Seismic Constraint on Heterogeneous Deformation and Stress State in the Forearc of the Hikurangi Subduction Zone, New Zealand

The Seismic Record Pub Date : 2021-10-01 DOI:10.1785/0320210032

J. Gosselin, P. Audet, B. Fry, E. Warren‐Smith

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引用次数: 2

Abstract

The Hikurangi subduction zone (HSZ) is the collisional boundary between the Pacific and Australian tectonic plates along the eastern coast of the North Island of New Zealand. The region is believed to be capable of hosting large megathrust earthquakes and associated tsunamis. Recent studies observe a range of slip behavior along the plate interface, with a sharp contrast between locked and creeping parts of the megathrust along the margin. This work uses teleseismic scattering data (receiver functions [RFs]) recorded at 53 long-running seismograph stations on the North Island of New Zealand to constrain the structure and mechanical properties of the forearc in the HSZ. We observe directional variations in RF phases at P–S converted delay times (i.e., depths) associated with the overlying forearc crust and note a general correlation with spatial variations in plate coupling as well as other geophysical properties. Our results suggest differences in the nature of crustal deformation (and stress state) along the Hikurangi margin, with evidence of clockwise rotation and/or extension in the northern HSZ, where the overriding forearc crust is uncoupled from the subducting Pacific slab.

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新西兰Hikurangi俯冲带前弧非均质变形和应力状态的地震约束

Hikurangi俯冲带(HSZ)是沿新西兰北岛东海岸的太平洋和澳大利亚构造板块之间的碰撞边界。该地区被认为有能力举办大型逆冲地震和相关的海啸。最近的研究观察到沿板块界面的一系列滑动行为，在沿边缘的巨型逆冲构造的锁定部分和蠕动部分之间形成了鲜明的对比。本研究利用新西兰北岛53个长期运行的地震仪台站记录的远震散射数据(接收函数[rf])来约束高地震带前弧的结构和力学特性。我们观察到与上覆弧前地壳相关的P-S转换延迟时间(即深度)的射频相位方向变化，并注意到与板块耦合以及其他地球物理性质的空间变化的一般相关性。我们的研究结果表明，沿Hikurangi边缘的地壳变形(和应力状态)的性质存在差异，在HSZ北部有顺时针旋转和/或伸展的证据，在那里，覆盖的前弧地壳与俯冲的太平洋板块分离。

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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The Seismic Record

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