Global imprint of climate change on marine life
Elvira S. Poloczanska,Christopher J. Brown,Christopher J. Brown,William J. Sydeman,Wolfgang Kiessling,Wolfgang Kiessling,David S. Schoeman,David S. Schoeman,Pippa J. Moore,Pippa J. Moore,Keith Brander,John F. Bruno,Lauren B. Buckley,Michael T. Burrows,Carlos M. Duarte,Carlos M. Duarte,Benjamin S. Halpern,Johnna Holding,Carrie V. Kappel,Mary I. O'Connor,John M. Pandolfi,Camille Parmesan,Camille Parmesan,Franklin B. Schwing,Sarah Ann Thompson,Anthony J. Richardson,Anthony J. Richardson +26 more
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This article synthesized all available studies of the consistency of marine ecological observations with expectations under climate change This yielded a meta-database of 1,735 marine biological responses for which either regional or global climate change was considered as a driver.Abstract:
Research that combines all available studies of biological responses to regional and global climate change shows that 81–83% of all observations were consistent with the expected impacts of climate change These findings were replicated across taxa and oceanic basins Past meta-analyses of the response of marine organisms to climate change have examined a limited range of locations1,2, taxonomic groups2,3,4 and/or biological responses5,6 This has precluded a robust overview of the effect of climate change in the global ocean Here, we synthesized all available studies of the consistency of marine ecological observations with expectations under climate change This yielded a meta-database of 1,735 marine biological responses for which either regional or global climate change was considered as a driver Included were instances of marine taxa responding as expected, in a manner inconsistent with expectations, and taxa demonstrating no response From this database, 81–83% of all observations for distribution, phenology, community composition, abundance, demography and calcification across taxa and ocean basins were consistent with the expected impacts of climate change Of the species responding to climate change, rates of distribution shifts were, on average, consistent with those required to track ocean surface temperature changes Conversely, we did not find a relationship between regional shifts in spring phenology and the seasonality of temperature Rates of observed shifts in species’ distributions and phenology are comparable to, or greater, than those for terrestrial systemsread more
Citations
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The global ocean is an ecosystem: simulating marine life and fisheries
Villy Christensen,Marta Coll,Joe Buszowski,William W. L. Cheung,Thomas L. Frölicher,Jeroen Steenbeek,Charles A. Stock,Reg Watson,Carl J. Walters +8 more
TL;DR: In this article, the authors developed a spatial-temporal food web model of the global ocean, spanning from primary producers through to top predators and fisheries, to evaluate how alternative management actions may impact the supply of seafood for future generations.
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Adaptive marine conservation planning in the face of climate change: What can we learn from physiological, ecological and genetic studies?
Gil Rilov,Antonios D. Mazaris,Vanessa Stelzenmüller,Brian Helmuth,Martin Wahl,Tamar Guy-Haim,Nova Mieszkowska,Jean-Baptiste Ledoux,Jean-Baptiste Ledoux,Stelios Katsanevakis +9 more
TL;DR: In this paper, the authors explore how climate threats do not necessarily follow latitudinal gradients, such that both risk hotspots and refugia occur in mosaic distributions along species ranges - patterns that may be undetectable without knowledge of biological vulnerabilities at regional and local scales.
Journal ArticleDOI
Adapting Management of Marine Environments to a Changing Climate: A Checklist to Guide Reform and Assess Progress
TL;DR: In this article, an Australia-wide program of research into marine biodiversity and fisheries explored the opportunities for policy and management to respond to a changing climate and highlighted the need to foster resilience through habitat repair and protection, improve resource allocation strategies, fine-tune fisheries management systems, and enhance whole of government approaches and policies.
