Trace Element Geochemistry of Martian Iddingsite in the Lafayette Meteorite

Details Trace Element Geochemistry of Martian Iddingsite in the Lafayette Meteorite Trace Element Geochemistry of Martian Iddingsite in the Lafayette Meteorite

Apr 1997

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997jgr...102.9153t&link_type=abstract

Journal of Geophysical Research, vol. 102, p. 9153

Physics

25

Trace Elements, Geochemistry, Igneous Rocks, Mars (Planet), Meteorites, Clays, Magnesium, Fractionation, Water, Silicates, Petrography, Olivine, Minerals

Scientific paper

The Lafayette meteorite contains abundant iddingsite, a fine-grained intergrowth of smectite clay, ferrihydrite, and ionic salt minerals. Both the meteorite and iddingsite formed on Mars. Samples of iddingsite, olivine, and augite pyroxene were extracted from Lafayette and analyzed for trace elements by instrumental neutron activation. Our results are comparable to independent analyses by electron and ion microbeam methods. Abundances of most elements in the iddingsite do not covary significantly. The iddingsite is extremely rich in Hg, which is probably terrestrial contamination. For the elements Si, Al, Fe, Mn, Ni, Co, and Zn, the composition of the iddingsite is close to a mixture of approximately 50% Lafayette olivine + approximately 40% Lafayette siliceous glass + approximately 1O% water. Concordant behavior among these elements is not compatible with element fractionations between smectite and water, but the hydrous nature and petrographic setting of the iddingsite clearly suggest an aqueous origin. These inferences are both consistent, however, with deposition of the iddingsite originally as a silicate gel, which then crystallized (neoformed) nearly isochemically. The iddingsite contains significantly more magnesium than implied by the model, which may suggest that the altering solutions were rich in Mg(2+).

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