Advances in Mapping Lowermost Mantle Convective Flow With Seismic Anisotropy Observations

IF 25.2 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Reviews of Geophysics Pub Date : 2024-05-17 DOI:10.1029/2023RG000833
Jonathan Wolf, Mingming Li, Maureen D. Long, Edward Garnero
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Abstract

Convective flow in the deep mantle controls Earth's dynamic evolution, influences plate tectonics, and has shaped Earth's current surface features. Present and past convection-induced deformation manifests itself in seismic anisotropy, which is particularly strong in the mantle's uppermost and lowermost portions. While the general patterns of seismic anisotropy have been mapped for the upper mantle, anisotropy in the lowermost mantle (called D′′) is at an earlier stage of exploration. Here we review recent progress in methods to measure and interpret D′′ anisotropy. Our understanding of the limitations of existing methods and the development of new measurement strategies have been aided enormously by the availability of high-performance computing resources. We give an overview of how measurements of seismic anisotropy can help constrain the mineralogy and fabric of the deep mantle. Specifically, new and creative strategies that combine multiple types of observations provide much tighter constraints on the geometry of anisotropy than have previously been possible. We also discuss how deep mantle seismic anisotropy provides insights into lowermost mantle dynamics. We summarize what we have learned so far from measurements of D′′ anisotropy, how inferences of lowermost mantle flow from measurements of seismic anisotropy relate to geodynamic models of mantle flow, and what challenges we face going forward. Finally, we discuss some of the important unsolved problems related to the dynamics of the lowermost mantle that can be elucidated in the future by combining observations of seismic anisotropy with geodynamic predictions of lowermost mantle flow.

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利用地震各向异性观测绘制最下部地幔对流图的进展
地幔深处的对流控制着地球的动态演化,影响着板块构造,并塑造了地球目前的地表特征。目前和过去对流引起的形变表现为地震各向异性,在地幔的最上层和最下层尤为明显。虽然已经绘制了上地幔地震各向异性的一般模式图,但最下层地幔的各向异性(称为 D′′)还处于探索的早期阶段。在此,我们回顾了在测量和解释 D′′各向异性方法方面的最新进展。我们对现有方法局限性的理解和新测量策略的开发都得益于高性能计算资源的可用性。我们将概述地震各向异性测量如何帮助约束深地幔的矿物学和结构。具体来说,结合多种类型观测的新颖策略对各向异性的几何形状提供了比以往更为严格的约束。我们还讨论了深地幔地震各向异性如何深入了解最底层地幔动力学。我们总结了迄今为止我们从 D′′ 各向异性测量中了解到的情况,从地震各向异性测量中推断最底层地幔流动与地幔流动地球动力学模型之间的关系,以及我们未来面临的挑战。最后,我们讨论了与最下地幔动力学有关的一些尚未解决的重要问题,这些问题可以在未来通过将地震各向异性观测与最下地幔流动的地球动力学预测结合起来加以阐明。
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来源期刊
Reviews of Geophysics
Reviews of Geophysics 地学-地球化学与地球物理
CiteScore
50.30
自引率
0.80%
发文量
28
审稿时长
12 months
期刊介绍: Geophysics Reviews (ROG) offers comprehensive overviews and syntheses of current research across various domains of the Earth and space sciences. Our goal is to present accessible and engaging reviews that cater to the diverse AGU community. While authorship is typically by invitation, we warmly encourage readers and potential authors to share their suggestions with our editors.
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