Journal ArticleDOI
World Octopus Fisheries
Warwick H. H. Sauer,Ian G. Gleadall,Nicola Downey-Breedt,Zoë A. Doubleday,Graham E. Gillespie,Manuel Haimovici,Christian M. Ibáñez,Oleg N. Katugin,Stephen C. Leporati,Marek R. Lipinski,Unai Markaida,Jorge R. Ramos,Rui Rosa,Roger Villanueva,Juan Argüelles,Felipe Briceño,Sergio A. Carrasco,Leo J. Che,Chih-Shin Chen,Rosario Cisneros,Elizabeth Conners,Augusto César Crespi-Abril,Vladimir V. Kulik,Evgenyi N. Drobyazin,Timothy J. Emery,Fernando Ángel Fernández-Álvarez,Hidetaka Furuya,Leo Walter González,Charlie Gough,Pandian Krishnan,Biju Kumar,Tatiana Silva Leite,C. C. Lu,Kolliyil S. Mohamed,Jaruwat Nabhitabhata,Kyose Noro,Jinda Petchkamnerd,Delta Putra,Steve Rocliffe,Kurichithara K. Sajikumar,Hideo Sakaguchi,Deepak Samuel,Geetha Sasikumar,Toshifumi Wada,Xiaodong Zheng,Yongjun Tian,Yumeng Pang,Anyanee Yamrungrueng,Gretta T. Pecl +48 more
TL;DR: The major octopus fisheries around the globe, providing an overview of species targeted, ecological and biological features of exploited stocks, catches and the key aspects of management are described in this article.
Journal ArticleDOI
Global phenological insensitivity to shifting ocean temperatures among seabirds
Katharine Keogan,Francis Daunt,Sarah Wanless,Richard A. Phillips,Craig A. Walling,Philippa Agnew,David G. Ainley,Tycho Anker-Nilssen,Grant Ballard,Robert T. Barrett,Kerry J. Barton,Claus Bech,Peter H. Becker,Per-Arvid Berglund,Loïc Bollache,Alexander L. Bond,Alexander L. Bond,Sandra Bouwhuis,Russell W. Bradley,Zofia M. Burr,Kees Camphuysen,Paulo Catry,André Chiaradia,Signe Christensen-Dalsgaard,Richard J. Cuthbert,Nina Dehnhard,Sébastien Descamps,Tony Diamond,George J. Divoky,Hugh Drummond,Katie M. Dugger,Michael J. Dunn,Louise Emmerson,Kjell Einar Erikstad,Kjell Einar Erikstad,Jérôme Fort,William R. Fraser,Meritxell Genovart,Olivier Gilg,Jacob González-Solís,José Pedro Granadeiro,David Grémillet,David Grémillet,Jannik Hansen,Sveinn Are Hanssen,Michael P. Harris,April Hedd,Jefferson T. Hinke,José Manuel Igual,Jaime Jahncke,Ian L. Jones,Peter J. Kappes,Johannes Lang,Magdalene Langset,Amélie Lescroël,Svein-Håkon Lorentsen,Phil O'b. Lyver,Mark L. Mallory,Børge Moe,William A. Montevecchi,David Monticelli,Carolyn Mostello,Mark Newell,Lisa W. Nicholson,Ian C. T. Nisbet,Olof Olsson,Daniel Oro,Vivian Pattison,Maud Poisbleau,Tanya Pyk,Flavio Quintana,Jaime A. Ramos,Raül Ramos,T. K. Reiertsen,Cristina Rodríguez,Peter G. Ryan,Ana Sanz-Aguilar,Niels Martin Schmidt,Paula Shannon,Benoît Sittler,Colin Southwell,Christopher A. Surman,Walter S. Svagelj,Wayne Z. Trivelpiece,Pete Warzybok,Yutaka Watanuki,Henri Weimerskirch,Peter R. Wilson,A. G. Wood,Albert B. Phillimore,Sue Lewis +90 more
TL;DR: A comprehensive meta-analysis of 209 phenological time series from 145 breeding populations shows that, on average, seabird populations worldwide have not adjusted their breeding seasons over time or in response to sea surface temperature between 1952 and 2015.
References
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TL;DR: In this paper, the authors set the stage for impact, adaptation, and vulnerability assessment of climate change in the context of sustainable development and equity, and developed and applied scenarios in Climate Change Impact, Adaptation, and Vulnerability Assessment.
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Camille Parmesan,Gary W. Yohe +1 more
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Terry L. Root,Jeff Price,Kimberly R. Hall,Stephen H. Schneider,Cynthia Rosenzweig,J. Alan Pounds +5 more
TL;DR: A consistent temperature-related shift is revealed in species ranging from molluscs to mammals and from grasses to trees, suggesting that a significant impact of global warming is already discernible in animal and plant populations.
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Rapid Range Shifts of Species Associated with High Levels of Climate Warming
TL;DR: A meta-analysis shows that species are shifting their distributions in response to climate change at an accelerating rate, and that the range shift of each species depends on multiple internal species traits and external drivers of change.
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