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- Title
Elasticity of high-pressure clinoenstatite under mantle conditions: Implications for the origin of the X-discontinuity.
- Authors
Song, Jian; Qian, Wangsheng; Hao, Shangqin; Wang, Wenzhong; Sun, Daoyuan; Wu, Zhongqing
- Abstract
The X-discontinuity is characterized by 2–8% wave impedance contrasts and indistinguishable seismological Clapeyron slopes. Its origin is not yet entirely understood and attributed to a variety of plausible causes, among which the coesite-stishovite transition is a popular mechanism due to its large impedance contrasts. However, the sole coesite-stishovite transition is insufficient to explain indistinguishable seismological Clapeyron slopes of the X-discontinuity. The orthopyroxene (OPX) to high-pressure clinopyroxene (HPCPX) transition has been excluded as a candidate mechanism in recent seismic studies because it can only cause small impedance contrasts based on the first-order estimate from the Birch's law without direct sound velocity measurements. In this study, we performed first-principles calculations to obtain the elasticity of high-pressure clinoenstatite at high pressure and temperature. Our results show that the impedance contrast caused by the OPX-HPCPX transition is ∼5.7% for P wave and ∼6.9% for S wave, which are much larger than the previous empirical estimation and hence cannot be ignored. Given that eclogite is subject to partial melting in hot or wet regions, which will promote the enrichment of orthopyroxene by consuming silica, we suggested that both the coesite-stishovite transition and the OPX-HPCPX transition may be dominant mechanisms for the X-discontinuity, with the former dominating where eclogite is hard to melt and the latter dominating where partial melting of eclogite occurs. The model is consistent with seismological observations, indicating the important role of the OPX-HPCPX transition in the X-discontinuity and extensive occurrence of partial melting of eclogite. The proposed origin of the X-discontinuity provides a plausible way to illuminate the melting situation of eclogite in the deep earth.
- Subjects
SHEAR waves; ECLOGITE; SOUND measurement; ORTHOPYROXENE; VELOCITY measurements; SEISMIC waves; SPEED of sound
- Publication
SCIENCE CHINA Earth Sciences, 2023, Vol 66, Issue 4, p718
- ISSN
1674-7313
- Publication type
Article
- DOI
10.1007/s11430-022-1024-5