期刊
JOURNAL OF PETROLOGY
卷 45, 期 8, 页码 1539-1564出版社
OXFORD UNIV PRESS
DOI: 10.1093/petrology/egh015
关键词
hydrogen; megacryst; mantle; trace element; water
Concentrations of OH, and major and trace elements were determined in a suite of mantle-derived megacrysts that represent the crystallization products of a kimberlite-like magma at similar to5 GPa and similar to1400-1100degreesC. OH concentrations, determined by single-crystal Fourier transform infrared spectroscopy, display the following ranges (ppmw H(2)O): olivine 54-262, orthopyroxene 215-263, garnet 15-74, clinopyroxene 195-620, and zircon 28-34. High OH concentrations in olivine imply mantle conditions of origin, with limited H loss during ascent. OH is consistently correlated with megacryst composition, exhibiting trends with Mg-number that are similar to those of other minor and trace elements and indicating a record of high-pressure magmatic evolution. H substitution is not coupled to minor elements in olivine, but may be in ortho- and clinopyroxene. The OH-Mg-number trends of garnet and clinopyroxene show inflections related to co-precipitation of ilmenite, suggesting minor element (Ti) influence on OH partitioning. During differentiation, relative OH enrichment in clinopyroxene and olivine is consistent with proportional dependence on water activity, whereas that in garnet suggests a higher power-law dependence and/or influence of temperature. Inter-mineral distribution coefficients for OH between cpx, opx, olivine and zircon are thus constant, whereas partitioning between these minerals and garnet shows a factor 4-10 variation, correlated regularly with composition (and temperature). Calculation of solid-melt partition coefficients for H at 5 GPa over a range of magmatic evolution from 1380 to 1250degreesC yields: ol 0.0053-0.0046, opx 0.0093-0.0059, cpx 0.016-0.013, gt 0.0014-0.0003, bulk (garnet lherzolite- melt) 0.0063-0.0051. These are consistent with experimental studies and similar to values inferred from mid-ocean ridge basalt geochemistry, confirming the moderate incompatibility of H in mantle melting.
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