The impacts of climate change in coastal marine systems |
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Authors: | Harley Christopher D G Randall Hughes A Hultgren Kristin M Miner Benjamin G Sorte Cascade J B Thornber Carol S Rodriguez Laura F Tomanek Lars Williams Susan L |
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Affiliation: | Bodega Marine Laboratory, University of California-Davis, Bodega Bay, CA 94923, USA; Department of Zoology, University of British Columbia, Vancouver, BC, Canada V6T 1Z4; University of California, Davis, CA 95616, USA; University of Rhode Island, Kingston, RI 02881, USA; California Polytechnic State University, San Luis Obispo, CA 93407-0401, USA |
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Abstract: | Anthropogenically induced global climate change has profound implications for marine ecosystems and the economic and social systems that depend upon them. The relationship between temperature and individual performance is reasonably well understood, and much climate-related research has focused on potential shifts in distribution and abundance driven directly by temperature. However, recent work has revealed that both abiotic changes and biological responses in the ocean will be substantially more complex. For example, changes in ocean chemistry may be more important than changes in temperature for the performance and survival of many organisms. Ocean circulation, which drives larval transport, will also change, with important consequences for population dynamics. Furthermore, climatic impacts on one or a few 'leverage species' may result in sweeping community-level changes. Finally, synergistic effects between climate and other anthropogenic variables, particularly fishing pressure, will likely exacerbate climate-induced changes. Efforts to manage and conserve living marine systems in the face of climate change will require improvements to the existing predictive framework. Key directions for future research include identifying key demographic transitions that influence population dynamics, predicting changes in the community-level impacts of ecologically dominant species, incorporating populations' ability to evolve (adapt), and understanding the scales over which climate will change and living systems will respond. |
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Keywords: | Anthropogenic climate change carbon dioxide (CO2) coastal oceanography community structure distributional shifts marine ecosystems ocean pH population dynamics synergistic effects temperature |
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