globalchange  > 气候变化与战略
DOI: 10.1029/2019GB006230
论文题名:
Reduced CaCO3 Flux to the Seafloor and Weaker Bottom Current Speeds Curtail Benthic CaCO3 Dissolution Over the 21st Century
作者: Sulpis O.; Dufour C.O.; Trossman D.S.; Fassbender A.J.; Arbic B.K.; Boudreau B.P.; Dunne J.P.; Mucci A.
刊名: Global Biogeochemical Cycles
ISSN: 0886-6236
EISSN: 1944-9224
出版年: 2019
卷: 33, 期:12
语种: 英语
英文关键词: abyssal zone ; anthropogenic effect ; benthic environment ; bottom current ; calcium carbonate ; dissolution ; flux measurement ; ocean acidification ; seafloor ; spatial resolution ; twenty first century ; Atlantic Ocean ; Pacific Ocean
学科: bottom currents ; CaCO3 ; dissolution ; ocean acidification ; RCP8.5
中文摘要: Results from a range of Earth System and climate models of various resolution run under high-CO2 emission scenarios challenge the paradigm that seafloor CaCO3 dissolution will grow in extent and intensify as ocean acidification develops over the next century. Under the “business as usual,” RCP8.5 scenario, CaCO3 dissolution increases in some areas of the deep ocean, such as the eastern central Pacific Ocean, but is projected to decrease in the Northern Pacific and abyssal Atlantic Ocean by the year 2100. The flux of CaCO3 to the seafloor and bottom-current speeds, both of which are expected to decrease globally through the 21st century, govern changes in benthic CaCO3 dissolution rates over 53% and 31% of the dissolving seafloor, respectively. Below the calcite compensation depth, a reduced CaCO3 flux to the CaCO3-free seabed modulates the amount of CaCO3 material dissolved at the sediment-water interface. Slower bottom-water circulation leads to thicker diffusive boundary layers above the sediment bed and a consequent stronger transport barrier to CaCO3 dissolution. While all investigated models predict a weakening of bottom current speeds over most of the seafloor by the end of the 21st century, strong discrepancies exist in the magnitude of the predicted speeds. Overall, the poor performance of most models in reproducing modern bottom-water velocities and CaCO3 rain rates coupled with the existence of large disparities in predicted bottom-water chemistry across models hampers our ability to robustly estimate the magnitude and temporal evolution of anthropogenic CaCO3 dissolution rates and the associated anthropogenic CO2 neutralization. ©2019. American Geophysical Union. All Rights Reserved.
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资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/160082
Appears in Collections:气候变化与战略

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作者单位: GEOTOP and Earth and Planetary Sciences Department, McGill University, Montreal, QC, Canada; Atmospheric and Oceanic Sciences Department, McGill University, Montreal, QC, Canada; Oden Institute for Computational Engineering and Sciences, University of Texas at Austin, Austin, TX, United States; Monterey Bay Aquarium Research Institute, Moss Landing, CA, United States; Department of Earth and Environmental Sciences, University of Michigan, Ann Arbor, MI, United States; Department of Oceanography, Dalhousie University, Halifax, NS, Canada; Geophysical Fluid Dynamics Laboratory, National Oceanic and Atmospheric Administration, Princeton, NJ, United States

Recommended Citation:
Sulpis O.,Dufour C.O.,Trossman D.S.,et al. Reduced CaCO3 Flux to the Seafloor and Weaker Bottom Current Speeds Curtail Benthic CaCO3 Dissolution Over the 21st Century[J]. Global Biogeochemical Cycles,2019-01-01,33(12)
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