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Global warming accelerates uptake of atmospheric mercury in regions experiencing glacier retreat

Xun Wang, Ji Luo, Wei Yuan, Che‐Jen Lin, Fei Wang, Chen Liu, Genxu Wang, Xinbin Feng

2020Proceedings of the National Academy of Sciences102 citationsDOIOpen Access PDF

Abstract

) from the atmosphere. The accelerated uptake enriches the Hg pool size in glacier-retreated areas by a factor of ∼10 compared with the original pool size in the glacier. Through an assessment of Hg source-sink relationship observed in documented glacier-retreated areas in the world (7 sites of tundra/steppe succession and 5 sites of forest succession), we estimate that 400 to 600 Mg of Hg has been accumulated in glacier-retreated areas (5‰ of the global land surface) since the Little Ice Age (∼1850). By 2100, an additional ∼300 Mg of Hg will be sequestered from the atmosphere in glacier-retreated regions globally, which is ∼3 times the total Hg mass loss by meltwater efflux (∼95 Mg) in alpine and subpolar glacier regions. The recapturing of atmospheric Hg by vegetation in glacier-retreated areas is not accounted for in current global Hg models. Similar processes are likely to occur in other regions that experience increased vegetation due to climate or land use changes, which need to be considered in the assessment of global Hg cycling.

Topics & Concepts

GlacierEnvironmental scienceGlobal warmingEcosystemMercury (programming language)Climate changeAtmospheric sciencesPhysical geographyClimatologyGeologyOceanographyEcologyGeographyProgramming languageBiologyComputer scienceMercury impact and mitigation studiesCryospheric studies and observationsAtmospheric and Environmental Gas Dynamics
Global warming accelerates uptake of atmospheric mercury in regions experiencing glacier retreat | Litcius