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Characterization of ferric hydroxysulfate on Mars and implications of the geochemical environment supporting its formation

Author

Listed:
  • J. L. Bishop

    (SETI Institute
    Space Science and Astrobiology Division)

  • J. M. Meusburger

    (Space Science and Astrobiology Division)

  • C. M. Weitz

    (Planetary Science Institute)

  • M. Parente

    (University of Massachusetts)

  • C. Gross

    (Institute of Geological Sciences)

  • D. Talla

    (University of Vienna)

  • A. M. Saranathan

    (University of Massachusetts
    Science Systems and Applications, Inc
    NASA Goddard Space Flight Center)

  • Y. Itoh

    (University of Massachusetts
    Johns Hopkins University Applied Physics Lab)

  • M. R. D. Gruendler

    (SETI Institute
    University of California San Diego)

  • A. E. G. Howells

    (Space Science and Astrobiology Division
    Blue Marble Space Institute of Science)

  • M. Yeşilbaş

    (Umeå University)

  • T. Hiroi

    (Brown University)

  • B. Schmitt

    (IPAG)

  • A. Maturilli

    (Institute of Space Research)

  • M. Al-Samir

    (Institute of Geological Sciences)

  • T. F. Bristow

    (Space Science and Astrobiology Division)

  • B. Lafuente

    (SETI Institute
    Space Science and Astrobiology Division)

  • M. Wildner

    (University of Vienna)

Abstract

Sulfate minerals are significant components of the martian surface and provide clues about the martian geochemical environment. One unusual Fe-sulfate phase has been intriguing Mars scientists for over a decade due to its unique spectral bands that are distinct from any known minerals and its occurrence in layered sedimentary rocks. We describe here detection of ferric hydroxysulfate (Fe3+SO4OH) and its implications for the geochemical history of Mars. Crystalline ferric hydroxysulfate is formed by heating hydrous Fe2+ sulfates to 100 °C or above and has a strong spectral band at 2.236 µm, similar to the spectral feature observed on Mars at Aram Chaos and on the plateau above Juventae Chasma. Hydrated sulfates at these locations likely formed through evaporative processes or low-temperature alteration. In contrast, Fe3+SO4OH is more consistent with heating and oxidation of hydrated ferrous sulfates, potentially through deposition of lava, ash, or through hydrothermal processes.

Suggested Citation

  • J. L. Bishop & J. M. Meusburger & C. M. Weitz & M. Parente & C. Gross & D. Talla & A. M. Saranathan & Y. Itoh & M. R. D. Gruendler & A. E. G. Howells & M. Yeşilbaş & T. Hiroi & B. Schmitt & A. Maturil, 2025. "Characterization of ferric hydroxysulfate on Mars and implications of the geochemical environment supporting its formation," Nature Communications, Nature, vol. 16(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61801-2
    DOI: 10.1038/s41467-025-61801-2
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