Melting Relations of Basalt with Equilibrium Water Pressure Less Than Total Pressure |
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| Authors: | HOLLOWAY JOHN R; BURNHAM C WAYNE |
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| Institution: | Department of Geochemistry and Mineralogy, The Pennsylvania State University, University Park Pennsylvania 16802
2 Present address: Department of Chemistry, Arizona State University, Tempe, Arizona 85281. |
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| Abstract: | Equilibrium H2O pressure (PeH2O) was fixed at values less thantotal pressure (PT) in melting experiments on mixtures of 1921Kilauea tholeiite, H2O, and CO2 (58.5 mole per cent H2O, 41.5mole per cent CO2), buffered by Ni+NiO. New determinations ofthe beginning of melting of mixtures of 1921 Kilauea tholeiiteand H2O buffered by quartz+fayalite+magnetite were made at 2and 3 kb. Microprobe analyses of coexisting glass, clinopyroxene,?olivine, ?amphibole were determined for several runs. Decreasing H2O fugacity (fH2O) to about six-tenths the fugacityof pure H2O (f?II2O) raises the solidus and the upper stabilitylimit of plagioclase. Plagioclase and clinopyroxene coexistin equilibrium with liquid-a feature not observed in the pureH2O system. Amphibole is stable to about 970 ?C at 2 kb, 1025?C at 5 kb and 1060 ?C at 8 kb. The Al (VI)+Ti contents of theamphibole increase with P, yielding kaersutite at 1050 ?C and8 kb. Calculated modes for the condensed phases reveal large differencesin the amount of glass (liquid) present and large differencesin liquid composition below and above the breakdown temperatureof amphibole at 5 and 8 kb. Liquids coexisting with amphibole,clinopyroxene, olivine, and magnetite are dacitic near the solidusand silica-rich andesites around 1000 ?C at 5 and 8 kb. Theresults of this study substantiate the model for the generationof the calc-alkaline suite by partial melting of H2O-rich basalts. |
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