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Journal Articles Nature Year : 2017

Tundra uptake of atmospheric elemental mercury drives Arctic mercury pollution

Daniel Obrist
Yannick Agnan
  • Function : Author
Martin Jiskra
Christine L. Olson
  • Function : Author
Dominique P. Colegrove
  • Function : Author
Jacques Hueber
  • Function : Author
Christopher W. Moore
  • Function : Author
Detlev Helmig


Anthropogenic activities have led to large-scale mercury (Hg) pollution in the Arctic. It has been suggested that sea-salt-induced chemical cycling of Hg (through ‘atmospheric mercury depletion events’, or AMDEs) and wet deposition via precipitation are sources of Hg to the Arctic in its oxidized form (Hg(II)). However, there is little evidence for the occurrence of AMDEs outside of coastal regions, and their importance to net Hg deposition has been questioned. Furthermore, wet-deposition measurements in the Arctic showed some of the lowest levels of Hg deposition via precipitation worldwide, raising questions as to the sources of high Arctic Hg loading. Here we present a comprehensive Hg-deposition mass-balance study, and show that most of the Hg (about 70%) in the interior Arctic tundra is derived from gaseous elemental Hg (Hg(0)) deposition, with only minor contributions from the deposition of Hg(II) via precipitation or AMDEs. We find that deposition of Hg(0)—the form ubiquitously present in the global atmosphere—occurs throughout the year, and that it is enhanced in summer through the uptake of Hg(0) by vegetation. Tundra uptake of gaseous Hg(0) leads to high soil Hg concentrations, with Hg masses greatly exceeding the levels found in temperate soils. Our concurrent Hg stable isotope measurements in the atmosphere, snowpack, vegetation and soils support our finding that Hg(0) dominates as a source to the tundra. Hg concentration and stable isotope data from an inland-to-coastal transect show high soil Hg concentrations consistently derived from Hg(0), suggesting that the Arctic tundra might be a globally important Hg sink. We suggest that the high tundra soil Hg concentrations might also explain why Arctic rivers annually transport large amounts of Hg to the Arctic Ocean.

Dates and versions

insu-03661370 , version 1 (06-05-2022)



Daniel Obrist, Yannick Agnan, Martin Jiskra, Christine L. Olson, Dominique P. Colegrove, et al.. Tundra uptake of atmospheric elemental mercury drives Arctic mercury pollution. Nature, 2017, 547, pp.201-204. ⟨10.1038/nature22997⟩. ⟨insu-03661370⟩
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