| Инд. авторы: | Litasov K.D., Shatskiy A., Ohtani E. |
| Заглавие: | Melting and subsolidus phase relations in peridotite and eclogite systems with reduced C-O-H fluid at 3-16 GPa |
| Библ. ссылка: | Litasov K.D., Shatskiy A., Ohtani E. Melting and subsolidus phase relations in peridotite and eclogite systems with reduced C-O-H fluid at 3-16 GPa // Earth and Planetary Science Letters. - 2014. - Vol.391. - P.87-99. - ISSN 0012-821X. - EISSN 1385-013X. |
| Внешние системы: | DOI: 10.1016/j.epsl.2014.01.033; SCOPUS: 2-s2.0-84893747714; WoS: 000333998700010; |
| Реферат: | eng: Melting phase relations of peridotite and eclogite coexisting with reduced C-O-H fluid have been studied at 3-16 GPa and 1200-1600 degrees C. In order to perform these experiments the double-capsule technique with fO(2) control by outer Mo-MoO2 or Fe-FeO buffer capsule was designed and developed for multianvil experiments at pressures 3-21 GPa. Silicate phase assemblages resemble those in volatile-free lithologies, i.e. olivine/wadsleyite-orthopyroxene-clinopyroxene-garnet in peridotite and garnetomphacite in eclogite. Melting was detected by the appearance of quenched crystals of pyroxene, feldspar and glassy silica. Estimated solidus temperatures for peridotite + C-O-H fluid with fO(2) = Fe-FeO are 1200 degrees C at 3 GPa and 1700 degrees C at 16 GPa. The solidus of the system with fO(2) = Mo-MoO2 was about 100 degrees C lower. Estimated solidus temperatures for eclogite C-O-H fluid with fO(2) = Fe-FeO are 1100 degrees C at 3 GPa and 1600 degrees C at 16 GPa, and for eclogite at fO(2) = Mo-MoO2 solidus temperatures were 20-50 degrees C lower. These solidus temperatures are much higher (300-500 degrees C) than those for peridotite and eclogite systems with H2O and/or CO2, but are still 300-400 degrees C lower than the solidi of volatile-free peridotite and eclogite at studied pressures. The compositions of partial melt were estimated from mass-balance calculations: partial melts of peridotite have CaO-poor (6-9 wt.%) basaltic compositions with 44-47 wt.% SiO2 and 1.1-1.6 wt.% Na2O. Melts of eclogite contain more SiO2 (47-49 wt.%) and are enriched in CaO (9-15 wt.%), Na2O (9-14 wt.%), and K2O (1.3-2.2 wt.%). All runs contained graphite or diamond crystals along with porous carbon aggregate with micro-inclusions of silicates indicating that reduced fluid may dissolve significant amounts of silicate components. Analyses of carbon aggregates using a defocused electron microprobe beam reveal compositions similar to estimated partial melts. The diamonds formed from reduced C-O-H fluid may have natural analogues as polycrystalline diamonds. The oxygen fugacity in the Earth's mantle decreases with pressure from about fayalite-magnetite-quartz at shallow depths of 20-50 km to about iron-wustite at 250-300 km according to fO(2) estimations from cratonic peridotite. We show significant increase of solidus temperatures in peridotite and eclogite coexisting with reduced CH4-H2O fluid relative to the systems with oxidized H2O-CO2 fluid. We emphasize that redox melting by change of oxidation state across a mantle section, a phase transition, or the lithosphere-asthenosphere boundary can be the dominant melting process in the deep Earth's interior. (C) 2014 Elsevier B.V. All rights reserved.
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| Ключевые слова: | POLYCRYSTALLINE DIAMOND; CARBONATED ECLOGITE; OXYGEN FUGACITY; HIGH-PRESSURE; EARTHS DEEP MANTLE; H2O STORAGE CAPACITY; HIGH-TEMPERATURE FLUID; SILICA ACTIVITY; redox state; eclogite; peridotite; C-O-H fluid; melting; mantle; UPPER-MANTLE CONDITIONS; CRATONIC LITHOSPHERE; |
| Издано: | 2014 |
| Физ. характеристика: | с.87-99 |