地震各向异性的变化揭示了古登堡不连续面的性质。

Changes in seismic anisotropy shed light on the nature of the Gutenberg discontinuity.

机构信息

Department of Earth, Planetary, and Space Sciences, University of California, Los Angeles, 595 Charles Young Drive East, Box 951567, Los Angeles, CA 90095-1567, USA.

出版信息

Science. 2014 Mar 14;343(6176):1237-40. doi: 10.1126/science.1246724. Epub 2014 Feb 27.

DOI:10.1126/science.1246724

PMID:24578529

Abstract

The boundary between the lithosphere and asthenosphere is associated with a platewide high-seismic velocity "lid" overlying lowered velocities, consistent with thermal models. Seismic body waves also intermittently detect a sharp velocity reduction at similar depths, the Gutenberg (G) discontinuity, which cannot be explained by temperature alone. We compared an anisotropic tomography model with detections of the G to evaluate their context and relation to the lithosphere-asthenosphere boundary (LAB). We find that the G is primarily associated with vertical changes in azimuthal anisotropy and lies above a thermally controlled LAB, implying that the two are not equivalent interfaces. The origin of the G is a result of frozen-in lithospheric structures, regional compositional variations of the mantle, or dynamically perturbed LAB.

摘要

岩石圈和软流圈之间的边界与热模型一致，存在一个覆盖在低速区之上的全球性高地震波速“盖子”。地震体波也间歇性地在相似深度探测到一个明显的速度降低，即古登堡（G）不连续面，这不能仅用温度来解释。我们比较了各向异性层析成像模型和 G 的探测结果，以评估它们的上下文及其与岩石圈-软流圈边界（LAB）的关系。我们发现，G 主要与方位各向异性的垂直变化有关，并且位于热控制的 LAB 之上，这意味着两者不是等效的界面。G 的起源是岩石圈结构冻结、地幔局部成分变化或受动力学扰动的 LAB 的结果。

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地震各向异性的变化揭示了古登堡不连续面的性质。

Changes in seismic anisotropy shed light on the nature of the Gutenberg discontinuity.

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