Tracking of marine predators to protect Southern Ocean ecosystems

Southern Ocean ecosystems are under pressure from resource exploitation and climate change 1 , 2 . Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking o...

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Published in	Nature (London) Vol. 580; no. 7801; pp. 87 - 92
Main Authors	Hindell, Mark A., Reisinger, Ryan R., Ropert-Coudert, Yan, Hückstädt, Luis A., Trathan, Philip N., Bornemann, Horst, Charrassin, Jean-Benoît, Chown, Steven L., Costa, Daniel P., Danis, Bruno, Lea, Mary-Anne, Thompson, David, Torres, Leigh G., Van de Putte, Anton P., Alderman, Rachael, Andrews-Goff, Virginia, Arthur, Ben, Ballard, Grant, Bengtson, John, Bester, Marthán N., Blix, Arnoldus Schytte, Boehme, Lars, Bost, Charles-André, Boveng, Peter, Cleeland, Jaimie, Constantine, Rochelle, Corney, Stuart, Crawford, Robert J. M., Dalla Rosa, Luciano, de Bruyn, P. J. Nico, Delord, Karine, Descamps, Sébastien, Double, Mike, Emmerson, Louise, Fedak, Mike, Friedlaender, Ari, Gales, Nick, Goebel, Michael E., Goetz, Kimberly T., Guinet, Christophe, Goldsworthy, Simon D., Harcourt, Rob, Hinke, Jefferson T., Jerosch, Kerstin, Kato, Akiko, Kerry, Knowles R., Kirkwood, Roger, Kooyman, Gerald L., Kovacs, Kit M., Lawton, Kieran, Lowther, Andrew D., Lydersen, Christian, Lyver, Phil O’B., Makhado, Azwianewi B., Márquez, Maria E. I., McDonald, Birgitte I., McMahon, Clive R., Muelbert, Monica, Nachtsheim, Dominik, Nicholls, Keith W., Nordøy, Erling S., Olmastroni, Silvia, Phillips, Richard A., Pistorius, Pierre, Plötz, Joachim, Pütz, Klemens, Ratcliffe, Norman, Ryan, Peter G., Santos, Mercedes, Southwell, Colin, Staniland, Iain, Takahashi, Akinori, Tarroux, Arnaud, Trivelpiece, Wayne, Wakefield, Ewan, Weimerskirch, Henri, Wienecke, Barbara, Xavier, José C., Wotherspoon, Simon, Jonsen, Ian D., Raymond, Ben
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 01.04.2020 Nature Publishing Group
Subjects	631/158/1144 631/158/672 Animal Identification Systems Animals Antarctic Regions Aquatic Organisms - physiology Biodiversity Biogeochemistry Biomass Birds Climate change Climate Change - statistics & numerical data Climatic changes Conservation of Natural Resources - methods Continental shelves Ecosystem Ecosystems Emission standards Environmental aspects Environmental Sciences Fisheries Fishes Fishing Food Chain Food chains Habitats Humanities and Social Sciences Ice Cover Mammals Marine ecosystems multidisciplinary Oceans Oceans and Seas Population Dynamics Predators Predatory Behavior Pressure Productivity Resource exploitation Science Science (multidisciplinary) Threat evaluation Tracking Antarctic Regions Australia Antarctic Peninsula Southern Ocean
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Abstract	Southern Ocean ecosystems are under pressure from resource exploitation and climate change 1 , 2 . Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000 tracks from 17 bird and mammal species reveals AESs around sub-Antarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of 40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems. Tracking data from 17 marine predator species in the Southern Ocean are used to identify Areas of Ecological Significance, the protection of which could help to mitigate increasing pressures on Southern Ocean ecosystems.
