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Isotopic Characterization of Mercury Atmosphere–Foliage and Atmosphere–Soil Exchange in a Swiss Subalpine Coniferous Forest

Chaoyue Chen, Jen‐How Huang, Kai Li, Stefan Osterwalder, Chenmeng Yang, Peter Waldner, Hui Zhang, Xuewu Fu, Xinbin Feng

2023Environmental Science & Technology15 citationsDOI

Abstract

To understand the role of vegetation and soil in regulating atmospheric Hg 0, exchange fluxes and isotope signatures of Hg were characterized using a dynamic flux bag/chamber at the atmosphere–foliage/soil interfaces at the Davos-Seehornwald forest, Switzerland. The foliage was a net Hg 0 sink and took up preferentially the light Hg isotopes, consequently resulting in large shifts (−3.27‰) in δ 202 Hg values. The soil served mostly as net sources of atmospheric Hg 0 with higher Hg 0 emission from the moss-covered soils than from bare soils. The negative shift of δ 202 Hg and Δ 199 Hg values of the efflux air relative to ambient air and the Δ 199 Hg/Δ 201 Hg ratio among ambient air, efflux air, and soil pore gas highlight that Hg 0 re-emission was strongly constrained by soil pore gas evasion together with microbial reduction. The isotopic mass balance model indicates 8.4 times higher Hg 0 emission caused by pore gas evasion than surface soil photoreduction. Deposition of atmospheric Hg 0 to soil was noticeably 3.2 times higher than that to foliage, reflecting the high significance of the soil to influence atmospheric Hg 0 isotope signatures. This study improves our understanding of Hg atmosphere–foliage/soil exchange in subalpine coniferous forests, which is indispensable in the model assessment of forest Hg biogeochemical cycling.

Topics & Concepts

Biogeochemical cycleSoil waterAtmosphere (unit)Environmental chemistryEnvironmental scienceTrace gasFlux (metallurgy)Soil gasSink (geography)ChemistryAtmospheric sciencesSoil scienceGeologyMeteorologyGeographyPhysicsCartographyOrganic chemistryMercury impact and mitigation studiesHeavy metals in environmentToxic Organic Pollutants Impact
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