S. R. Gainey scite author profile

Clay mineral-bearing locations have been targeted for martian exploration as potentially habitable environments and as possible repositories for the preservation of organic matter. Although organic matter has been detected at Gale Crater, Mars, its concentrations are lower than expected from meteoritic and indigenous igneous and hydrothermal reduced carbon. We conducted synthesis experiments motivated by the hypothesis that some clay mineral formation may have occurred under oxidized conditions conducive to the destruction of organics. Previous work has suggested that anoxic and/or reducing conditions are needed to synthesize the Fe-rich clay mineral nontronite at low temperatures. In contrast, our experiments demonstrated the rapid formation of Fe-rich clay minerals of variable crystallinity from aqueous Fe3+ with small amounts of aqueous Mg2+. Our results suggest that Fe-rich clay minerals such as nontronite can form rapidly under oxidized conditions, which could help explain low concentrations of organics within some smectite-containing rocks or sediments on Mars.

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Dissolution of nontronite in chloride brines and implications for the aqueous history of Mars

Steiner

Hausrath

Madden

et al. 2016

Geochimica et Cosmochimica Acta

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The influence of thermal processing on the sorption of Cs and Sr by sitinakite

Gainey

Lauar

Adcock

et al. 2020

Microporous and Mesoporous Materials

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S. R. Gainey

Nontronite dissolution rates and implications for Mars

Kinetics of methane clathrate formation and dissociation under Mars relevant conditions

Clay mineral formation under oxidized conditions and implications for paleoenvironments and organic preservation on Mars

Dissolution of nontronite in chloride brines and implications for the aqueous history of Mars

The influence of thermal processing on the sorption of Cs and Sr by sitinakite

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