Asymmetric Bilateral Rupture of the 2021 Mw 7.4 Maduo Earthquake in China and Association with Seismogenic Fault Structures

Seismological Research Letters Pub Date : 2024-07-19 DOI:10.1785/0220240031

Wei Liu, Lingci Zeng, Huajian Yao, Zhenjiang Yu, Xiaofei Chen

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Abstract

Different frequency contents of seismic waveforms may reveal different earthquake rupture features, which could shed light on understanding the seismic rupture and its association with seismogenic fault structures. Here, we applied finite-fault inversions and compressive-sensing backprojection analyses to study the rupture process of the 2021 Mw 7.4 Maduo, China earthquake, using seismic data in different frequency ranges. Our results unveil an asymmetric west-to-east bilateral rupture of this earthquake, that is, the westward rupture hosted less coseismic slip and less energy radiations than the eastward one. The westward rupture may encounter a structural complexity, suppressing the propagation of the seismic rupture and radiating higher-frequency energy. Instead, the eastward rupture passed across a relatively continuous fault geometry and possibly reached super-shear velocities locally. The fault bifurcation at the eastern end may arrest the seismic rupture and facilitate its termination. We infer that asymmetric rupture features of the 2021 Maduo earthquake are associated with complex fault structures resulting from deformations caused by the northeastward growth of the Tibetan plateau.

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中国 2021 年 7.4 级玛多地震的非对称双侧断裂及与震源断层结构的关联

不同频率的地震波形可能揭示不同的地震破裂特征，这有助于理解地震破裂及其与发震断层结构的联系。在此，我们利用不同频率范围的地震数据，采用有限断层反演和压缩感应反推分析，研究了 2021 年中国玛多 7.4 级地震的破裂过程。我们的研究结果揭示了此次地震自西向东的非对称双边破裂，即西向破裂比东向破裂承载的共震滑动和能量辐射更少。西向断裂可能遇到了复杂的结构，抑制了地震断裂的传播，辐射了更高频率的能量。相反，向东的断裂穿过了相对连续的断层几何形状，并可能在局部达到超剪切速度。东端的断层分叉可能会阻止地震断裂，并促进其终止。我们推断，2021 年玛多地震的非对称断裂特征与青藏高原向东北方向发展引起的变形所产生的复杂断层结构有关。

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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Seismological Research Letters

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