CRYSTAL MOLDS ON MARS: MELTING OF A POSSIBLE NEW MINERAL SPECIES TO CREATE MARTIAN CHAOTIC TERRAIN

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dc.contributor.author Peterson R.C.
dc.contributor.author Wang R.
dc.date.accessioned 2024-12-15T02:15:07Z
dc.date.available 2024-12-15T02:15:07Z
dc.date.issued 2006
dc.identifier https://www.elibrary.ru/item.asp?id=14757190
dc.identifier.citation Geology, 2006, 34, 11, 957-960
dc.identifier.issn 0091-7613
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/46955
dc.description.abstract Images sent back by the Mars Exploration Rover Opportunity from the Meridiani Planum show sulfate-rich rocks containing plate-shaped voids with tapered edges that are interpreted as crystal molds formed after a late-stage evaporite mineral has been removed. Experimental studies of the MgSO4-H2O system at low temperatures reveal that the tri-clinic phase MgSO4·11H2O exhibits a crystal morphology that matches the shapes of these molds. MgSO4·11H2O melts incongruently above 2 °C to a mixture of 70% epsomite (MgSO4·7H2O) and 30% H2O by volume. When this occurs while crystals are encased in sediment, plate-shaped voids remain. The existence of ice, low surface temperatures, and the high sulfate content of surface rocks and soil on Mars makes MgSO4·11H2O a possible mineral species near the surface at high latitudes or elsewhere in the subsurface. If an evaporite layer contained a significant amount of this phase, incongruent melting would result in a rapid release of a large volume of water and could explain some of the landform features on Mars that are interpreted as outflow channels. MgSO4·11H2O would not survive a sample return mission unless extraordinary precautions were taken. © 2006 Geological Society of America.
dc.subject EPSOMITE
dc.subject INCONGRUENT MELTING
dc.subject MARS
dc.subject MINERALOGY
dc.subject SULFATE
dc.title CRYSTAL MOLDS ON MARS: MELTING OF A POSSIBLE NEW MINERAL SPECIES TO CREATE MARTIAN CHAOTIC TERRAIN
dc.type Статья
dc.identifier.doi 10.1130/G22678A.1


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