Alian Wang scite author profile

The mineralogical and elemental compositions of the martian soil are indicators of chemical and physical weathering processes. Using data from the Mars Exploration Rovers, we show that bright dust deposits on opposite sides of the planet are part of a global unit and not dominated by the composition of local rocks. Dark soil deposits at both sites have similar basaltic mineralogies, and could reflect either a global component or the general similarity in the compositions of the rocks from which they were derived. Increased levels of bromine are consistent with mobilization of soluble salts by thin films of liquid water, but the presence of olivine in analysed soil samples indicates that the extent of aqueous alteration of soils has been limited. Nickel abundances are enhanced at the immediate surface and indicate that the upper few millimetres of soil could contain up to one per cent meteoritic material.

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Characterization of Natural Feldspars by Raman Spectroscopy for Future Planetary Exploration

Freeman¹,

Wang²,

Kuebler³

et al. 2008

The Canadian Mineralogist

304

288

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Extracting olivine (Fo–Fa) compositions from Raman spectral peak positions

Kuebler¹,

Jolliff²,

Wang³

et al. 2006

Geochimica et Cosmochimica Acta

241

258

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Rocks of the Columbia Hills

et al. 2006

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[1] The Mars Exploration Rover Spirit has identified five distinct rock types in the Columbia Hills of Gusev crater. Clovis Class rock is a poorly sorted clastic rock that has undergone substantial aqueous alteration. We interpret it to be aqueously altered ejecta deposits formed by impacts into basaltic materials. Wishstone Class rock is also a poorly sorted clastic rock that has a distinctive chemical composition that is high in Ti and P and low in Cr. Wishstone Class rock may be pyroclastic or impact in origin. Peace Class rock is a sedimentary material composed of ultramafic sand grains cemented by significant quantities of Mg-and Ca-sulfates. Peace Class rock may have formed when water briefly saturated the ultramafic sands and evaporated to allow precipitation of the sulfates. Watchtower Class rocks are similar chemically to Wishstone Class rocks and have undergone widely varying degrees of near-isochemical aqueous alteration. They may also be ejecta deposits, formed by impacts into Wishstone-rich materials and altered by small amounts of water. Backstay Class rocks are basalt/trachybasalt lavas that were emplaced in the Columbia Hills after the other rock classes were, either as impact ejecta or by localized volcanic activity. The geologic record preserved in the rocks of the Columbia Hills reveals a period very early in Martian history in which volcanic materials were widespread, impact was a dominant process, and water was commonly present.

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Nature and degree of aqueous alteration in CM and CI carbonaceous chondrites

Takir

Emery

McSween

et al. 2013

Meteorit & Planetary Scien

150

188

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Abstract-We investigated the petrologic, geochemical, and spectral parameters that relate to the type and degree of aqueous alteration in nine CM chondrites and one CI (Ivuna) carbonaceous chondrite. Our underlying hypothesis is that the position and shape of the 3 lm band is diagnostic of phyllosilicate mineralogy. We measured reflectance spectra of the chondrites under dry conditions (elevated temperatures) and vacuum (10 À8 to 10 À7 torr) to minimize adsorbed water and mimic the space environment, for subsequent comparison with reflectance spectra of asteroids. We have identified three spectral CM groups in addition to Ivuna. "Group 1," the least altered group as determined from various alteration indices, is characterized by 3 lm band centers at longer wavelengths, and is consistent with cronstedtite (Fe-serpentine). "Group 3," the most altered group, is characterized by 3 lm band centers at shorter wavelengths and is consistent with antigorite (serpentine). "Group 2" is an intermediate group between group 1 and 3. Ivuna exhibits a unique spectrum that is distinct from the CM meteorites and is consistent with lizardite and chrysotile (serpentine). The petrologic and geochemical parameters, which were determined using electron microprobe analyses and microscopic observations, are found to be consistent with the three spectral groups. These results indicate that the distinct parent body aqueous alteration environments experienced by these carbonaceous chondrites can be distinguished using reflectance spectroscopy. High-quality ground-based telescopic observations of Main Belt asteroids can be expected to reveal not just whether an asteroid is hydrated, but also details of the alteration state.

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Alian Wang

An integrated view of the chemistry and mineralogy of martian soils

Characterization of Natural Feldspars by Raman Spectroscopy for Future Planetary Exploration

Extracting olivine (Fo–Fa) compositions from Raman spectral peak positions

Rocks of the Columbia Hills

Nature and degree of aqueous alteration in CM and CI carbonaceous chondrites

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