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Experimental evidence for the survival of augite to transition zone depths, and implications for subduction zone dynamics
Jingui Xu;  Dongzhou Zhang;  Przemyslaw Dera;  Bo Zhang;  Dawei Fan
2017
发表期刊American Mineralogist
卷号102期号:7页码:1516-1524
摘要

(Ca,Mg)-rich clinopyroxenes are abundant in Earth's upper mantle and subduction zones. Experimental studies on the thermoelastic properties of these minerals at simultaneous high pressure and high temperature are important for constraining of the composition and structure of the Earth. Here, we present a synchrotron-based single-crystal X-ray diffraction study of natural diopside-dominated augite [(Ca0.89Na0.05Mg0.06)(Mg0.74Fe0.11Al0.14Ti0.01)(Si1.88Al0.12)O-6.00] at P and T to similar to 27 GPa and 700 K. The experiment simulates conditions in cold subducting slabs, and results indicate that augite is stable over this pressure and temperature range. A third-order high-temperature Birch-Murnaghan equation was fit with the pressure-volume-temperature data, yielding the following thermoelastic parameters: K-T0 = 111(1) GPa, K'(T0) = 4.1(1), (partial derivative K-0/partial derivative T)(P) = -0.008(5) GPa/K and alpha(T) = 4(1)x10(-5) K-1 +2(3)x10(-8) K-2 T. A strain analysis shows that the compression along the three principal stress directions is highly anisotropic with epsilon 1:epsilon 2:epsilon 3 = 1.98:2.43:1.00. Additionally, high-pressure structural refinements of room-temperature polyhedral geometry, bond lengths and O3-O3-O3 angle were investigated to similar to 27 GPa at ambient temperature. Pressure dependences of polyhedral volumes and distortion indicate that the substitution of Al3+ for Si4+ significantly changes the compressional behavior of the TO4-tetrahedron in augite. Density calculations of this augite along a subducting slab geotherm suggest that augite as well as other common clinopyroxenes would promote slab stagnations at transition zone depths if they are metastably preserved in significant quantities.

关键词Pyroxenes Augite High Pressure And Temperature Single-crystal X-ray Diffraction Subduction Zone
收录类别SCI
语种英语
文献类型期刊论文
条目标识符http://ir.gyig.ac.cn/handle/42920512-1/8075
专题地球内部物质高温高压实验室
作者单位1.Key Laboratory of High Temperature and High Pressure Study of the Earth’s Interior, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang, 550081, China
2.Hawaii Institute of Geophysics and Planetology, School of Ocean and Earth Science and Technology, University of Hawaii at Manoa, 1680 East West Road, POST Building, Honolulu, Hawaii 96822, U.S.A
3.University of Chinese Academy of Sciences, Beijing, 100049, China
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Jingui Xu;Dongzhou Zhang;Przemyslaw Dera;Bo Zhang;Dawei Fan. Experimental evidence for the survival of augite to transition zone depths, and implications for subduction zone dynamics[J]. American Mineralogist,2017,102(7):1516-1524.
APA Jingui Xu;Dongzhou Zhang;Przemyslaw Dera;Bo Zhang;Dawei Fan.(2017).Experimental evidence for the survival of augite to transition zone depths, and implications for subduction zone dynamics.American Mineralogist,102(7),1516-1524.
MLA Jingui Xu;Dongzhou Zhang;Przemyslaw Dera;Bo Zhang;Dawei Fan."Experimental evidence for the survival of augite to transition zone depths, and implications for subduction zone dynamics".American Mineralogist 102.7(2017):1516-1524.
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