The power of paired proximity science observations: Co-located data from SHERLOC and PIXL on Mars

Joseph Razzell Hollis; Kelsey R. Moore; Sunanda Sharma; Luther Beegle; John P. Grotzinger; Abigail Allwood; William Abbey; Rohit Bhartia; Adrian J. Brown; Benton Clark; Edward Cloutis; Andrea Corpolongo; Jesper Henneke; Keyron Hickman-Lewis; Joel A. Hurowitz; Michael W.M. Jones; Yang Liu; Jesús Martinez-Frías; Ashley Murphy; David A.K. Pedersen; Svetlana Shkolyar; Sandra Siljeström; Andrew Steele; Mike Tice; Alan Treiman; Kyle Uckert; Scott VanBommel; Anastasia Yanchilina

doi:10.1016/j.icarus.2022.115179

The power of paired proximity science observations: Co-located data from SHERLOC and PIXL on Mars

Joseph Razzell Hollis^*, Kelsey R. Moore, Sunanda Sharma, Luther Beegle, John P. Grotzinger, Abigail Allwood, William Abbey, Rohit Bhartia, Adrian J. Brown, Benton Clark, Edward Cloutis, Andrea Corpolongo, Jesper Henneke, Keyron Hickman-Lewis, Joel A. Hurowitz, Michael W.M. Jones, Yang Liu, Jesús Martinez-Frías, Ashley Murphy, David A.K. PedersenSvetlana Shkolyar, Sandra Siljeström, Andrew Steele, Mike Tice, Alan Treiman, Kyle Uckert, Scott VanBommel, Anastasia Yanchilina

^*Corresponding author for this work

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Abstract

We present a synthesis of PIXL elemental data and SHERLOC Raman spectra collected on two targets investigated by the Perseverance rover during the first year of its exploration of Jezero Crater, Mars. The Bellegarde target (in the Máaz formation) and Dourbes target (in the Séítah formation) exhibit distinctive mineralogies that are an ideal case study for in situ analysis by SHERLOC and PIXL. Each instrument alone produces valuable data about the chemistry and spatial distribution of mineral phases at the sub-millimeter scale. However, combining data from both instruments provides a more robust interpretation that overcomes the limitations of either instrument, for example: 1) Detection of correlated calcium and sulfur in Bellegarde by PIXL is corroborated by the co-located detection of calcium sulfate by SHERLOC. 2) Detection of sodium and chlorine in Dourbes is consistent with either chloride or oxychlorine salts, but SHERLOC does not detect perchlorate or chlorate. 3) A Raman peak at 1120 cm⁻¹ in Dourbes could be sulfate or pyroxene, but elemental abundances from PIXL at that location are a better match to pyroxene. This study emphasizes the importance of analyzing co-located data from both instruments together, to obtain a more complete picture of sub-millimeter-scale mineralogy measured in situ in Jezero crater, Mars, by the Perseverance rover.

Original language	English
Article number	115179
Journal	Icarus
Volume	387
Number of pages	14
ISSN	0019-1035
DOIs	https://doi.org/10.1016/j.icarus.2022.115179
Publication status	Published - 2022

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Hollis, J. R., Moore, K. R., Sharma, S., Beegle, L., Grotzinger, J. P., Allwood, A., Abbey, W., Bhartia, R., Brown, A. J., Clark, B., Cloutis, E., Corpolongo, A., Henneke, J., Hickman-Lewis, K., Hurowitz, J. A., Jones, M. W. M., Liu, Y., Martinez-Frías, J., Murphy, A., ... Yanchilina, A. (2022). The power of paired proximity science observations: Co-located data from SHERLOC and PIXL on Mars. Icarus, 387, Article 115179. https://doi.org/10.1016/j.icarus.2022.115179

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title = "The power of paired proximity science observations: Co-located data from SHERLOC and PIXL on Mars",

abstract = "We present a synthesis of PIXL elemental data and SHERLOC Raman spectra collected on two targets investigated by the Perseverance rover during the first year of its exploration of Jezero Crater, Mars. The Bellegarde target (in the M{\'a}az formation) and Dourbes target (in the S{\'e}{\'i}tah formation) exhibit distinctive mineralogies that are an ideal case study for in situ analysis by SHERLOC and PIXL. Each instrument alone produces valuable data about the chemistry and spatial distribution of mineral phases at the sub-millimeter scale. However, combining data from both instruments provides a more robust interpretation that overcomes the limitations of either instrument, for example: 1) Detection of correlated calcium and sulfur in Bellegarde by PIXL is corroborated by the co-located detection of calcium sulfate by SHERLOC. 2) Detection of sodium and chlorine in Dourbes is consistent with either chloride or oxychlorine salts, but SHERLOC does not detect perchlorate or chlorate. 3) A Raman peak at 1120 cm−1 in Dourbes could be sulfate or pyroxene, but elemental abundances from PIXL at that location are a better match to pyroxene. This study emphasizes the importance of analyzing co-located data from both instruments together, to obtain a more complete picture of sub-millimeter-scale mineralogy measured in situ in Jezero crater, Mars, by the Perseverance rover.",

