Journal
ICARUS
Volume 195, Issue 1, Pages 140-168Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.icarus.2007.10.028
Keywords
Mars, surface; mineralogy; spectroscopy
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A number of mineral species were exposed to martian surface conditions of atmospheric pressure and composition, temperature, and UV light regime, and their evolution was monitored using reflectance spectroscopy. The stabilities for different groups varied widely. Phyllosilicate spectra all showed measurable losses of interlayer H2O, with some structural groups showing more rapid H2O loss than others. Loss of OH from the phyllosilicates is not always accompanied by a change in metal-OH overtone absorption bands. OH-bearing sulfates, such as jarosite and alunite, show no measurable change in spectral properties, suggesting that they should be spectrally detectable on Mars on the basis of diagnostic absorption bands in the 0.4-2.5 mu m region. Fe3+- and H2O-bearing sulfates all showed changes in the appearance and/or reduction in depths of hydroxo-bridged Fe3+ absorption bands, particularly at 0.43 mu m. The spectral changes were often accompanied by visible color changes, suggesting that subsurface sulfates exposed to the martian surface environment tray undergo measurable changes in reflectance spectra and color over short periods of time (days to weeks). Organic-bearing geological materials showed no measurable change in C-H related absorption bands, while carbonates and hydroxides also showed no systematic changes in spectral properties. The addition of ultraviolet irradiation did not seem to affect mineral stability or rate of spectral change, with one exception (hexahydrite). In some cases, spectral changes could be related to the formation of specific new phases. The data also suggest that hydrated minerals detected on Mars to date retain their diagnostic spectral properties that allow their unique identification. (C) 2007 Elsevier Inc. All rights reserved.
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