Arctic mercury cycling

被引:0
作者
Ashu Dastoor
Hélène Angot
Johannes Bieser
Jesper H. Christensen
Thomas A. Douglas
Lars-Eric Heimbürger-Boavida
Martin Jiskra
Robert P. Mason
David S. McLagan
Daniel Obrist
Peter M. Outridge
Mariia V. Petrova
Andrei Ryjkov
Kyra A. St. Pierre
Amina T. Schartup
Anne L. Soerensen
Kenjiro Toyota
Oleg Travnikov
Simon J. Wilson
Christian Zdanowicz
机构
[1] Environment and Climate Change Canada,Air Quality Research Division
[2] École Polytechnique Fédérale de Lausanne (EPFL) Valais Wallis,Extreme Environments Research Laboratory
[3] Helmholtz-Zentrum Hereon,Institute of Coastal Research
[4] Aarhus University,Department of Environmental Science
[5] US Army Cold Regions Research & Engineering Laboratory,Environmental Geosciences
[6] Aix-Marseille Université,Department of Marine Sciences
[7] CNRS/INSU,Department of Physical and Environmental Sciences
[8] Université de Toulon,Department of Environmental, Earth and Atmospheric Sciences
[9] IRD,Institute for the Oceans and Fisheries
[10] Mediterranean Institute of Oceanography (MIO),Scripps Institution of Oceanography
[11] University of Basel,Department of Environmental Research and Monitoring
[12] University of Connecticut,Air Quality Research Division
[13] Institute for Geoecology,Department of Earth Sciences
[14] Technical University of Braunschweig,undefined
[15] University of Toronto Scarborough,undefined
[16] University of Massachusetts,undefined
[17] Geological Survey of Canada,undefined
[18] Natural Resources Canada,undefined
[19] University of British Columbia,undefined
[20] University of California San Diego,undefined
[21] Swedish Museum of Natural History,undefined
[22] Environment and Climate Change Canada,undefined
[23] Meteorological Synthesizing Centre-East,undefined
[24] EMEP,undefined
[25] Arctic Monitoring and Assessment Programme Secretariat,undefined
[26] Uppsala University,undefined
来源
Nature Reviews Earth & Environment | 2022年 / 3卷
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摘要
Anthropogenic mercury (Hg) emissions have driven marked increases in Arctic Hg levels, which are now being impacted by regional warming, with uncertain ecological consequences. This Review presents a comprehensive assessment of the present-day total Hg mass balance in the Arctic. Over 98% of atmospheric Hg is emitted outside the region and is transported to the Arctic via long-range air and ocean transport. Around two thirds of this Hg is deposited in terrestrial ecosystems, where it predominantly accumulates in soils via vegetation uptake. Rivers and coastal erosion transfer about 80 Mg year−1 of terrestrial Hg to the Arctic Ocean, in approximate balance with modelled net terrestrial Hg deposition in the region. The revised Arctic Ocean Hg mass balance suggests net atmospheric Hg deposition to the ocean and that Hg burial in inner-shelf sediments is underestimated (up to >100%), needing seasonal observations of sediment-ocean Hg exchange. Terrestrial Hg mobilization pathways from soils and the cryosphere (permafrost, ice, snow and glaciers) remain uncertain. Improved soil, snowpack and glacial Hg inventories, transfer mechanisms of riverine Hg releases under accelerated glacier and soil thaw, coupled atmosphere–terrestrial modelling and monitoring of Hg in sensitive ecosystems such as fjords can help to anticipate impacts on downstream Arctic ecosystems.
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页码:270 / 286
页数:16
相关论文
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