Pressure dependence of H solubility in magnesiowüstite up to 25 GPa: Implications for the storage of water in the Earth's lower mantle

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Postspinel transformations in the system Mg2SiO4-Fe2SiO4and some geophysical implications

Eiji Ito, Eiichi TAKAHASHI (1989)

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Solubility of water in the α, β and γ phases of (Mg,Fe) 2 SiO 4

D Kohlstedt, D. Rubie, H. Keppler (1996)

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Water in Earth's Mantle: The Role of Nominally Anhydrous Minerals.

D Bell, G R Rossman (1992)

Most minerals of Earth's upper mantle contain small amounts of hydrogen, structurally bound as hydroxyl (OH). The OH concentration in each mineral species is variable, in some cases reflecting the geological environment of mineral formation. Of the major mantle minerals, pyroxenes are the most hydrous, typically containing approximately 200 to 500 parts per million H(2)O by weight, and probably dominate the water budget and hydrogen geochemistry of mantle rocks that do not contain a hydrous phase. Garnets and olivines commonly contain approximately 1 to 50 parts per million. Nominally anhydrous minerals constitute a significant reservoir for mantle hydrogen, possibly accommodating all water in the depleted mantle and providing a possible mechanism to recycle water from Earth's surface into the deep mantle.