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Tracking silica in Earth's upper mantle using new sound velocity data for coesite to 5.8 GPa and 1073 K
Author(s) -
Chen Ting,
Liebermann Robert C.,
Zou Yongtao,
Li Ying,
Qi Xintong,
Li Baosheng
Publication year - 2017
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1002/2017gl073950
Subject(s) - coesite , stishovite , geology , eclogite , mantle (geology) , transition zone , mineralogy , geophysics , wave velocity , s wave , discontinuity (linguistics) , shear velocity , shear (geology) , subduction , quartz , seismology , petrology , thermodynamics , tectonics , physics , paleontology , mathematical analysis , turbulence , mathematics
The compressional and shear wave velocities for coesite have been measured simultaneously up to 5.8 GPa and 1073 K by ultrasonic interferometry for the first time. The shear wave velocity decreases with pressure along all isotherms. The resulting contrasts between coesite and stishovite reach ~34% and ~45% for P and S wave velocities, respectively, and ~64% and ~75% for their impedance at mantle conditions. The large velocity and impedance contrasts across coesite‐stishovite transition imply that to generate the velocity and impedance contrasts observed at the X‐discontinuity, only a small amount of silica would be required. The velocity jump dependences on silica, d (ln V P )/ d (SiO 2 ) = 0.38 (wt %) −1 and d (ln V S )/ d (SiO 2 ) = 0.52 (wt %) −1 , are utilized to place constraints on the amount of silica in the upper mantle and provide a geophysical approach to track mantle eclogite materials and ancient subducted oceanic slabs.