Browsing by Author "Bristow, Thomas"
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Item The Chemistry and Mineralogy (CheMin) X-ray Diffractometer on the MSL Curiosity Rover: A Decade of Mineralogy from Gale Crater, Mars(MDPI, 2024) Blake, David; Tu, Valerie; Bristow, Thomas; Rampe, Elizabeth; Vaniman, David; Chipera, Steve; Sarrazin, Philippe; Morris, Richard; Morrison, Shaunna; Yen, Albert; Downs, Robert; Hazen, Robert; Treiman, Allan; Ming, Douglas; Downs, Gordon; Achilles, Cherie; Castle, Nicholas; Peretyazhko, Tanya; De Marais, David; Craig, Patricia; Lafuente, Barbara; Tutolo, Benjamin; Hausrath, Elisabeth; Simpson, Sarah; Walroth, Richard; Thorpe, Michael; Meusburger, Johannes; Pandey, Aditi; Gailhanou, Marc; Dera, Przemyslaw; Berger, Jeffrey; Thompson, Lucy; Gellert, Ralf; McAdam, Amy; O’Connell-Cooper, Catherine; Sutter, Brad; Morookian, John Michael; Fraeman, Abigail; Grotzinger, John; Siebach, Kirsten; Madsen, Soren; Vasavada, AshwinFor more than a decade, the CheMin X-ray diffraction instrument on the Mars Science Laboratory rover, Curiosity, has been returning definitive and quantitative mineralogical and mineral–chemistry data from ~3.5-billion-year-old (Ga) sediments in Gale crater, Mars. To date, 40 drilled rock samples and three scooped soil samples have been analyzed during the rover’s 30+ km transit. These samples document the mineralogy of over 800 m of flat-lying fluvial, lacustrine, and aeolian sedimentary rocks that comprise the lower strata of the central mound of Gale crater (Aeolis Mons, informally known as Mt. Sharp) and the surrounding plains (Aeolis Palus, informally known as the Bradbury Rise). The principal mineralogy of the sedimentary rocks is of basaltic composition, with evidence of post-depositional diagenetic overprinting. The rocks in many cases preserve much of their primary mineralogy and sedimentary features, suggesting that they were never strongly heated or deformed. Using aeolian soil composition as a proxy for the composition of the deposited and lithified sediment, it appears that, in many cases, the diagenetic changes observed are principally isochemical. Exceptions to this trend include secondary nodules, calcium sulfate veining, and rare Si-rich alteration halos. A surprising and yet poorly understood observation is that nearly all of the ~3.5 Ga sedimentary rocks analyzed to date contain 15–70 wt.% of X-ray amorphous material. Overall, this >800 m section of sedimentary rock explored in lower Mt. Sharp documents a perennial shallow lake environment grading upward into alternating lacustrine/fluvial and aeolian environments, many of which would have been habitable to microbial life.