利用大地测量和远震资料快速报道2022年6月1日中国庐山5.9级地震

Lei Xie , Nan Fang , Xiaoge Liu , Wenbin Xu
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引用次数: 1

摘要

及时响应地震特征,有利于地震应急救援和进一步的科学调查。2022年6月1日,龙门山断裂带南部地区发生5.9级地震。该事件也发生在大邑地震间隙的南端,是自1970年6.2级地震以来该地震间隙发生的最大地震。受地震波形约束的滑移分布模型表明了逆冲断裂机制。主滑动发生在~14的深度​km,累积能量在前6​s.主震引起的库仑应力变化表明,大邑地震间隙西南部地区发生了正变化,表明未来可能发生地震。此外,我们强调了快速估计变形对近场危险划定的重要性,特别是当干涉雷达无法对高起伏地形中的同震变形进行成像时。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rapid report of June 1, 2022 MW 5.9 Lushan earthquake, China with geodetic and teleseismic data

Timely response to earthquake characterization can facilitate earthquake emergency rescue and further scientific investigations. On June 1, 2022, MW 5.9 earthquake occurred in the southern area of the Longmenshan fault zone. This event also happened at the south end of the Dayi seismic gap and is the largest earthquake that has occurred in this seismic gap since the 1970 M 6.2 event. The slip-distribution model constrained by the seismic waveforms suggests a thrust-dominated faulting mechanism. The main slip occurs at a depth of ∼14 ​km, and the cumulative energy is released in the first 6 ​s. The variations of Coulomb stress caused by the mainshock show a positive change in the southwest area of the Dayi seismic gap, indicating possible activation of future earthquakes. In addition, we emphasize the importance of rapid estimation of deformation for near-field hazard delineation, especially when interferometric radar fails to image coseismic deformation in a high relief terrain.

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