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Mars Science Laboratory Observations of Chloride Salts in Gale Crater, Mars.

N H ThomasBethany L EhlmannPierre-Yves MeslinWilliam RapinD E AndersonFrances Rivera-HernándezOlivier ForniS SchröderAgnes CousinNicolas MangoldRalf GellertOlivier GasnaultRoger C Wiens
Published in: Geophysical research letters (2019)
The Mars Science Laboratory Curiosity rover is traversing a sequence of stratified sedimentary rocks in Gale crater that contain varied eolian, fluviodeltaic, and lake deposits, with phyllosilicates, iron oxides, and sulfate salts. Here, we report the chloride salt distribution along the rover traverse. Chlorine is detected at low levels (<3 wt.%) in soil and rock targets with multiple MSL instruments. Isolated fine-scale observations of high chlorine (up to ≥15 wt.% Cl), detected using the ChemCam instrument, are associated with elevated Na2O and interpreted as halite grains or cements in bedrock. Halite is also interpreted at the margins of veins and in nodular, altered textures. We have not detected halite in obvious evaporitic layers. Instead, its scattered distribution indicates that chlorides emplaced earlier in particular members of the Murray formation were remobilized and reprecipitated by later groundwaters within Murray formation mudstones and in diagenetic veins and nodules.
Keyphrases
  • public health
  • drinking water
  • ionic liquid
  • inferior vena cava
  • air pollution
  • pulmonary embolism
  • water quality