Other
Scientific paper
Jan 2000
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000m%26ps...35...31b&link_type=abstract
Meteoritics & Planetary Science, vol. 35, no. 1, pp. 31-38 (2000).
Other
30
Scientific paper
A number of Martian meteorite samples contain secondary alteration minerals such as Ca-Mg-Fe carbonates, Fe-oxides, and clay minerals. These mineral assemblages hint at hydrothermal processes occurring in the Martian crust, but the alteration conditions are poorly constrained. This study presents the results of experiments which examined the alteration of a high-iron basalt by CO2-saturated, aqueous fluids at 23 and 75 deg C and by mixed H2O-CO2 vapors at 200 and 400 deg C and water-rock ratios of 1:1 and 1:10. Results indicate that observable alteration of the basalt takes place after runs of only seven days. This alteration includes mobilization of silica into phases such as opal-CT and quartz, as well as the formation of carbonates, oxides, and at some conditions zeolites and hydrous silicates. The degree of alteration increases with run temperature and, in high-temperature vapor experiments, with increasing water content of the vapor. The degree of alteration and the mineralogy observed in the Martian meteorites suggests that none of these samples was exposed to aqueous fluids for long periods of time. Nakhla and Lafayette probably interacted with water for relatively brief periods of time; if so, silica may have been leached from the parent rocks by the altering fluids. ALH84001 shows possible evidence for very limited interaction with an aqueous fluid but the overall slight degree of alteration described for this meteorite strongly suggests that never interacted extensively or at high temperature with any water-bearing fluid. EETA79001 may not have been altered by aqueous fluids at all. The results of this study best support models wherein the meteorite parent rocks were wetted intermittently or for brief periods of time rather than models which invoke long-term reaction with large volumes of water.
Agenbroad Deborah J.
Baker Leslie L.
Wood Scott A.
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