Sand Mineralogy Within the Bagnold Dunes, Gale Crater, as Observed In Situ and From Orbit

E. B. Rampe; M. G. A. Lapôtre; T. F. Bristow; R. E. Arvidson; R. V. Morris; C. N. Achilles; C. M. Weitz; D. F. Blake; D. W. Ming; Shaunna M. Morrison; D. T. Vaniman; S. J. Chipera; Robert T. Downs; J. P. Grotzinger; Robert M. Hazen; T. Peretyazhko; B. Sutter; Valerie Tu; A. S. Yen; B. Horgan; N. Castle; Patricia Craig; David J. Des Marais; Jack Farmer; R. Gellert; A. C. McAdam; J. M. Morookian; P. Sarrazin; A. H. Treiman

doi:10.1029/2018gl079073

Sand Mineralogy Within the Bagnold Dunes, Gale Crater, as Observed In Situ and From Orbit

E. B. Rampe(Johnson Space Center), M. G. A. Lapôtre(Planetary Science Institute), T. F. Bristow(Ames Research Center), R. E. Arvidson(Washington University in St. Louis), R. V. Morris(Johnson Space Center), C. N. Achilles(University of Arizona), C. M. Weitz(Planetary Science Institute), D. F. Blake(Ames Research Center), D. W. Ming(Johnson Space Center), Shaunna M. Morrison(Carnegie Institution for Science), D. T. Vaniman(Planetary Science Institute), S. J. Chipera(Chesapeake Bay Program), Robert T. Downs(University of Arizona), J. P. Grotzinger(California Institute of Technology), Robert M. Hazen(Carnegie Institution for Science), T. Peretyazhko(Johnson Space Center), B. Sutter(Johnson Space Center), Valerie Tu(Johnson Space Center), A. S. Yen(Jet Propulsion Laboratory), B. Horgan(Purdue University West Lafayette), N. Castle(Lunar and Planetary Institute), Patricia Craig(Planetary Science Institute), David J. Des Marais(Ames Research Center), Jack Farmer(Arizona State University), R. Gellert(University of Guelph), A. C. McAdam(Goddard Space Flight Center), J. M. Morookian(Jet Propulsion Laboratory), P. Sarrazin(Search for Extraterrestrial Intelligence), A. H. Treiman(Lunar and Planetary Institute)

Geophysical Research Letters

August 30, 2018

10.1029/2018gl079073

Cited by 74Open Access

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Abstract

Abstract Curiosity investigated active eolian sands near linear dunes during Phase 2 of the Bagnold Dunes campaign in Gale crater, Mars. Ogunquit Beach, a sample scooped from a large‐ripple trough within the Mount Desert Island ripple field and delivered to the Chemistry and Mineralogy (CheMin) X‐ray diffraction instrument, is dominated by basaltic igneous minerals and X‐ray amorphous materials. CheMin mineralogy of the Gobabeb sample acquired at a large‐ripple crest on the Namib barchan dune during Phase 1 is similar to Ogunquit Beach. Ogunquit Beach, however, contains more plagioclase and Gobabeb contains more olivine. Compact Reconnaissance Imaging Spectrometer for Mars (CRISM)‐based estimates of mineralogy at the optical surface of Namib Dune and Mount Desert Island demonstrate that surface sands are enriched in olivine and depleted in plagioclase over Mount Desert Island relative to Namib Dune. Differences between CheMin‐derived and CRISM‐derived mineralogies suggest sorting by grain size on bedform to dune field scales. Crystal chemistry from CheMin suggests contributions from multiple igneous sources and the local bedrock.

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