Cascading rupture of large strike-slip fault bends: Evidence from paleoearthquakes in the Xianshuihe fault zone, Eastern Tibetan Plateau

•We studied paleoearthquakes on the Qianning segment of the Xianshuihe fault zone.•We integrated tectonic geomorphology, trench excavations, and radiocarbon dating.•Activity migrates from the Yalahe Fault to the Selaha Fault and the Zheduotang Fault.•Multiple pieces of evidence prove the short-cutti...

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Bibliographic Details
Published inJournal of Asian earth sciences Vol. 273; p. 106255
Main Authors Ma, Jun, Li, Zhengfang, Wang, Mingming, Zhou, Bengang, Ha, Guanghao, Motagh, Mahdi
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2024
Subjects
Deep structure
Fault activity
Paleoearthquake
Restraining bend
Short-cutting
Xianshuihe fault zone
Xianshuihe fault zone
Fault activity
Paleoearthquake
Short-cutting
Deep structure
Restraining bend
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Summary:•We studied paleoearthquakes on the Qianning segment of the Xianshuihe fault zone.•We integrated tectonic geomorphology, trench excavations, and radiocarbon dating.•Activity migrates from the Yalahe Fault to the Selaha Fault and the Zheduotang Fault.•Multiple pieces of evidence prove the short-cutting process within the Xianshuihe fault zone. The restraining and releasing bend region, encompassing the South Qianning, Kangding, and North Moxi segments, occupies a distinctive position within the Xianshuihe fault zone and plays a pivotal role in the analysis of seismic hazards. Our study focused on paleoearthquake research on the Qianning segment of the Xianshuihe fault zone through the integration of tectonic geomorphology, trench excavations, and radiocarbon dating methodologies. Three events, designated as ET1-ET3, have been found, occurring at 635–519, 823–672, and 3515–1482 yr B.P., respectively. A chronological framework for earthquake events has been established since the Holocene. The coefficient of variation (CoV) (0.75 reveals a weakly periodic recurrence model governing the activity of the Qianning segment. Moreover, both the Qianning and Kangding segments exhibit heightened susceptibility to cascading ruptures within the context of a single earthquake. The integration of shallow and deep data reveals a noteworthy transformation in the fault structure, transitioning from a solitary deep structure within the Qianning segment to a flower structure in the Kangding segment. This structural evolution is attributed to the migration of activity from the Yalahe Fault to the Selaha Fault and Zheduotang Fault, resulting in the short-cutting process within the Xianshuihe Fault Zone.
ISSN:1367-9120
DOI:10.1016/j.jseaes.2024.106255