Mineralogically Diverse and Salt-Rich Regolith in Jezero Crater Characterized Using X-Ray Spectroscopy

Andrew O. Shumway; Tanya V. Kizovski; David C. Catling; Scott J. VanBommel; Michael W.M. Jones; Brendan J. Orenstein; Mariek E. Schmidt; Michael M. Tice; Joel A. Hurowitz; Abigail L. Knight; Benton C. Clark; Lawrence Wade; Emily L. Cardarelli; An Y. Li; Mike J. Zawaski; David A. Klevang; William T. Elam; Elisabeth M. Hausrath; Allan H. Treiman; Jesper Henneke; Nicholas J. Tosca; Yang Liu; Morgan L. Cable; Abigail C. Allwood

doi:10.1029/2024JE008912

Mineralogically Diverse and Salt-Rich Regolith in Jezero Crater Characterized Using X-Ray Spectroscopy

Andrew O. Shumway
, Tanya V. Kizovski
, David C. Catling
, Scott J. VanBommel
, Michael W.M. Jones
, Brendan J. Orenstein
, Mariek E. Schmidt
, Michael M. Tice
, Joel A. Hurowitz
, Abigail L. Knight
, Benton C. Clark
, Lawrence Wade
, Emily L. Cardarelli
, An Y. Li
, Mike J. Zawaski
, David A. Klevang
, William T. Elam
, Elisabeth M. Hausrath
, Allan H. Treiman
, Jesper Henneke

Nicholas J. Tosca, Yang Liu, Morgan L. Cable, Abigail C. Allwood

Department of Earth & Planetary Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

The Planetary Instrument for X-ray Lithochemistry (PIXL) onboard the Perseverance rover has characterized the composition of Martian regolith at a scale of hundreds of microns using micro-focus X-ray fluorescence spectroscopy. PIXL data reveal a diverse population of regolith grains with distinct spectral, chemical, and crystallographic properties, through which we identified the mineralogy of individual regolith components. Olivine, phyllosilicate, carbonate-bearing phases, Cr-Ti-spinel, plagioclase, and Fe-sulfate are all inferred from the data, and potential local and regional bedrock sources are proposed for each. PIXL also inspected dust and soil components, which were found to be geochemically similar to analogous components characterized elsewhere by preceding missions. Unlike other sites, regolith on the western fan front of Jezero crater contains fewer sulfates, but is highly enriched in Cl (up to 2.0 ± 0.5 wt. %), which likely includes chlorides, chlorates, and/or perchlorates. PIXL also finds evidence of hydration in the regolith, potentially carried by salts, as interstitial water, and/or in adsorbed phases. PIXL's observations of diverse amorphous and crystalline components, multiple styles of aqueous alteration, and enrichments of brine-forming salts provide exciting new justification for the return of a Martian regolith sample to Earth for further study.

Original language	English
Article number	e2024JE008912
Journal	Journal of Geophysical Research: Planets
Volume	130
Issue number	10
DOIs	https://doi.org/10.1029/2024JE008912
State	Published - Oct 2025

Keywords

Jezero crater
Mars
X-ray spectroscopy
perchlorate
regolith

Access to Document

10.1029/2024JE008912

Cite this

Shumway, A. O., Kizovski, T. V., Catling, D. C., VanBommel, S. J., Jones, M. W. M., Orenstein, B. J., Schmidt, M. E., Tice, M. M., Hurowitz, J. A., Knight, A. L., Clark, B. C., Wade, L., Cardarelli, E. L., Li, A. Y., Zawaski, M. J., Klevang, D. A., Elam, W. T., Hausrath, E. M., Treiman, A. H., ... Allwood, A. C. (2025). Mineralogically Diverse and Salt-Rich Regolith in Jezero Crater Characterized Using X-Ray Spectroscopy. Journal of Geophysical Research: Planets, 130(10), Article e2024JE008912. https://doi.org/10.1029/2024JE008912

@article{83df8244a48c4ce2bcd7a2992a54f23b,

title = "Mineralogically Diverse and Salt-Rich Regolith in Jezero Crater Characterized Using X-Ray Spectroscopy",

abstract = "The Planetary Instrument for X-ray Lithochemistry (PIXL) onboard the Perseverance rover has characterized the composition of Martian regolith at a scale of hundreds of microns using micro-focus X-ray fluorescence spectroscopy. PIXL data reveal a diverse population of regolith grains with distinct spectral, chemical, and crystallographic properties, through which we identified the mineralogy of individual regolith components. Olivine, phyllosilicate, carbonate-bearing phases, Cr-Ti-spinel, plagioclase, and Fe-sulfate are all inferred from the data, and potential local and regional bedrock sources are proposed for each. PIXL also inspected dust and soil components, which were found to be geochemically similar to analogous components characterized elsewhere by preceding missions. Unlike other sites, regolith on the western fan front of Jezero crater contains fewer sulfates, but is highly enriched in Cl (up to 2.0 ± 0.5 wt. \%), which likely includes chlorides, chlorates, and/or perchlorates. PIXL also finds evidence of hydration in the regolith, potentially carried by salts, as interstitial water, and/or in adsorbed phases. PIXL's observations of diverse amorphous and crystalline components, multiple styles of aqueous alteration, and enrichments of brine-forming salts provide exciting new justification for the return of a Martian regolith sample to Earth for further study.",

