Oxidation of manganese in an ancient aquifer, Kimberley formation, Gale crater, Mars

Nina L. Lanza*, Roger C. Wiens, Raymond E. Arvidson, Benton C. Clark, Woodward W. Fischer, Ralf Gellert, John P. Grotzinger, Joel A. Hurowitz, Scott M. McLennan, Richard V. Morris, Melissa S. Rice, James F. Bell III, Jeffrey A. Berger, Diana L. Blaney, Nathan T. Bridges, Fred Calef III, John L. Campbell, Samuel M. Clegg, Agnes Cousin, Kenneth S. EdgettCécile Fabre, Martin R. Fisk, Olivier Forni, Jens Frydenvang, Keian R. Hardy, Craig Hardgrove, Jeffrey R. Johnson, Jeremie Lasue, Stéphane Le Mouélic, Michael C. Malin, Nicolas Mangold, Javier Martın-Torres, Sylvestre Maurice, Marie J. McBride, Douglas W. Ming, Horton E. Newsom, Ann M. Ollila, Violaine Sautter, Susanne Schröder, Lucy M. Thompson, Allan H. Treiman, Scott VanBommel, David T. Vaniman, Marıa-Paz Zorzano

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

81 Citations (Scopus)


The Curiosity rover observed high Mn abundances (>25wt % MnO) in fracture-filling materials that crosscut sandstones in the Kimberley region of Gale crater, Mars. The correlation between Mn and trace metal abundances plus the lack of correlation between Mn and elements such as S, Cl, and C, reveals that these deposits are Mn oxides rather than evaporites or other salts. On Earth, environments that concentrate Mn and deposit Mn minerals require water and highly oxidizing conditions; hence, these findings suggest that similar processes occurred on Mars. Based on the strong association between Mn-oxide deposition and evolving atmospheric dioxygen levels on Earth, the presence of these Mn phases on Mars suggests that there was more abundant molecular oxygen within the atmosphere and some groundwaters of ancient Mars than in the present day
Original languageEnglish
Pages (from-to)7398-7407
Number of pages10
JournalGeophysical Research Letters
Issue number14
Early online date18 Jul 2016
Publication statusPublished - 28 Jul 2016


  • Mars
  • manganese
  • oxidation
  • MSL
  • ChemCam


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