Thermal structure of Japan Trench subduction zone and deep-focus earthquakes

IF 1.6 4区地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS

地球物理学报 Pub Date : 2014-10-01 DOI:10.6038/CJG20141009

Chen Zhang, Shuangxi Zhang, E. Carminati, B. Gao

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Abstract

The present study calculated the thermal structure,the distribution of buoyancy,and P-wave velocity anomalies in Japan Trench subduction zone using finite difference method,and predicted the range of metastable olivine according to whole and layered mantle convection models.We analyzed the influences of multiple coefficients,such as thermal conductivity,thermal expansion,and heat sources on the thermal structure.The relation between the buoyancy of subduction zone and its shape were also discussed.Interesting results for layered mantle convection model demonstrated that the modeled P-wave velocity anomalies not only matched seismic tomography results much better,but also highly correlated to the distribution of deep-focus earthquakes in Japan Trench subduction zone.The areas of metastable olivine inside slabs became larger with decreasing values of thermal conductivity and thermal expansion coefficients and ignoring phase change heating and shear heating would also induce larger areas of modeled metastable olivine.The maximum value of negative buoyancy reached the depth of about400 km.The metastable olivine resulted in the decrease of negative buoyancy,or even positive buoyancy within the subduction zone against the penetration of the subduction zone into the 660 km discontinuity.

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日本海沟俯冲带的热结构与深震源地震

本文利用有限差分法计算了日本海沟俯冲带的热结构、浮力分布和纵波速度异常，并根据整体和层状地幔对流模型预测了亚稳橄榄石的范围。我们分析了导热系数、热膨胀系数和热源对热结构的影响。讨论了俯冲带的浮力与其形状的关系。层状地幔对流模型的有趣结果表明，模拟的纵波速度异常不仅与地震层析成像结果吻合得更好，而且与日本海沟俯冲带的深源地震分布高度相关。随着热导率和热膨胀系数的减小，板内亚稳橄榄石面积增大，忽略相变加热和剪切加热也会导致模拟亚稳橄榄石面积增大。负浮力的最大值达到约400公里的深度。亚稳橄榄石导致俯冲带内的负浮力减弱，甚至正浮力减弱，以抵抗俯冲带向660 km不连续面的渗透。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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