AbstractList	Southern Ocean ecosystems are under pressure from resource exploitation and climate change.sup.1,2. Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000 tracks from 17 bird and mammal species reveals AESs around sub-Antarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of 40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems. Southern Ocean ecosystems are under pressure from resource exploitation and climate change 1 , 2 . Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000 tracks from 17 bird and mammal species reveals AESs around sub-Antarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of 40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems. Tracking data from 17 marine predator species in the Southern Ocean are used to identify Areas of Ecological Significance, the protection of which could help to mitigate increasing pressures on Southern Ocean ecosystems. Southern Ocean ecosystems are under pressure from resource exploitation and climate change.sup.1,2. Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000 tracks from 17 bird and mammal species reveals AESs around sub-Antarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of 40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems. Tracking data from 17 marine predator species in the Southern Ocean are used to identify Areas of Ecological Significance, the protection of which could help to mitigate increasing pressures on Southern Ocean ecosystems. Southern Ocean ecosystems are under pressure from resource exploitation and climate change1,2. Mitigation requires the identification and protection of Areas ofEcological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000tracks from 17 bird and mammal species reveals AESs around subAntarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems. Southern Ocean ecosystems are under pressure from resource exploitation and climate change1,2. Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000 tracks from 17 bird and mammal species reveals AESs around sub-Antarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of 40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems. Southern Ocean ecosystems are under pressure from resource exploitation and climate change1,2. Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000 tracks from 17 bird and mammal species reveals AESs around sub-Antarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of 40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems.Southern Ocean ecosystems are under pressure from resource exploitation and climate change1,2. Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000 tracks from 17 bird and mammal species reveals AESs around sub-Antarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of 40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems. Southern Ocean ecosystems are under pressure from resource exploitation and climate change . Mitigation requires the identification and protection of Areas of Ecological Significance (AESs), which have so far not been determined at the ocean-basin scale. Here, using assemblage-level tracking of marine predators, we identify AESs for this globally important region and assess current threats and protection levels. Integration of more than 4,000 tracks from 17 bird and mammal species reveals AESs around sub-Antarctic islands in the Atlantic and Indian Oceans and over the Antarctic continental shelf. Fishing pressure is disproportionately concentrated inside AESs, and climate change over the next century is predicted to impose pressure on these areas, particularly around the Antarctic continent. At present, 7.1% of the ocean south of 40°S is under formal protection, including 29% of the total AESs. The establishment and regular revision of networks of protection that encompass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosystems.