author = "Hollis, {Joseph Razzell} and Moore, {Kelsey R.} and Sunanda Sharma and Luther Beegle and Grotzinger, {John P.} and Abigail Allwood and William Abbey and Rohit Bhartia and Brown, {Adrian J.} and Benton Clark and Edward Cloutis and Andrea Corpolongo and Jesper Henneke and Keyron Hickman-Lewis and Hurowitz, {Joel A.} and Jones, {Michael W.M.} and Yang Liu and Jes{\'u}s Martinez-Fr{\'i}as and Ashley Murphy and Pedersen, {David A.K.} and Svetlana Shkolyar and Sandra Siljestr{\"o}m and Andrew Steele and Mike Tice and Alan Treiman and Kyle Uckert and Scott VanBommel and Anastasia Yanchilina",

year = "2022",

doi = "10.1016/j.icarus.2022.115179",

language = "English",

volume = "387",

journal = "Icarus",

issn = "0019-1035",

publisher = "Elsevier",

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Hollis, JR, Moore, KR, Sharma, S, Beegle, L, Grotzinger, JP, Allwood, A, Abbey, W, Bhartia, R, Brown, AJ, Clark, B, Cloutis, E, Corpolongo, A, Henneke, J, Hickman-Lewis, K, Hurowitz, JA, Jones, MWM, Liu, Y, Martinez-Frías, J, Murphy, A, Pedersen, DAK, Shkolyar, S, Siljeström, S, Steele, A, Tice, M, Treiman, A, Uckert, K, VanBommel, S & Yanchilina, A 2022, 'The power of paired proximity science observations: Co-located data from SHERLOC and PIXL on Mars', Icarus, vol. 387, 115179. https://doi.org/10.1016/j.icarus.2022.115179

TY - JOUR

T1 - The power of paired proximity science observations: Co-located data from SHERLOC and PIXL on Mars

AU - Hollis, Joseph Razzell

AU - Moore, Kelsey R.

AU - Sharma, Sunanda

AU - Beegle, Luther

AU - Grotzinger, John P.

AU - Allwood, Abigail

AU - Abbey, William

AU - Bhartia, Rohit

AU - Brown, Adrian J.

AU - Clark, Benton

AU - Cloutis, Edward

AU - Corpolongo, Andrea

AU - Henneke, Jesper

AU - Hickman-Lewis, Keyron

AU - Hurowitz, Joel A.

AU - Jones, Michael W.M.

AU - Liu, Yang

AU - Martinez-Frías, Jesús

AU - Murphy, Ashley

AU - Pedersen, David A.K.

AU - Shkolyar, Svetlana

AU - Siljeström, Sandra

AU - Steele, Andrew

AU - Tice, Mike

AU - Treiman, Alan

AU - Uckert, Kyle

AU - VanBommel, Scott

AU - Yanchilina, Anastasia

PY - 2022

Y1 - 2022

N2 - We present a synthesis of PIXL elemental data and SHERLOC Raman spectra collected on two targets investigated by the Perseverance rover during the first year of its exploration of Jezero Crater, Mars. The Bellegarde target (in the Máaz formation) and Dourbes target (in the Séítah formation) exhibit distinctive mineralogies that are an ideal case study for in situ analysis by SHERLOC and PIXL. Each instrument alone produces valuable data about the chemistry and spatial distribution of mineral phases at the sub-millimeter scale. However, combining data from both instruments provides a more robust interpretation that overcomes the limitations of either instrument, for example: 1) Detection of correlated calcium and sulfur in Bellegarde by PIXL is corroborated by the co-located detection of calcium sulfate by SHERLOC. 2) Detection of sodium and chlorine in Dourbes is consistent with either chloride or oxychlorine salts, but SHERLOC does not detect perchlorate or chlorate. 3) A Raman peak at 1120 cm−1 in Dourbes could be sulfate or pyroxene, but elemental abundances from PIXL at that location are a better match to pyroxene. This study emphasizes the importance of analyzing co-located data from both instruments together, to obtain a more complete picture of sub-millimeter-scale mineralogy measured in situ in Jezero crater, Mars, by the Perseverance rover.

AB - We present a synthesis of PIXL elemental data and SHERLOC Raman spectra collected on two targets investigated by the Perseverance rover during the first year of its exploration of Jezero Crater, Mars. The Bellegarde target (in the Máaz formation) and Dourbes target (in the Séítah formation) exhibit distinctive mineralogies that are an ideal case study for in situ analysis by SHERLOC and PIXL. Each instrument alone produces valuable data about the chemistry and spatial distribution of mineral phases at the sub-millimeter scale. However, combining data from both instruments provides a more robust interpretation that overcomes the limitations of either instrument, for example: 1) Detection of correlated calcium and sulfur in Bellegarde by PIXL is corroborated by the co-located detection of calcium sulfate by SHERLOC. 2) Detection of sodium and chlorine in Dourbes is consistent with either chloride or oxychlorine salts, but SHERLOC does not detect perchlorate or chlorate. 3) A Raman peak at 1120 cm−1 in Dourbes could be sulfate or pyroxene, but elemental abundances from PIXL at that location are a better match to pyroxene. This study emphasizes the importance of analyzing co-located data from both instruments together, to obtain a more complete picture of sub-millimeter-scale mineralogy measured in situ in Jezero crater, Mars, by the Perseverance rover.

U2 - 10.1016/j.icarus.2022.115179

DO - 10.1016/j.icarus.2022.115179

M3 - Journal article

SN - 0019-1035

VL - 387

JO - Icarus

JF - Icarus

M1 - 115179

ER -

The power of paired proximity science observations: Co-located data from SHERLOC and PIXL on Mars

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