2022年9月5日中国四川泸定6.8级地震初步报告

Yanru An , Dun Wang , Qiang Ma , Yueren Xu , Yu Li , Yingying Zhang , Zhumei Liu , Chunmei Huang , Jinrong Su , Jilong Li , Mingxiao Li , Wenkai Chen , Zhifan Wan , Dengjie Kang , Baoshan Wang
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引用次数: 20

摘要

2022年泸定6.8级地震是中国西部四川省自2017年九寨沟7.0级地震以来发生的最强地震。它发生在淡水河断裂东南段磨溪断裂上,是一个构造活跃、次生地震灾害严重的山区。为了更好地了解泸定地震的发震机制,为今后减灾减灾提供科学支持,我们总结了泸定地震初步结果,包括地震构造背景、地震活动性和主震震源特征及余震特性,以及主震的直接和次生损害。最近的GNSS站SCCM观测到的NS和EW方向的峰值地面位移为~35 mm和~55 mm,导致20的最大同震位错 mm,这与淡水河断层上的左旋滑动一致。遥震P波的反向投影表明主震断裂向东南偏南方向传播。根据反投影结果估计的主震地震强度表明,破裂区附近的麦卡利震级为VIII级或以上,与仪器测量和现场调查的结果一致。据报道,发生了多次余震,最大的一次是4.5级。余震地点(截至2022年9月18日)展示了3个集群,面积为100 长30公里 公里宽。余震的震级和频率如预期的那样下降,而且随着时间的推移,深度变得越来越浅。主震和两次余震显示出左旋走滑震源机制。对于余震序列,古腾堡-里希特频率-震级关系的b值、余震衰减的大莫里定律的h值和p值分别为0.81、1.4和1.21,表明这是一个典型的主震-余震序列。低b值意味着震源区域中的高背景应力。遥感卫星图像和无人机数据分析表明,地震引发的滑坡分布与余震区一致。发现了许多体积有限的小型山体滑坡,这些滑坡损坏或掩埋了道路,严重阻碍了救援进程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Preliminary report of the September 5, 2022 MS 6.8 Luding earthquake, Sichuan, China

The 2022 MS 6.8 Luding earthquake is the strongest earthquake in Sichuan Province, Western China, since the 2017 MS 7.0 Jiuzhaigou earthquake. It occurred on the Moxi fault in the southeastern segment of the Xianshuihe fault, a tectonically active and mountainous region with severe secondary earthquake disasters. To better understand the seismogenic mechanism and provide scientific support for future hazard mitigation, we summarize the preliminary results of the Luding earthquake, including seismotectonic background, seismicity and mainshock source characteristics and aftershock properties, and direct and secondary damage associated with the mainshock. The peak ground displacements in the NS and EW directions observed by the nearest GNSS station SCCM are ∼35 mm and ∼55 mm, respectively, resulting in the maximum coseismic dislocation of 20 mm along the NWW direction, which is consistent with the sinistral slip on the Xianshuihe fault. Back-projection of teleseismic P waves suggest that the mainshock rupture propagated toward south-southeast. The seismic intensity of the mainshock estimated from the back-projection results indicates a Mercalli scale of VIII or above near the ruptured area, consistent with the results from instrumental measurements and field surveys. Numerous aftershocks were reported, with the largest being MS 4.5. Aftershock locations (up to September 18, 2022) exhibit 3 clusters spanning an area of 100 km long and 30 km wide. The magnitude and rate of aftershocks decreased as expected, and the depths became shallower with time. The mainshock and two aftershocks show left-lateral strike-slip focal mechanisms. For the aftershock sequence, the b-value from the Gutenberg-Richter frequency-magnitude relationship, h-value, and p-value for Omori’s law for aftershock decay are 0.81, 1.4, and 1.21, respectively, indicating that this is a typical mainshock-aftershock sequence. The low b-value implies high background stress in the hypocenter region. Analysis from remote sensing satellite images and UAV data shows that the distribution of earthquake-triggered landslides was consistent with the aftershock area. Numerous small-size landslides with limited volumes were revealed, which damaged or buried the roads and severely hindered the rescue process.

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