Stability field of phase Egg, AlSiO3OH at high pressure and high temperature: Possible water reservoir in mantle transition zone

Ko Fukuyama; Eiji Ohtani; Yuki Shibazaki; Hiroyuki Kagi; Akio Suzuki

doi:10.2465/jmps.160719e

Stability field of phase Egg, AlSiO₃OH at high pressure and high temperature: Possible water reservoir in mantle transition zone

Ko Fukuyama, Eiji Ohtani, Yuki Shibazaki, Hiroyuki Kagi, Akio Suzuki

研究成果: Letter › 査読

25 被引用数 (Scopus)

抄録

High-pressure and high-temperature experiments were conducted to determine the stability field of phase Egg, AlSiO₃OH, in the pressure range of 16.5-23.5 GPa and in the temperature range of 800-1500 °C. We found that phase Egg decomposes to δ-AlOOH + stishovite below ~ 1200 °C (16.5 GPa and 800 °C; 20.6 GPa and 1000 °C) and to Al-phase D + corundum + stishovite above ~ 1200 °C (21.8 GPa and 1500 °C) at P-T conditions corresponding to the mantle transition zone. This indicates that phase Egg is unstable at the top of the lower mantle and can be a water reservoir only in the mantle transition zone. In addition, the present results imply that the superdeep diamonds that include phase Egg do not originate from the lower mantle but from the wet mantle transition zone.

本文言語	English
ページ（範囲）	31-35
ページ数	5
ジャーナル	Journal of Mineralogical and Petrological Sciences
巻	112
号	1
DOI	https://doi.org/10.2465/jmps.160719e
出版ステータス	Published - 2017

ASJC Scopus subject areas

地球物理学
地質学

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10.2465/jmps.160719e

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title = "Stability field of phase Egg, AlSiO3OH at high pressure and high temperature: Possible water reservoir in mantle transition zone",

abstract = "High-pressure and high-temperature experiments were conducted to determine the stability field of phase Egg, AlSiO3OH, in the pressure range of 16.5-23.5 GPa and in the temperature range of 800-1500 °C. We found that phase Egg decomposes to δ-AlOOH + stishovite below ~ 1200 °C (16.5 GPa and 800 °C; 20.6 GPa and 1000 °C) and to Al-phase D + corundum + stishovite above ~ 1200 °C (21.8 GPa and 1500 °C) at P-T conditions corresponding to the mantle transition zone. This indicates that phase Egg is unstable at the top of the lower mantle and can be a water reservoir only in the mantle transition zone. In addition, the present results imply that the superdeep diamonds that include phase Egg do not originate from the lower mantle but from the wet mantle transition zone.",

keywords = "Mantle transition zone, Phase Egg, Superdeep diamond, Thermodynamic stability, Water in the mantle",

author = "Ko Fukuyama and Eiji Ohtani and Yuki Shibazaki and Hiroyuki Kagi and Akio Suzuki",

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T1 - Stability field of phase Egg, AlSiO3OH at high pressure and high temperature

T2 - Possible water reservoir in mantle transition zone

AU - Fukuyama, Ko

AU - Ohtani, Eiji

AU - Shibazaki, Yuki

AU - Kagi, Hiroyuki

AU - Suzuki, Akio

PY - 2017

Y1 - 2017

N2 - High-pressure and high-temperature experiments were conducted to determine the stability field of phase Egg, AlSiO3OH, in the pressure range of 16.5-23.5 GPa and in the temperature range of 800-1500 °C. We found that phase Egg decomposes to δ-AlOOH + stishovite below ~ 1200 °C (16.5 GPa and 800 °C; 20.6 GPa and 1000 °C) and to Al-phase D + corundum + stishovite above ~ 1200 °C (21.8 GPa and 1500 °C) at P-T conditions corresponding to the mantle transition zone. This indicates that phase Egg is unstable at the top of the lower mantle and can be a water reservoir only in the mantle transition zone. In addition, the present results imply that the superdeep diamonds that include phase Egg do not originate from the lower mantle but from the wet mantle transition zone.

AB - High-pressure and high-temperature experiments were conducted to determine the stability field of phase Egg, AlSiO3OH, in the pressure range of 16.5-23.5 GPa and in the temperature range of 800-1500 °C. We found that phase Egg decomposes to δ-AlOOH + stishovite below ~ 1200 °C (16.5 GPa and 800 °C; 20.6 GPa and 1000 °C) and to Al-phase D + corundum + stishovite above ~ 1200 °C (21.8 GPa and 1500 °C) at P-T conditions corresponding to the mantle transition zone. This indicates that phase Egg is unstable at the top of the lower mantle and can be a water reservoir only in the mantle transition zone. In addition, the present results imply that the superdeep diamonds that include phase Egg do not originate from the lower mantle but from the wet mantle transition zone.

KW - Mantle transition zone

KW - Phase Egg

KW - Superdeep diamond

KW - Thermodynamic stability

KW - Water in the mantle

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