Tschermak's substitution in antigorite and consequences for phase relations and water liberation in high-grade serpentinites

A model for the incorporation of alumina in FeO–MgO–Al2O3–SiO2–H2O (FMASH) serpentinites has been developed by considering ideal Tschermak (Al2Mg−1Si−1) solid solution in antigorite. The antigorite model has been calibrated by fitting the experimental conditions for the decomposition of antigorite t...

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Veröffentlicht in:	Lithos 2013-09, Vol.178, p.186-196
Hauptverfasser:	Padrón-Navarta, José Alberto, Sánchez-Vizcaíno, Vicente López, Hermann, Joerg, Connolly, James A.D., Garrido, Carlos J., Gómez-Pugnaire, María Teresa, Marchesi, Claudio
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Schlagworte:	Antigorite Dehydration Geothermobarometry Serpentinite Subduction zones Tschermak's exchange
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creator	Padrón-Navarta, José Alberto Sánchez-Vizcaíno, Vicente López Hermann, Joerg Connolly, James A.D. Garrido, Carlos J. Gómez-Pugnaire, María Teresa Marchesi, Claudio
description	A model for the incorporation of alumina in FeO–MgO–Al2O3–SiO2–H2O (FMASH) serpentinites has been developed by considering ideal Tschermak (Al2Mg−1Si−1) solid solution in antigorite. The antigorite model has been calibrated by fitting the experimental conditions for the decomposition of antigorite to chlorite+olivine+orthopyroxene+fluid in the FMASH system. The antigorite Al-contents predicted with this model are in agreement with natural observations and suggest a maximum alumina solubility in antigorite of 3.6wt.% Al2O3 at 20kbar–650°C and of 4.5wt.% Al2O3 at 3kbar–560°C. In the assemblage antigorite–olivine–chlorite–fluid, the Al-content of antigorite is buffered and temperature sensitive. This temperature sensitivity is the basis for a serpentinite geothermometer at greenschist, amphibolite and eclogite facies conditions. The buffered assemblage is stable in harzburgite compositions for relatively moderate amounts of Al2O3 (>1.8wt.%) and is widespread in lherzolites, where it occurs together with diopside or, in a narrow temperature field, with tremolite. ► New solid solution for aluminum in antigorite and extension of its phase relations to CFMASH. ► Al-in antigorite is a potential geothermobarometer for high-grade serpentinites. ► Improvement in the modeling of dehydration reactions in subduction zones. ► Up to 0.3wt.% of fluid can be continuously released before the antigorite dehydration.
doi_str_mv	10.1016/j.lithos.2013.02.001
format	Article
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The antigorite model has been calibrated by fitting the experimental conditions for the decomposition of antigorite to chlorite+olivine+orthopyroxene+fluid in the FMASH system. The antigorite Al-contents predicted with this model are in agreement with natural observations and suggest a maximum alumina solubility in antigorite of 3.6wt.% Al2O3 at 20kbar–650°C and of 4.5wt.% Al2O3 at 3kbar–560°C. In the assemblage antigorite–olivine–chlorite–fluid, the Al-content of antigorite is buffered and temperature sensitive. This temperature sensitivity is the basis for a serpentinite geothermometer at greenschist, amphibolite and eclogite facies conditions. 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The antigorite model has been calibrated by fitting the experimental conditions for the decomposition of antigorite to chlorite+olivine+orthopyroxene+fluid in the FMASH system. The antigorite Al-contents predicted with this model are in agreement with natural observations and suggest a maximum alumina solubility in antigorite of 3.6wt.% Al2O3 at 20kbar–650°C and of 4.5wt.% Al2O3 at 3kbar–560°C. In the assemblage antigorite–olivine–chlorite–fluid, the Al-content of antigorite is buffered and temperature sensitive. This temperature sensitivity is the basis for a serpentinite geothermometer at greenschist, amphibolite and eclogite facies conditions. 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subjects	Antigorite Dehydration Geothermobarometry Serpentinite Subduction zones Tschermak's exchange
title	Tschermak's substitution in antigorite and consequences for phase relations and water liberation in high-grade serpentinites
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