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Harris et al. 1995
Harris, N., Ayres, M. and Massey, J. (1995). Geochemistry of granitic melts produced during the incongruent melting of muscovite: Implications for the extraction of Himalayan leucogranite magmas. Journal of Geophysical Research 100: doi: 10.1029/94JB02623. issn: 0148-0227.

Granites formed from the incongruent melting of muscovite preserve evidence of chemical disequilibrium, both between restite and melt, and within individual phases during crystallization. Miocene leucogranites from the Himalayas exemplify melt formation from a pelitic source through muscovite breakdown. Trace elements Rb, Sr, and Ba reside almost entirely in micas and feldspars in the protolith and therefore are appropriate for quantitative modeling. Equilibrium between melt and restite was established for Sr under fluid phase-absent conditions, but some disequilibrium is suggested by Rb abundances, consistent with known diffusion rates for these elements. Abundances of Zr and Ce in the granites, which provide essential structural constituents of the accessory phases zircon and monazite, indicate that the Himalayan granite melts were saturated in these elements if formed at temperatures of 670--700 ¿C but slightly undersaturated if formed at somewhat higher temperatures. Ion mciroprobe traverses of Y and heavy rare earth element abundances across single garnets from Himalayan leucogranites provide evidence for disequilibrium between melt and phenocryst during garnet growth, thus constraining the evolution of magmatic compositions during melt formation and crystallization. In some cases, progressive melting of the protolith and crystallization of garnet from the melt appear to have been concomitant, indicating that minimum solidus temperatures were maintained throughout the melting event. This suggests that thermal buffering rather than melt extraction provided the rate-determining step in magma evolution. ¿ American Geophysical Union 1995

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Abstract

Keywords
Volcanology, Physics and chemistry of magma bodies, Mineralogy and Petrology, Metamorphic petrology, Mineralogy and Petrology, Minor and trace element composition, Information Related to Geographic Region, Asia
Journal
Journal of Geophysical Research
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American Geophysical Union
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