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
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Can temperature-dependent predation rates regulate range expansion potential of tropical vagrant fishes?
TL;DR: This work uses mesocosm experiments to evaluate the thermal sensitivity of burst swimming and mortality rates of cohorts of introduced tropical and resident temperate marine fishes in the presence of a local temperate predator to demonstrate the temperature sensitivity of predator–prey interactions.
Journal ArticleDOI
Climate warming drives large-scale changes in ecosystem function.
TL;DR: The northern Barents Sea was dominated by small-sized, slow-growing fish species with specialized diets, mostly living in close association with the sea floor, but these fishes are being replaced by fast-growing, large-bodied generalists moving in from the south, with consequences for ecosystem functioning.
Journal ArticleDOI
A review of the potential effects of climate change on disseminated neoplasia with an emphasis on efficient detection in marine bivalve populations
Georgina Bramwell,Aaron G. Schultz,Craig D. H. Sherman,Mathieu Giraudeau,Frédéric Thomas,Beata Ujvari,Beata Ujvari,Antoine M. Dujon,Antoine M. Dujon +8 more
TL;DR: This study reviewed the current knowledge of climate impacted environmental parameters on disseminated neoplasia and identified good practices and methodology for the detection of transmissible disseminatedNeoplasia in the wild and provided a comprehensive step-by-step guideline for an evidence-based detection of this disease in marine ecosystems.
Journal ArticleDOI
Marine plankton show threshold extinction response to Neogene climate change.
TL;DR: It is shown that one significant zooplankton group, the radiolaria, underwent a severe decline in high latitude species richness presaged by ecologic reorganization during the late Neogene, a time of amplified polar cooling.
Journal ArticleDOI
A cross-scale framework to support a mechanistic understanding and modelling of marine climate-driven species redistribution, from individuals to communities
Samantha Twiname,Asta Audzijonyte,Julia L. Blanchard,Curtis Champion,Curtis Champion,Thibaut de la Chesnais,Thibaut de la Chesnais,Quinn P. Fitzgibbon,Hannah E. Fogarty,Alistair J. Hobday,Alistair J. Hobday,Rachel Kelly,Rachel Kelly,Kieran J. Murphy,Michael Oellermann,Patricia Peinado,Sean R. Tracey,Cecilia Villanueva,Barrett W. Wolfe,Gretta T. Pecl +19 more
TL;DR: In this article, the authors provide a framework for synthesizing approaches to more robustly understand and predict marine species redistributions, and synthesize the laboratory, field and modelling approaches used to study redistribution related processes at individual, population and community levels.
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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