Rapid rupture characterization for the 2023 MS 6.2 Jishishan earthquake

Xiongwei Tang , Rumeng Guo , Yijun Zhang , Kun Dai , Jianqiao Xu , Jiangcun Zhou , Mingqiang Hou , Heping Sun
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Abstract

On December 18, 2023, the MS 6.2 Jishishan earthquake occurred in the northeastern region of the Qinghai-Xizang Plateau, causing heavy casualties and property damage in Gansu and Qinghai Provinces. In this study, we integrate space imaging geodesy, finite fault inversion, and back-projection methods to decipher its rupture property, including fault geometry, coseismic slip distribution, rupture direction, and propagation speed. The results reveal that the seismogenic fault dips to the southwest at an angle of 29°. The major slip asperity is dominated by reverse slip and is concentrated within a depth range of 7–16 ​km, which explains the significant uplift near the epicenter observed by both the Sentinel-1 ascending and descending InSAR data. Moreover, the teleseismic array waveforms indicate a northwest propagating rupture with an overall slow rupture velocity of ∼1.91 ​km/s (AK array) or 1.01 ​km/s (AU array).

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2023 年吉祥山 6.2 级地震的运动断裂
2023 年 12 月 18 日,青藏高原东北部地区发生 MS 6.2 级积石山地震,造成甘肃、青海两省重大人员伤亡和财产损失。本研究综合运用空间成像大地测量、有限断层反演和反投影等方法,对其破裂属性进行了解译,包括断层几何形状、共震滑移分布、破裂方向和传播速度等。研究结果表明,该发震断层向西南倾斜 29°。主要的滑动表面以反向滑动为主,并集中在 7-16 千米的深度范围内,这也解释了哨兵一号上升和下降 InSAR 数据所观测到的震中附近的显著隆起。此外,远震阵列波形显示,断裂向西北方向传播,整体断裂速度较慢,为 1.91 千米/秒(AK 阵列)或 1.01 千米/秒(AU 阵列)。
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