Audience	Academic
Author	Charrassin, Jean-Benoît Delord, Karine Lowther, Andrew D. Staniland, Iain Van de Putte, Anton P. Dalla Rosa, Luciano Ratcliffe, Norman Hindell, Mark A. Bester, Marthán N. Makhado, Azwianewi B. Trathan, Philip N. Takahashi, Akinori Ropert-Coudert, Yan Kato, Akiko Kovacs, Kit M. Boehme, Lars Nachtsheim, Dominik Costa, Daniel P. Pütz, Klemens Lydersen, Christian Nicholls, Keith W. Arthur, Ben Wotherspoon, Simon Lea, Mary-Anne Crawford, Robert J. M. Wakefield, Ewan Boveng, Peter Márquez, Maria E. I. Gales, Nick Kerry, Knowles R. Southwell, Colin Reisinger, Ryan R. Pistorius, Pierre Plötz, Joachim Cleeland, Jaimie Lawton, Kieran Santos, Mercedes Tarroux, Arnaud Alderman, Rachael Bost, Charles-André McDonald, Birgitte I. Constantine, Rochelle Chown, Steven L. Raymond, Ben Emmerson, Louise Goldsworthy, Simon D. Harcourt, Rob Nordøy, Erling S. Bengtson, John Guinet, Christophe Thompson, David Muelbert, Monica Friedlaender, Ari Double, Mike Xavier, José C. Goebel, Michael E. McMahon, Clive R. Hückstädt, Luis A. Weimerskirch, Henri Olmastroni, Silvia Fed
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References	ChownSLBrooksCMThe state and future of Antarctic environments in a global contextAnnu. Rev. Environ. Resour.201944130 TittensorDPGlobal patterns and predictors of marine biodiversity across taxaNature2010466109811012010Natur.466.1098T1:CAS:528:DC%2BC3cXptl2rsrY%3D KockKHReidKCroxallJNicolSFisheries in the Southern Ocean: an ecosystem approachPhil. Trans. R. Soc. B.200736223332349 HazenELMarine top predators as climate and ecosystem sentinelsFront. Ecol. Environ.201917565574 DaytonPKThrushSFAgardyMTHofmanRJEnvironmental effects of marine fishingAquat. Conserv.19955205232 AartsGMacKenzieMMcConnellBFedakMMatthiopoulosJEstimating space-use and habitat preference from wildlife telemetry dataEcography200831140160 SouthwellCRecent studies overestimate colonization and extinction events for Adelie penguin breeding coloniesAuk20171343950 HeJImpact of ocean eddy resolution on the sensitivity of precipitation to CO2 increaseGeophys. Res. Lett.201845719472032018GeoRL..45.7194H KroodsmaDATracking the global footprint of fisheriesScience20183599049082018Sci...359..904K1:CAS:528:DC%2BC1cXjtVWgtro%3D GameETPelagic protected areas: the missing dimension in ocean conservationTrends Ecol. Evol.200924360369 AtkinsonASiegelVPakhomovERotheryPLong-term decline in krill stock and increase in salps within the Southern OceanNature20044321001032004Natur.432..100A1:CAS:528:DC%2BD2cXpt1eit7k%3D Vaughan, D. et al. in Climate Change 2013: the Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (eds Stocker, T. F. et al.) 317–382 (Cambridge University Press, 2013). SalléeJ-BSpeerKGRintoulSRZonally asymmetric response of the Southern Ocean mixed-layer depth to the Southern Annular ModeNat. Geosci.201032732792010NatGe...3..273S PetersGPThe challenge to keep global warming below 2 °CNat. Clim. Chang.20133462013NatCC...3....4P WilliamsJWJacksonSTKutzbachJEProjected distributions of novel and disappearing climates by 2100 ADProc. Natl Acad. Sci. USA2007104573857422007PNAS..104.5738W1:CAS:528:DC%2BD2sXkt1Kgsb8%3D Stark, J. S., Raymond, T., Deppeler, S. L. & Morrison, A. K. Antarctic Seas. World Seas: an Environmental Evaluation (Elsevier, 2019). SwartNCGilleSTFyfeJCGillettNPRecent Southern Ocean warming and freshening driven by greenhouse gas emissions and ozone depletionNat. Geosci.2018118368412018NatGe..11..836S1:CAS:528:DC%2BC1cXhvVSrtrzL ConstableAJClimate change and Southern Ocean ecosystems I: how changes in physical habitats directly affect marine biotaGlob. Chang. Biol.201420300430252014GCBio..20.3004C HilbornRPolicy: marine biodiversity needs more than protectionNature20165352242262016Natur.535..224H1:CAS:528:DC%2BC28Xht1yqsL%2FK