From hydrated silica to quartz: Potential hydrothermal precipitates found in Jezero crater, Mars

P.S.A. Beck; O. Beyssac; E. Dehouck; S. Bernard; M. Pineau; L. Mandon; C. Royer; E. Clave; S. Schroder; O. Forni; R. Francis; N. Mangold; C. Bedford; A. Broz; E.A. Cloutis; J.R. Johnson; F. Poulet; T. Fouchet; C. Quantin-Nataf; C. Pilorget; W. Rapin; P.-Y. Meslin; Travis S.J. Gabriel; G. Arana; J.M. Madariaga; A.J. Brown; S. Maurice; S. M. Clegg; O. Gasnault; A. Cousin; R.C. Wiens; The SuperCam Team

doi:10.1016/j.epsl.2025.119256

From hydrated silica to quartz: Potential hydrothermal precipitates found in Jezero crater, Mars

Earth and Planetary Science Letters

By: P.S.A. Beck, O. Beyssac, E. Dehouck, S. Bernard, M. Pineau, L. Mandon, C. Royer, E. Clave, S. Schroder, O. Forni, R. Francis, N. Mangold, C. Bedford, A. Broz, E.A. Cloutis, J.R. Johnson, F. Poulet, T. Fouchet, C. Quantin-Nataf, C. Pilorget, W. Rapin, P.-Y. Meslin, Travis S.J. Gabriel, G. Arana, J.M. Madariaga, A.J. Brown, S. Maurice, S. M. Clegg, O. Gasnault, A. Cousin, R.C. Wiens, and The SuperCam Team

https://doi.org/10.1016/j.epsl.2025.119256

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Abstract

On Earth, silica-rich phases from opal to quartz are important indicators and tracers of geological processes. Hydrated silica, such as opal, is a particularly good matrix for the preservation of molecular and macroscopic biosignatures. Cherts, a type of silica-dominated rocks, provide a unique archive of ancient terrestrial life while quartz is the emblematic mineral of the Earth's continental crust. On Mars, hydrated silica has been detected in several locations based on remote sensing and rover-based studies. In the present article we report on the detection of cobbles made of hydrated silica (opal or chalcedony), as well as well-crystallized quartz. These detections were made with the SuperCam instrument onboard Perseverance (Mars 2020 mission), using a combination of LIBS, infrared and Raman spectroscopy. Quartz-dominated stones are detected unambiguously for the first time on the Martian surface, and based on grain size and crystallinity are proposed to be of hydrothermal origin. Although these rocks were all found as float, we propose that these detections are part of a common hydrothermal system, and represent different depths / temperatures of precipitation. This attests that hydrothermal processes were active in and around Jezero crater, possibly triggered by the Jezero crater-forming impact. These silica-rich rocks, in particular opaline silica, are very promising targets for sampling and return to Earth given their high biosignature preservation potential.

Suggested Citation

Beck, P., Beyssac, O., Dehouck, E., Bernard, S., Pineau, M., Mandon, L., Royer, C., Clave, E., Schroder, S., Forni, O., Francis, R., Mangold, N., Bedford, C., Broz, A., Cloutis, E., Johnson, J., Poulet, F., Fouchet, T., Quantin-Nataf, C., Pilorget, C., Rapin, W., Meslin, P., Gabriel, T.S., Arana, G., Madariaga, J., Brown, A., Maurice, S., Clegg, S.M., Gasnault, O., Cousin, A., Wiens, R., The SuperCam Team, 2025, From hydrated silica to quartz: Potential hydrothermal precipitates found in Jezero crater, Mars: Earth and Planetary Science Letters, v. 656, 119256, 12 p., https://doi.org/10.1016/j.epsl.2025.119256.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	From hydrated silica to quartz: Potential hydrothermal precipitates found in Jezero crater, Mars
Series title	Earth and Planetary Science Letters
DOI	10.1016/j.epsl.2025.119256
Volume	656
Year Published	2025
Language	English
Publisher	Elsevier
Contributing office(s)	Astrogeology Science Center
Description	119256, 12 p.