Earth's surface underwent a dramatic transition similar to 2.3 billion years ago when atmospheric oxygen first accumulated during the Great Oxidation Event, but the detailed composition of the reducing early atmosphere is not well known. Here we develop mercury (Hg) stable isotopes as a proxy for paleoatmospheric chemistry and use Hg isotope data from 2.5 billion-year-old sedimentary rocks to examine changes in the Late Archean atmosphere immediately prior to the Great Oxidation Event. These sediments preserve evidence of strong photochemical transformations of mercury in the absence of molecular oxygen. In addition, these geochemical records combined with previously published multi-proxy data support a vital role for methane in Earth's early atmosphere.
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Publication name |
NATURE COMMUNICATIONS Volume: 11 Issue: 1 Article Number: 1709 DOI: 10.1038/s41467-020-15495-3 Published: APR 6 2020 |
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Author(s) |
Zerkle, Aubrey L.; Yin, Runsheng; Chen, Chaoyue; Li, Xiangdong; Izon, Gareth J.; Grasby, Stephen E. |
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Corresponding author(s) |
Zerkle, Aubrey L.
az29@st-andrews.ac.uk
-Univ St Andrews, Sch Earth & Environm Sci, St Andrews KY16 9AL, Fife, Scotland.
-Univ St Andrews, Ctr Exoplanet Sci, St Andrews KY16 9AL, Fife, Scotland.
YIN Runsheng
yinrunsheng@mail.gyig.ac.cn
-Chinese Acad Sci, Inst Geochem, State Key Lab Ore Deposit Geochem, Guiyang 550081, Peoples R China. | View here for the details
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