keywords = "Jezero crater, Mars, X-ray spectroscopy, perchlorate, regolith",

author = "Shumway, \{Andrew O.\} and Kizovski, \{Tanya V.\} and Catling, \{David C.\} and VanBommel, \{Scott J.\} and Jones, \{Michael W.M.\} and Orenstein, \{Brendan J.\} and Schmidt, \{Mariek E.\} and Tice, \{Michael M.\} and Hurowitz, \{Joel A.\} and Knight, \{Abigail L.\} and Clark, \{Benton C.\} and Lawrence Wade and Cardarelli, \{Emily L.\} and Li, \{An Y.\} and Zawaski, \{Mike J.\} and Klevang, \{David A.\} and Elam, \{William T.\} and Hausrath, \{Elisabeth M.\} and Treiman, \{Allan H.\} and Jesper Henneke and Tosca, \{Nicholas J.\} and Yang Liu and Cable, \{Morgan L.\} and Allwood, \{Abigail C.\}",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s).",

year = "2025",

month = oct,

doi = "10.1029/2024JE008912",

language = "English",

volume = "130",

journal = "Journal of Geophysical Research: Planets",

issn = "2169-9097",

number = "10",

}

Shumway, AO, Kizovski, TV, Catling, DC, VanBommel, SJ, Jones, MWM, Orenstein, BJ, Schmidt, ME, Tice, MM, Hurowitz, JA, Knight, AL, Clark, BC, Wade, L, Cardarelli, EL, Li, AY, Zawaski, MJ, Klevang, DA, Elam, WT, Hausrath, EM, Treiman, AH, Henneke, J, Tosca, NJ, Liu, Y, Cable, ML & Allwood, AC 2025, 'Mineralogically Diverse and Salt-Rich Regolith in Jezero Crater Characterized Using X-Ray Spectroscopy', Journal of Geophysical Research: Planets, vol. 130, no. 10, e2024JE008912. https://doi.org/10.1029/2024JE008912

TY - JOUR

T1 - Mineralogically Diverse and Salt-Rich Regolith in Jezero Crater Characterized Using X-Ray Spectroscopy

AU - Shumway, Andrew O.

AU - Kizovski, Tanya V.

AU - Catling, David C.

AU - VanBommel, Scott J.

AU - Jones, Michael W.M.

AU - Orenstein, Brendan J.

AU - Schmidt, Mariek E.

AU - Tice, Michael M.

AU - Hurowitz, Joel A.

AU - Knight, Abigail L.

AU - Clark, Benton C.

AU - Wade, Lawrence

AU - Cardarelli, Emily L.

AU - Li, An Y.

AU - Zawaski, Mike J.

AU - Klevang, David A.

AU - Elam, William T.

AU - Hausrath, Elisabeth M.

AU - Treiman, Allan H.

AU - Henneke, Jesper

AU - Tosca, Nicholas J.

AU - Liu, Yang

AU - Cable, Morgan L.

AU - Allwood, Abigail C.

PY - 2025/10

Y1 - 2025/10

N2 - The Planetary Instrument for X-ray Lithochemistry (PIXL) onboard the Perseverance rover has characterized the composition of Martian regolith at a scale of hundreds of microns using micro-focus X-ray fluorescence spectroscopy. PIXL data reveal a diverse population of regolith grains with distinct spectral, chemical, and crystallographic properties, through which we identified the mineralogy of individual regolith components. Olivine, phyllosilicate, carbonate-bearing phases, Cr-Ti-spinel, plagioclase, and Fe-sulfate are all inferred from the data, and potential local and regional bedrock sources are proposed for each. PIXL also inspected dust and soil components, which were found to be geochemically similar to analogous components characterized elsewhere by preceding missions. Unlike other sites, regolith on the western fan front of Jezero crater contains fewer sulfates, but is highly enriched in Cl (up to 2.0 ± 0.5 wt. %), which likely includes chlorides, chlorates, and/or perchlorates. PIXL also finds evidence of hydration in the regolith, potentially carried by salts, as interstitial water, and/or in adsorbed phases. PIXL's observations of diverse amorphous and crystalline components, multiple styles of aqueous alteration, and enrichments of brine-forming salts provide exciting new justification for the return of a Martian regolith sample to Earth for further study.

AB - The Planetary Instrument for X-ray Lithochemistry (PIXL) onboard the Perseverance rover has characterized the composition of Martian regolith at a scale of hundreds of microns using micro-focus X-ray fluorescence spectroscopy. PIXL data reveal a diverse population of regolith grains with distinct spectral, chemical, and crystallographic properties, through which we identified the mineralogy of individual regolith components. Olivine, phyllosilicate, carbonate-bearing phases, Cr-Ti-spinel, plagioclase, and Fe-sulfate are all inferred from the data, and potential local and regional bedrock sources are proposed for each. PIXL also inspected dust and soil components, which were found to be geochemically similar to analogous components characterized elsewhere by preceding missions. Unlike other sites, regolith on the western fan front of Jezero crater contains fewer sulfates, but is highly enriched in Cl (up to 2.0 ± 0.5 wt. %), which likely includes chlorides, chlorates, and/or perchlorates. PIXL also finds evidence of hydration in the regolith, potentially carried by salts, as interstitial water, and/or in adsorbed phases. PIXL's observations of diverse amorphous and crystalline components, multiple styles of aqueous alteration, and enrichments of brine-forming salts provide exciting new justification for the return of a Martian regolith sample to Earth for further study.

KW - Jezero crater

KW - Mars

KW - X-ray spectroscopy

KW - perchlorate

KW - regolith

UR - https://www.scopus.com/pages/publications/105018201862

U2 - 10.1029/2024JE008912

DO - 10.1029/2024JE008912

M3 - Article

AN - SCOPUS:105018201862

SN - 2169-9097

VL - 130

JO - Journal of Geophysical Research: Planets

JF - Journal of Geophysical Research: Planets

IS - 10

M1 - e2024JE008912

ER -

Mineralogically Diverse and Salt-Rich Regolith in Jezero Crater Characterized Using X-Ray Spectroscopy

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this