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dc.contributor.author Vaniman D.T.
dc.contributor.author Chipera S.J.
dc.date.accessioned 2024-10-18T08:57:23Z
dc.date.available 2024-10-18T08:57:23Z
dc.date.issued 2006
dc.identifier https://www.elibrary.ru/item.asp?id=14757195
dc.identifier.citation American Mineralogist, 2006, 91, 10, 1628-1642
dc.identifier.issn 0003-004X
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/45921
dc.description.abstract Salt hydrates have an active role in regolith development on Mars. The Mg-sulfate system, with highly variable values of n in the formula MgSO 44·nH2O, is particularly subject to transformations among several crystalline and amorphous forms. The Ca-sulfatc system, CaSO4·nH2O, is likely to be associated with the Mg-sulfates in most occurrences, but is less susceptible to transformations in n. Desiccation of MgSO4·nH2O occurs in exposed soils at the martian equator in summer where higher daytime temperatures at low relative humidity prevail against sluggish nighttime rchydration at high relative humidity. Desiccation and rehydration are both accelerated in the finest size fractions, particularly in silt-size aeolian particles subject to global redistribution by dust storms. This redistribution and periodic excursions into long-term episodes of high obliquity work to réhydrate desiccated MgSO4·nH2O to form epsomite, MgSO 4·7H2O, at higher latitudes in the first case and more globally in the latter. Kieserite, a monohydrate form of MgSO 4·nH2O resistant to desiccation, can survive equatorial summer conditions, but not protracted high relative humidity; preservation of kieserite at the surface may place limits on the equatorial distribution of ice during past episodes of high obliquity. Deeper horizons in equatorial regolith may preserve hydrated phases through repeated obliquity episodes, raising the possibility of an ancient regolith archive of past hydration. At shallower depths in the regolith, in situ determination of the hydration states of the Mg-sulfates, and possibly the Ca-sulfates, may be used to constrain regolith dynamics if rates and modes of transitions in n can be fully characterized.
dc.subject CRYSTAL GROWTH
dc.subject KINETICS
dc.subject LUNAR AND PLANETARY STUDIES
dc.subject PHASE TRANSITION
dc.title TRANSFORMATIONS OF MG- AND CA-SULFATE HYDRATES IN MARS REGOLITH
dc.type Статья
dc.identifier.doi 10.2138/am.2006.2092


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