MeijersAJSThe Southern Ocean in the Coupled Model Intercomparison Project phase 5Phil. Trans. R. Soc. A2014372201302962014RSPTA.37230296M1:STN:280:DC%2BC2cfoslOjtg%3D%3D MassomRAStammerjohnSEAntarctic sea ice change and variability—physical and ecological implicationsPolar Sci.201041491862010PolSc...4..149M WeimerskirchHLouzaoMde GrissacSDelordKChanges in wind pattern alter albatross distribution and life-history traitsScience20123352112142012Sci...335..211W1:CAS:528:DC%2BC38XksVSgsQ%3D%3D R Core Team. R: a language and environment for statistical computing. (R Foundation for Statistical Computing, 2018). PyaNWoodSNShape constrained additive modelsStat. Comput.20152554355933344161331.62367 DaviesRGIrlichUMChownSLGastonKJAmbient, productive and wind energy, and ocean extent predict global species richness of procellariiform seabirdsGlob. Ecol. Biogeogr.20101998110 BlockBATracking apex marine predator movements in a dynamic oceanNature201147586901:CAS:528:DC%2BC3MXnvVekur4%3D HaysGCTranslating marine animal tracking data into conservation policy and managementTrends Ecol. Evol.201934459473 AtkinsonAOceanic circumpolar habitats of Antarctic krillMar. Ecol. Prog. Ser.20083621232008MEPS..362....1A1:CAS:528:DC%2BD1cXps1Ols7k%3D Nicol, S. & Raymond, B. in Antarctic Ecosystems: an Extreme Environment in a Changing World (eds Rogers, A. D. et al.) 243–254 (Wiley, 2012). CuryPMGlobal seabird response to forage fish depletion—one-third for the birdsScience2011334170317062011Sci...334.1703C1:CAS:528:DC%2BC3MXhs1ersL3P World Meteorological Organization. Guide to Climatological Practices (WMO No. 100) (World Meteorological Organization, 2011). Convention on Biological Diversity. Decisions Adopted by the Conference of the Parties to the Convention on Biological Diversity at its Ninth Meeting. Report No. UNEP/CBD/COP/9/29 (CBD, 2008). 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Distrib.201824535550 NicolSOcean circulation off east Antarctica affects ecosystem structure and sea-ice extentNature20004065045072000Natur.406..504N1:CAS:528:DC%2BD3cXmtFegsrg%3D ConstableAJDe LaMareWKAgnewDJEversonIMillerDManaging fisheries to conserve the Antarctic marine ecosystem: practical implementation of the Convention on the Conservation of Antarctic Marine Living Resources (CCAMLR)ICES J. Mar. Sci.200057778791 HalpernBSSelkoeKAMicheliFKappelCVEvaluating and ranking the vulnerability of global marine ecosystems to anthropogenic threatsConserv. Biol.20072113011315 ConstableAJDeveloping priority variables (“ecosystem Essential Ocean Variables”—eEOVs) for observing dynamics and change in Southern Ocean ecosystemsJ. Mar. Syst.20161612641 CavanaghRDA synergistic approach for evaluating climate model output for ecological applicationsFront. Mar. Sci.20174308 Hindell, M. A. et al. in The Kerguelen Plateau: Marine Ecosystem and Fisheries (eds Duhamel, G. & Welsford, D.) 203–215 (Societe Francaise d’Ichtyologie, 2011). NicolSFosterJKawaguchiSThe fishery for Antarctic krill—recent developmentsFish Fish.2012133040 RobertsCMMarine reserves can mitigate and promote adaptation to climate changeProc. Natl Acad. Sci. USA2017114616761752017PNAS..114.6167R1:CAS:528:DC%2BC2sXpt1OnsbY%3D MormedeSDunnAParkerSHanchetSUsing spatial population models to investigate the potential effects of the Ross Sea region Marine Protected Area on the Antarctic toothfish populationFish. Res.2017190164174 2126_CR25 N Pya (2126_CR58) 2015; 25 SJ Phillips (2126_CR59) 2009; 19 SL Chown (2126_CR2) 2019; 44 2126_CR23 DJ Agnew (2126_CR4) 2005; 76 S Nicol (2126_CR6) 2012; 13 AJ Constable (2126_CR37) 2000; 57 2126_CR61 E Sala (2126_CR38) 2018; 91 S Nicol (2126_CR14) 2000; 406 G Aarts (2126_CR56) 2008; 31 KH Kock (2126_CR5) 2007; 362 A Atkinson (2126_CR43) 2019; 9 RA Phillips (2126_CR36) 2016; 201 C Southwell (2126_CR47) 