Preseismic deformation in the seismogenic zone of the Lushan M S7.0 earthquake detected by GPS observations

Liu, Xiaoxia; Wu, Yanqiang; Jiang, Zhuoran; Wei, Zehong; Li, Qiang; Wei, W.; Zou, Zhenyu

doi:10.1007/s11430-015-5128-0

Cited by 9 publications

(2 citation statements)

References 22 publications

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“…GPS baselines are usually expressed as geodetic lines between two GPS points, which is independent of the reference frame compared to single point timeseries (Dong et al, 2002;Zhan et al, 2011;Liu et al, 2015). Because it can indicate the extension or contraction of the crust between two station sites, the tension, compression, and strike-slip activity of fault zones are often quantitatively studied by analyzing the baseline timeseries orthogonal or oblique to faults (Guo et al, 2009;Wu et al, 2018;Ma et al, 2022).…”

Section: Analysis Of Gps Continuous Observation Datamentioning

confidence: 99%

Study on deformation characteristics and dynamic cause of the Luding MS6.8 earthquake

Yuan,

Zhao,

Huang

et al. 2023

Front. Earth Sci.

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A MS6.8 earthquake struck Luding Country in Ganzi Prefecture, Sichuan Province on 5 September 2022. The earthquake occurred on the Moxi segment of Xianshuihe fault zone (XFZ), one of the most seismically active faults in the Chinese mainland. In this study, multiple periods of the Global Positioning System (GPS) velocity field and continuous observational data are collected to analysis the tectonic deformation and evolution characteristics before the Luding earthquake, from the perspectives of the kinematic behavior of seismogenic fault, the multi-scale strain features around the study region, and the variation of GPS baselines across the epicenter area. Then the following conclusions are obtained: 1) The accelerated compression of baselines SCGZ-SCXJ (Ganzi to Xiaojin in Sichuan province) and SCLH-SCXJ (Luhuo to Xiaojin in Sichuan province) in Bayan Har block indicate that under the influence of the coseismic rupture of Maduo MS7.4 earthquake, the boundary faults decoupled and accelerated the push southward and eastward, leading to the acceleration of strain accumulation and the increase of seismic risk in the divergence area bounded by the southeastern XFZ and the southwestern Longmenshan fault zone (LFZ). 2) Luding earthquake located in the weakened region around the edge of the large strike-slip fault zone with high shear strain rate, and the tensile zone of the strain perpendicular to the fault direction, denoting that the reduction of the normal strain in the locked background is strongly related to fault rupture and earthquake nucleation.

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Section: Analysis Of Gps Continuous Observation Datamentioning

confidence: 99%

Study on deformation characteristics and dynamic cause of the Luding MS6.8 earthquake

Yuan,

Zhao,

Huang

et al. 2023

Front. Earth Sci.

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“…1b). From a tectonic perspective, the Maoxian-Wenchuan Fault, with a high dextral slip rate (1.0-3.8 mm a −1 ; Chen and Li, 2013; X. G. and vertical slip rate (∼ 1-2 mm a −1 ; Liu et al, 2015), mainly controls the grain-size distribution of segment III (Fig. 1).…”

Section: Coarse-grained Deposits Controlled By Tectonismmentioning

confidence: 99%

Response of modern fluvial sediments to regional tectonic activity along the upper Min River, eastern Tibet

Shi

Jiang

et al. 2022

Earth Surf. Dynam.

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Abstract. The deposition of fluvial sediments in tectonically active areas is mainly controlled by tectonics, climate, and associated Earth surface processes; consequently, fluvial sediments can provide a valuable record of changes in regional climate and tectonic activity. In this study, we conducted a detailed analysis of the grain-size distribution in modern fluvial sediments from the upper Min River, eastern Tibet. These data, combined with information on regional climate, vegetation, hydrology, geomorphology, lithology, and fault slip rate, indicate that modern regional tectonic activity along upper Min River can be divided into three segments. Specifically, fluvial sediments in the Minjiangyuan–Diexi segment are dominated by silts (< 63 µm, 70.2 %), agreeing with low runoff, low rainfall, and high vegetation cover and revealing a windblown origin influenced by the arid and windy climate. These observations are consistent with the low hillslope angle and low relief, all indicating weak activity along the Minjiang Fault. The coarse-grained fraction (> 250 µm) of fluvial sediments in the Diexi–Wenchuan and Wenchuan–Dujiangyan segments increases stepwise downstream, although runoff and rainfall do not change significantly. These patterns correlate well with increases in both regional relief and hillslope angles. Together, these observations imply that regional tectonic activity along the Maoxian–Wenchuan Fault becomes more pervasive downstream along the Min River. The occurrence of well-sorted and well-rounded pebbles of fluvial sediments downstream of Dujiangyan must be related to the long-time scouring and sorting by rivers. This study marks the first development of a new research approach that can characterize regional tectonic activity by analysis of grain-size distribution of fluvial sediments collected from tectonically active regions.

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Response of modern fluvial sediments to regional tectonic activity along the Min River in eastern Tibet

Shi

Jiang

et al. 2021

Preprint

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Preseismic deformation in the seismogenic zone of the Lushan M S7.0 earthquake detected by GPS observations

Cited by 9 publications

References 22 publications

Study on deformation characteristics and dynamic cause of the Luding MS6.8 earthquake

Study on deformation characteristics and dynamic cause of the Luding MS6.8 earthquake

Response of modern fluvial sediments to regional tectonic activity along the upper Min River, eastern Tibet

Response of modern fluvial sediments to regional tectonic activity along the Min River in eastern Tibet

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