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Published September 28, 2018 | Supplemental Material + Published
Journal Article Open

Bagnold Dunes campaign Phase 2: Visible/near‐infrared reflectance spectroscopy of longitudinal ripple sands

Johnson, Jeffrey R. ORCID icon
Bell, James F., III ORCID icon
Bender, Steve
Cloutis, Edward ORCID icon
Ehlmann, Bethany ORCID icon
Fraeman, Abigail ORCID icon
Gasnault, Olivier ORCID icon
Maurice, Sylvestre
Pinet, Patrick ORCID icon
Thompson, Lucy ORCID icon
Wellington, Danika
Wiens, Roger C. ORCID icon

Abstract

As part of the Phase 2 Bagnold Dune campaign at Gale Crater, Mars, constraints on the geochemistry, mineralogy, and oxidation state of pristine and disturbed linear sand ripples were made using visible/near‐infrared spectral observations for comparison to Phase 1 spectra of the barchan dunes to the north. Spectra acquired by the ChemCam and Mastcam instruments (400–1,000 nm) at four Phase 2 locations revealed similar overall spectral trends between the two regions, but most Phase 2 sands were redder in the visible wavelengths. The majority of targets exhibited lower red/infrared ratios, higher ~530‐nm band depths, and higher red/blue ratios than Phase 1 samples, suggesting a greater proportion of redder, fine‐grained, ferric sands in Phase 2 samples. This is consistent with the slightly greater proportion of hematite in Phase 2 samples as determined from CheMin analyses of the Ogunquit sands, which may reflect contamination from the surrounding hematite‐bearing Murray formation bedrock.

Additional Information

© 2018 American Geophysical Union. Received 31 MAY 2018; Accepted 13 JUL 2018; Accepted article online 23 JUL 2018; Published online 27 SEP 2018. This work was funded by the NASA Mars Science Laboratory Participating Scientist program through the Jet Propulsion Laboratory (contracts 1350588 and 1546033). A portion of this research was carried out at JPL, under a contract with NASA. The U.S. portion of ChemCam and MSL rover operations was funded by NASA's Mars Exploration Program. The French contribution to MSL is supported by CNES. The authors thank the operations teams involved in acquiring these data sets and W. Farrand and an anonymous reviewer for their helpful comments. Original data that underlie the conclusions presented in this manuscript can be found on the NASA Planetary Data System and/or in the relevant references cited. The authors fondly recall the dedicated efforts toward the Bagnold Dune campaigns by our late colleague Nathan Bridges.

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Published - Johnson_et_al-2018-Geophysical_Research_Letters.pdf

Supplemental Material - grl57776-sup-0001-2018gl079025_si.docx

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