2017; 134 J-B Sallée (2126_CR20) 2010; 3 H Weimerskirch (2126_CR45) 2012; 335 C Péron (2126_CR42) 2012; 279 DP Tittensor (2126_CR18) 2010; 466 S Mormede (2126_CR30) 2017; 190 2126_CR54 2126_CR1 GC Hays (2126_CR15) 2019; 34 B Raymond (2126_CR52) 2015; 38 J He (2126_CR63) 2018; 45 NC Swart (2126_CR7) 2018; 11 A Atkinson (2126_CR24) 2008; 362 RR Reisinger (2126_CR53) 2018; 24 2126_CR8 RD Cavanagh (2126_CR65) 2017; 4 RA Massom (2126_CR31) 2010; 4 A-L Harrison (2126_CR34) 2018; 2 M Ardyna (2126_CR22) 2017; 44 GP Peters (2126_CR41) 2013; 3 2126_CR16 2126_CR17 CM Roberts (2126_CR39) 2017; 114 ID Jonsen (2126_CR55) 2019; 100 R Hilborn (2126_CR35) 2016; 535 EL Hazen (2126_CR10) 2019; 17 SR Rintoul (2126_CR60) 2018; 558 RH Moss (2126_CR40) 2010; 463 J Elith (2126_CR57) 2008; 77 AJ Constable (2126_CR26) 2014; 20 J Jacquet (2126_CR48) 2016; 63 JW Williams (2126_CR64) 2007; 104 BS Halpern (2126_CR62) 2007; 21 MA Hindell (2126_CR19) 2017; 23 RG Davies (2126_CR21) 2010; 19 AJ Constable (2126_CR11) 2016; 161 D Grémillet (2126_CR49) 2018; 28 ET Game (2126_CR33) 2009; 24 2126_CR32 A Atkinson (2126_CR44) 2004; 432 DG Ainley (2126_CR3) 2009; 10 AJS Meijers (2126_CR27) 2014; 372 P Visconti (2126_CR9) 2019; 364 R Cristofari (2126_CR46) 2018; 8 K Reid (2126_CR12) 2005; 62 DA Kroodsma (2126_CR29) 2018; 359 BA Block (2126_CR50) 2011; 475 PK Dayton (2126_CR28) 1995; 5 PM Cury (2126_CR13) 2011; 334 N Queiroz (2126_CR51) 2019; 572 32203356 - Nature. 2020 Apr;580(7801):34-35
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Environ.201917565574 – reference: ArdynaMDelineating environmental control of phytoplankton biomass and phenology in the Southern OceanGeophys. Res. Lett.201744501650242017GeoRL..44.5016A – reference: PetersGPThe challenge to keep global warming below 2 °CNat. Clim. Chang.20133462013NatCC...3....4P – reference: ReisingerRRHabitat modelling of tracking data from multiple marine predators identifies important areas in the Southern Indian OceanDivers. Distrib.201824535550 – reference: KroodsmaDATracking the global footprint of fisheriesScience20183599049082018Sci...359..904K1:CAS:528:DC%2BC1cXjtVWgtro%3D – reference: Ropert-Coudert, Y. et al. The Retrospective Analysis of Antarctic Tracking Data project. Sci. 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Snippet	Southern Ocean ecosystems are under pressure from resource exploitation and climate change 1 , 2 . Mitigation requires the identification and protection of... Southern Ocean ecosystems are under pressure from resource exploitation and climate change . Mitigation requires the identification and protection of Areas of... Southern Ocean ecosystems are under pressure from resource exploitation and climate change.sup.1,2. Mitigation requires the identification and protection of... Southern Ocean ecosystems are under pressure from resource exploitation and climate change1,2. Mitigation requires the identification and protection of Areas...
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SubjectTerms	631/158/1144 631/158/672 Animal Identification Systems Animals Antarctic Regions Aquatic Organisms - physiology Biodiversity Biogeochemistry Biomass Birds Climate change Climate Change - statistics & numerical data Climatic changes Conservation of Natural Resources - methods Continental shelves Ecosystem Ecosystems Emission standards Environmental aspects Environmental Sciences Fisheries Fishes Fishing Food Chain Food chains Habitats Humanities and Social Sciences Ice Cover Mammals Marine ecosystems multidisciplinary Oceans Oceans and Seas Population Dynamics Predators Predatory Behavior Pressure Productivity Resource exploitation Science Science (multidisciplinary) Threat evaluation Tracking
Title	Tracking of marine predators to protect Southern Ocean ecosystems
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