Time-lapse slip variation associated with a medium-size earthquake revealed by &amp;quot;repeating&amp;quot; micro-earthquakes: the 1999 Xiuyan, Liaoning, &amp;lt;i&amp;gt;M&amp;lt;/i&amp;gt;&amp;lt;sub&amp;gt;S&amp;lt;/sub&amp;gt; = 5.4 earthquake

Li, Y. T.; Wu, Zhongliang; Peng, Hanshu; Jiang, Changsheng; Li, G. P.

doi:10.5194/nhess-11-1969-2011

Cited by 7 publications

(2 citation statements)

References 39 publications

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“…Pre-acceleration and immediate-post slip associated to the M 5.4 Xiuyan earthquake were found on the Xiuyan portion by assessing the accumulative slip based on the repeating earthquake magnitudes, indicating the preparation and the relaxation process of the M 5.4 Xiuyan earthquake. In their study, only larger-magnitude repeating earthquakes, that is M ≥ 3.0 in Schaff and Richards (2004) and M L ≥ 1.6 in Li et al (2011), were discovered due to the sparse station coverage.…”

Section: )mentioning

confidence: 96%

“…On the Haichenghe fault, Schaff and Richards (2004) discovered a multiplet in Xiuyan containing 28 repeaters by processing waveforms of about 14000 events from the networks in and surrounding China for 1985 to 2000. Li et al (2011) used seismic data before and after the M 5.4 29 November 1999 Xiuyan earthquake from 15 broadband or short-period stations in Liaoning and identi ed 2 multiplets, each locating at Xiuyan and Yingkou, which is to the SW of Haicheng, respectively. Pre-acceleration and immediate-post slip associated to the M 5.4 Xiuyan earthquake were found on the Xiuyan portion by assessing the accumulative slip based on the repeating earthquake magnitudes, indicating the preparation and the relaxation process of the M 5.4 Xiuyan earthquake.…”

Section: )mentioning

confidence: 99%

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Fault structures of the Haichenghe fault zone in Liaoning, China from high-precision location based on dense array observation

Sun,

Bai,

Wang

et al. 2023

Preprint

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The Haichenghe strike-slip blind fault, which experienced the M 7.3 Haicheng earthquake in 1975, is one of the most active seismic zones in eastern China. To better understand the fault structures, we deployed a dense array of 23 broadband seismic stations in the area in 2022, with an average distance interval of ~ 6 km. Combining the automatic workflow LOC-FLOW with manual review, we detect 1339 events with a completeness of magnitude ~ ML -0.1 using data recorded at the dense array and the Liaoning regional Seismic Network from Oct. 1 to Oct. 31 in 2022. Of these, we relocated 877 earthquakes using Hypoinverse and HypoDD. The relocations finely delineate the NWW-striking Haichenghe fault, including the NW and SE segments, and its NE-trending conjugate fault. They also clearly feature two seismic gaps, one corresponding to the fragmentation zone generated by the M 7.3 Haicheng earthquake and the other being consistent with the low-velocity zone between NW and SE segments. Based on relocations, we further identify 10 clusters of recurrent events with a median magnitude of ML 0.8. We observed a phenomenon that several clusters are occurred right after the ML 3.7 event, the largest event during the observation. We suggest that, as a larger-magnitude earthquake, the ML 3.7 event resulted in the stress change along the fault plane and triggered the small-magnitude repeaters. Our results indicate that dense array observation in the study area could provide an abundant seismological basis for studying the Haichenghe blind fault.

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confidence: 96%

Section: )mentioning

confidence: 99%