Persistent spatial structuring of coastal ocean acidification in the California Current System

被引:0
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作者
F. Chan
J. A. Barth
C. A. Blanchette
R. H. Byrne
F. Chavez
O. Cheriton
R. A. Feely
G. Friederich
B. Gaylord
T. Gouhier
S. Hacker
T. Hill
G. Hofmann
M. A. McManus
B. A. Menge
K. J. Nielsen
A. Russell
E. Sanford
J. Sevadjian
L. Washburn
机构
[1] Oregon State University,Department of Integrative Biology
[2] Oregon State University,College of Earth, Ocean, and Atmospheric Sciences
[3] University of California Santa Barbara,Marine Science Institute
[4] University of South Florida,College of Marine Science
[5] Monterey Bay Aquarium Research Institute,Pacific Coastal and Marine Science Center
[6] United States Geological Survey,Pacific Marine Environmental Laboratory
[7] National Oceanic and Atmospheric Administration,Bodega Marine Laboratory
[8] University of California Davis,Department of Evolution and Ecology
[9] University of California Davis,Marine Science Center
[10] Northeastern University,Department of Earth and Planetary Sciences
[11] University of California Davis,Department of Ecology, Evolution and Marine Biology
[12] University of California Santa Barbara,Department of Oceanography
[13] University of Hawaii at Manoa,Romberg Tiburon Center for Environmental Studies
[14] San Francisco State University,Marine Science Institute and Department of Geography
[15] University of California Santa Barbara,undefined
来源
Scientific Reports | / 7卷
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摘要
The near-term progression of ocean acidification (OA) is projected to bring about sharp changes in the chemistry of coastal upwelling ecosystems. The distribution of OA exposure across these early-impact systems, however, is highly uncertain and limits our understanding of whether and how spatial management actions can be deployed to ameliorate future impacts. Through a novel coastal OA observing network, we have uncovered a remarkably persistent spatial mosaic in the penetration of acidified waters into ecologically-important nearshore habitats across 1,000 km of the California Current Large Marine Ecosystem. In the most severe exposure hotspots, suboptimal conditions for calcifying organisms encompassed up to 56% of the summer season, and were accompanied by some of the lowest and most variable pH environments known for the surface ocean. Persistent refuge areas were also found, highlighting new opportunities for local adaptation to address the global challenge of OA in productive coastal systems.
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