Isotope effects (Cl, O, C) of heterogeneous electrochemistry induced by Martian dust activities [Dataset]

Wang, Alian; Sturchio, Neil C.; Yan, Hao; Jackson, W. Andrew; Bao, Huiming; Yan, Chuck Y. C.; Heraty, Linnea J.; Wei, Yu; Qu, Quincy H. K.; Olsen, Kevin S.

doi:10.7936/6rxs-108284

Isotope effects (Cl, O, C) of heterogeneous electrochemistry induced by Martian dust activities [Dataset]

Wang, Alian; Sturchio, Neil C.; Yan, Hao; Jackson, W. Andrew; Bao, Huiming; Yan, Chuck Y. C.; Heraty, Linnea J.; Wei, Yu; Qu, Quincy H. K.; Olsen, Kevin S.

2025

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Description

Some oxidized compounds in Martian soils may form through heterogeneous electrochemistry (HEC) stimulated by electrostatic discharge (ESD) during dust storms and dust devils. To test this hypothesis, we conducted medium-strength ESD experiments in a Mars simulation chamber and analyzed the Cl, O, and C isotopic compositions of the resulting chloride, (per)chlorate, and carbonate products. These ESD products exhibit substantial mass-dependent depletions in heavy isotopes: δ37Cl from -11.3 ‰ to +2.0 ‰, δ18O from -34.5 ‰ to -12.9 ‰, and δ13C around -11.4 ‰. These results, when compared with isotopic measurements from recent Mars missions (ESA’s ExoMars Trace Gas Orbiter and the Sample Analysis at Mars (SAM) instrument package aboard NASA’s Curiosity rover) and Martian meteorites, indicate that HEC induced by Martian dust activities can account for a substantial portion of the (per)chlorates and carbonates identified at the surface of Mars.

Details

Title

Isotope effects (Cl, O, C) of heterogeneous electrochemistry induced by Martian dust activities [Dataset]

Creator

Wang, Alian (Washington University in St. Louis)
Sturchio, Neil C. (University of Delaware)
Yan, Hao (Nanjing University)
Jackson, W. Andrew (Texas Tech University)
Bao, Huiming (Nanjing University)
Yan, Chuck Y. C. (Washington University in St. Louis)
Heraty, Linnea J. (University of Delaware)
Wei, Yu (Nanjing University)
Qu, Quincy H. K. (Washington University in St. Louis)
Olsen, Kevin S. (University of Oxford)

Corresponding Author

Wang, Alian

Contributor

Wang, Alian DataCollector (Washington University in St. Louis)

Subject

Keywords

Mars; Dust activity; Heterogeneous Electrochemistry; Isotope signature

Resource Type

Dataset

Data Type

Tabular

Published Date

2025-08-11

Publisher

Washington University in St. Louis

DOI

https://doi.org/10.7936/6rxs-108284

License

Creative Commons Zero (CC0) 1.0 Universal, (https://creativecommons.org/publicdomain/zero/1.0/)

Coverage Dates

Collected: 2021-05-14/2024-05-08

Location

St. Louis, MO

Funding Source

National Aeronautics and Space Administration Solar System Working Program, SSW-80NSSC17K-0776
National Aeronautics and Space Administration Solar System Working Program, SSW-80NSSC21K-1832

Collection

WashU Researcher Data
All RDM Records

Language

English

Record ID

108284

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