2022
DOI: 10.1029/2021gc010216
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Block Kinematics in North China From GPS Measurements

Abstract: North China, commonly known as the North China Craton (NCC), is an important tectonic element in eastern China (R. Zhu et al., 2011Zhu et al., , 2012. This region is characterized by complex tectonic setting, intense seismic activity and dense population (Deng et al., 2003). Unlike the Tibetan Plateau situated in western China, where numerous active faults exhibit fast motions and significant deformation, the faults in the NCC generally have slow motions (Deng et al., 2002). However, numerous strong earthquake… Show more

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Cited by 5 publications
(6 citation statements)
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References 56 publications
(221 reference statements)
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“…The resulting block model predicts right‐lateral slip along the NNE‐ and NE‐trending boundary faults between the Ordos, Taihangshan, and Haihe Plain blocks (Figure 7d), which agrees with the geological observations (e.g., Jing et al., 2016; X. Xu & Ma, 1992; X. W. Xu et al., 1993; Y. R. Xu et al., 2018; Yu et al., 2021), geodetic measurements (e.g., Hao et al., 2021; W. Wang et al., 2022; Y. G. Zhang et al., 2018; B. Zhao et al., 2017), and focal mechanisms (e.g., B. Li et al., 2015; P. E. Li et al., 2018; Y. C. Li et al., 2015; Seismological Bureau of Hebei Province, 1986). Owing to the inclusion of secondary active faults in contrast to oversimplifying them into a single straight line in the previous studies (Hao et al., 2021; Huang et al., 2018; W. Wang et al., 2022; Y. G. Zhang et al., 2018), it allows us to better predict the fault kinematics and investigate the details of strain partitioning in this area. Our results show that active faults at the eastern margin of the Weihe Graben slip right‐laterally, opposite to the left‐lateral faults at its northwestern margin (Figure 7d).…”
Section: Discussionsupporting
confidence: 88%
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“…The resulting block model predicts right‐lateral slip along the NNE‐ and NE‐trending boundary faults between the Ordos, Taihangshan, and Haihe Plain blocks (Figure 7d), which agrees with the geological observations (e.g., Jing et al., 2016; X. Xu & Ma, 1992; X. W. Xu et al., 1993; Y. R. Xu et al., 2018; Yu et al., 2021), geodetic measurements (e.g., Hao et al., 2021; W. Wang et al., 2022; Y. G. Zhang et al., 2018; B. Zhao et al., 2017), and focal mechanisms (e.g., B. Li et al., 2015; P. E. Li et al., 2018; Y. C. Li et al., 2015; Seismological Bureau of Hebei Province, 1986). Owing to the inclusion of secondary active faults in contrast to oversimplifying them into a single straight line in the previous studies (Hao et al., 2021; Huang et al., 2018; W. Wang et al., 2022; Y. G. Zhang et al., 2018), it allows us to better predict the fault kinematics and investigate the details of strain partitioning in this area. Our results show that active faults at the eastern margin of the Weihe Graben slip right‐laterally, opposite to the left‐lateral faults at its northwestern margin (Figure 7d).…”
Section: Discussionsupporting
confidence: 88%
“…Xu & Ma, 1992; X. W. Xu et al, 1993;Y. R. Xu et al, 2018;Yu et al, 2021), geodetic measurements (e.g., Hao et al, 2021;W. Wang et al, 2022;Y.…”
Section: Right-lateral Shear Along the Nne-and Ne-trending Boundary F...mentioning
confidence: 99%
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