also co-supported JH attendance at the MEASO workshop. JX was supported by the strategic program of MARE (Marine and Environmental Sciences Centre), financed by the Foundation for Science and Technology,Portugal (UIDB/04292/2020).Elsevier2021info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articlehttp://hdl.handle.net/10316/95712http://hdl.handle.net/10316/95712https://doi.org/10.3389/fevo.2021.624451eng2296701XMurphy, Eugene J.Johnston, Nadine M.Hofmann, Eileen E.Phillips, Richard A.Jackson, Jennifer A.Constable, Andrew J.Henley, Sian F.Melbourne-Thomas, JessicaTrebilco, RowanCavanagh, Rachel D.Tarling, G. A.Saunders, Ryan A.Barnes, David K. A.Costa, Daniel P.Corney, Stuart P.Fraser, Ceridwen I.Höfer, JuanHughes, Kevin A.Sands, Chester J.Thorpe, Sally E.Trathan, Philip N.Xavier, José C.info:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2022-05-25T03:29:05Zoai:estudogeral.uc.pt:10316/95712Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-19T21:14:07.977467Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse |
| dc.title.none.fl_str_mv |
Global Connectivity of Southern Ocean Ecosystems |
| title |
Global Connectivity of Southern Ocean Ecosystems |
| spellingShingle |
Global Connectivity of Southern Ocean Ecosystems Murphy, Eugene J. Climate change Ecological connections Fisheries Food webs Global connectivity Scale Socio-economic Southern Ocean |
| title_short |
Global Connectivity of Southern Ocean Ecosystems |
| title_full |
Global Connectivity of Southern Ocean Ecosystems |
| title_fullStr |
Global Connectivity of Southern Ocean Ecosystems |
| title_full_unstemmed |
Global Connectivity of Southern Ocean Ecosystems |
| title_sort |
Global Connectivity of Southern Ocean Ecosystems |
| author |
Murphy, Eugene J. |
| author_facet |
Murphy, Eugene J. Johnston, Nadine M. Hofmann, Eileen E. Phillips, Richard A. Jackson, Jennifer A. Constable, Andrew J. Henley, Sian F. Melbourne-Thomas, Jessica Trebilco, Rowan Cavanagh, Rachel D. Tarling, G. A. Saunders, Ryan A. Barnes, David K. A. Costa, Daniel P. Corney, Stuart P. Fraser, Ceridwen I. Höfer, Juan Hughes, Kevin A. Sands, Chester J. Thorpe, Sally E. Trathan, Philip N. Xavier, José C. |
| author_role |
author |
| author2 |
Johnston, Nadine M. Hofmann, Eileen E. Phillips, Richard A. Jackson, Jennifer A. Constable, Andrew J. Henley, Sian F. Melbourne-Thomas, Jessica Trebilco, Rowan Cavanagh, Rachel D. Tarling, G. A. Saunders, Ryan A. Barnes, David K. A. Costa, Daniel P. Corney, Stuart P. Fraser, Ceridwen I. Höfer, Juan Hughes, Kevin A. Sands, Chester J. Thorpe, Sally E. Trathan, Philip N. Xavier, José C. |
| author2_role |
author author author author author author author author author author author author author author author author author author author author author |
| dc.contributor.author.fl_str_mv |
Murphy, Eugene J. Johnston, Nadine M. Hofmann, Eileen E. Phillips, Richard A. Jackson, Jennifer A. Constable, Andrew J. Henley, Sian F. Melbourne-Thomas, Jessica Trebilco, Rowan Cavanagh, Rachel D. Tarling, G. A. Saunders, Ryan A. Barnes, David K. A. Costa, Daniel P. Corney, Stuart P. Fraser, Ceridwen I. Höfer, Juan Hughes, Kevin A. Sands, Chester J. Thorpe, Sally E. Trathan, Philip N. Xavier, José C. |
| dc.subject.por.fl_str_mv |
Climate change Ecological connections Fisheries Food webs Global connectivity Scale Socio-economic Southern Ocean |
| topic |
Climate change Ecological connections Fisheries Food webs Global connectivity Scale Socio-economic Southern Ocean |
| description |
Southern Ocean ecosystems are globally important. Processes in the Antarctic atmosphere, cryosphere, and the Southern Ocean directly influence global atmospheric and oceanic systems. Southern Ocean biogeochemistry has also been shown to have global importance. In contrast, ocean ecological processes are often seen as largely separate from the rest of the global system. In this paper, we consider the degree of ecological connectivity at different trophic levels, linking Southern Ocean ecosystems with the global ocean, and their importance not only for the regional ecosystem but also the wider Earth system. We also consider the human system connections, including the role of Southern Ocean ecosystems in supporting society, culture, and economy in many nations, influencing public and political views and hence policy. Rather than Southern Ocean ecosystems being defined by barriers at particular oceanic fronts, ecological changes are gradual due to cross-front exchanges involving oceanographic processes and organism movement. Millions of seabirds and hundreds of thousands of cetaceans move north out of polar waters in the austral autumn interacting in food webs across the Southern Hemisphere, and a few species cross the equator. A number of species migrate into the east and west ocean-basin boundary current and continental shelf regions of the major southern continents. Human travel in and out of the Southern Ocean region includes fisheries, tourism, and scientific vessels in all ocean sectors. These operations arise from many nations, particularly in the Northern Hemisphere, and are important in local communities as well as national economic, scientific, and political activities. As a result of the extensive connectivity, future changes in Southern Ocean ecosystems will have consequences throughout the Earth system, affecting ecosystem services with socio-economic impacts throughout the world. The high level of connectivity also means that changes and policy decisions in marine ecosystems outside the Southern Ocean have consequences for ecosystems south of the Antarctic Polar Front. Knowledge of Southern Ocean ecosystems and their global connectivity is critical for interpreting current change, projecting future change impacts, and identifying integrated strategies for conserving and managing both the Southern Ocean and the broader Earth system. © Copyright © 2021 Murphy, Johnston, Hofmann, Phillips, Jackson, Constable, Henley, Melbourne-Thomas, Trebilco, Cavanagh, Tarling, Saunders, Barnes, Costa, Corney, Fraser, Höfer, Hughes, Sands, Thorpe, Trathan and Xavier. |
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2021 |
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2021 |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
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http://hdl.handle.net/10316/95712 http://hdl.handle.net/10316/95712 https://doi.org/10.3389/fevo.2021.624451 |
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http://hdl.handle.net/10316/95712 https://doi.org/10.3389/fevo.2021.624451 |
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eng |
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eng |
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2296701X |
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Elsevier |
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Elsevier |
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