科技报告详细信息
Saponite Dissolution Experiments and Implications for Mars
Luu, N C ; Hausrath, E M ; Sanchez, A M ; Gainey, S ; Rampe, E ; Peretyazhko, T ; Schauner, O ; Lanzirotti, A ; Adcock, C ; Leftwich, K
关键词: MONTMORILLONITE;    DISSOLVING;    MARS SURFACE;    MARS (PLANET);    MARS CRATERS;    IRON;    MINERALS;    PH;    WATER;    CLAYS;    ANOXIA;    MAGNESIUM;    X RAY ABSORPTION;    OXIDATION;   
RP-ID  :  LPI Contrib. No. 2132,JSC-E-DAA-TN66074
学科分类:天文学(综合)
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

Recent work suggests that the mineralogical sequence of the Murray formation at Gale crater may have resulted from diagenetic alteration after sedimentation, or deposition in a stratified lake with oxic surface and anoxic bottom waters. Fe-containing clay minerals are common both at Gale crater, and throughout the Noachian-aged terrains on Mars. These clay minerals are primarily ferric (Fe3+), and previous work suggests that these ferric clay minerals may result from alteration of ferrous (Fe2+) smectites that were oxidized after deposition. The detection of trioctahedral smectites at Gale crater by CheMin suggests Fe2+ smectite was also deposited during the early Hesperian. However, due to their sensitivity to oxygen, Fe2+ smectites are difficult to analyze on Earth and very few saponite dissolution rates exist in the literature. To the best of our knowledge, no experiments have measured the dissolution rates of ferrous saponites under oxidizing and reducing conditions. In order to better understand the characteristics of water-rock interaction at Gale crater, particularly the oxidation state, we report our results to date on ongoing syntheses of ferrous and magnesium saponites and dissolution experiments of natural saponite under ambient conditions. Future experiments will include the dissolution of synthetic ferric, ferrous, and magnesium saponites under oxidizing and anoxic conditions at a range of pH values.

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