Characteristic Slip of Strong Earthquakes Along the Yishu Fault Zone in East China Evidenced by Offset Landforms

Jiang, Wenliang; Zhang, Jingfa; Han, Zhongyuan; Tian, Tian; Jiao, Qisong; Wang, Xin; Jiang, Hongbo

doi:10.1002/2016tc004363

Cited by 28 publications

(40 citation statements)

References 37 publications

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“…In order to study the rupture characteristics and patterns there, we excavated two trenches, analyzed the latest offset characteristics of the fault, and collected radiocarbon samples on the latest faulted strata to constrain the timing of the latest event. We identified linear offset markers by visual interpretation of topographic morphology in the digital elevation models (DEMs) and color in the images (Guo, Han, Dong, et al, 2019; Jiang et al, 2017). The offset markers mainly include streams, terrace risers, and alluvial fan edges, which are all cut by the fault trace.…”

Section: Methodsmentioning

confidence: 99%

A New Tectonic Model for the 1927M8.0 Gulang Earthquake on the NE Tibetan Plateau

et al. 2020

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The rupture patterns of large earthquakes in transpressional systems can provide important information for understanding oblique motion and strain partitioning between tectonic blocks. The 1927 M8.0 Gulang earthquake occurred on the transpressional boundary between the Tibetan and Gobi-Alashan blocks. Our results, combined with those of previous studies show that the Lenglongling fault (LLLF) and Southern Wuwei Basin fault (SWBF) have both ruptured during the Gulang earthquake, but they exhibited different motions. An~120-km-long surface rupture zone formed along the LLLF, with a left-lateral strike-slip motion and a coseismic horizontal offset of~2.4-7.5 m. Bending, bifurcation, and change of the slip sense occurs at both ends of the fault. An~42-km-long rupture zone formed along the SWBF, with a coseismic vertical offset of~0.6-2.8 m. Thus, the Gulang earthquake is a complex rupture event where strike-slip and thrust faults ruptured simultaneously. Analysis of deep and shallow structures and three-dimensional finite-element modeling reveal that the north dipping LLLF and the SWBF may converge downward to a low-angle décollement, accommodating the strike-slip and thrust motions during the earthquake, respectively. This pattern of deformation partitioning is similar to some other earthquakes where oblique block convergence is generally partitioned into strike-slip motion on steeply dipping faults and vertical motion on gently dipping faults. Our study also suggests that the strain partitioning pattern in the NE Tibetan Plateau may be controlled by changes of the regional principal compressive stress directions and fault geometry at depth. However, the length of the rupture zone on the HSF is not consistent with the magnitude of the earthquake and damage distribution (Figure 1; Gu, 1983). Ai et al. (2017) mapped the Southern Wuwei Basin fault ©2020. American Geophysical Union. All Rights Reserved.

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Section: Methodsmentioning

confidence: 99%

A New Tectonic Model for the 1927M8.0 Gulang Earthquake on the NE Tibetan Plateau

et al. 2020

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“…至今存在异议, 主要有4种观点: (1) 北起莒县, 经临沂至江苏宿迁, 长约230 km [8,36,37] ; (2) 从莒南左山至新沂何庄, 长约120 km, 或至宿迁北长约160 km [6,38] ;…”

Section: 年安丘7级地震和1668年郯城8½级地震(图1) 但因历史记载不详对于1668年郯城地震的地表破裂范围unclassified

Evidence of long recurrence times and low slip rate along the 1668 Tancheng earthquake fault

Li¹,

Xu²,

Wei³

et al. 2019

Chin. Sci. Bull.

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“…Given its estimated ~130 km rupture length, its magnitude can be nowhere near the commonly quoted 8.5, as also pointed out by Jiang et al (2017). A slip of up to ~8 m has been inferred from limited paleoseismic studies with large uncertainties (Huang, 1993; Jiang et al, 2017). If we assume that the earthquake occurred 7 τ M ago ( τ M = 50 years) with average slip S o = 5 m and L = 5 D ( D = 15 km), we can predict deformation due to this event as seen today.…”

Section: Three‐dimensional Effectsmentioning

confidence: 57%

Effects of Earthquake Recurrence on Localization of Interseismic Deformation Around Locked Strike‐Slip Faults

Zhu

Wang

2020

JGR Solid Earth

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Localized geodetic deformation of arctan shape around locked strike‐slip faults is widely reported, but there are also important exceptions showing distributed deformation. Understanding the controlling mechanism is important to hazard assessment and geodynamic analysis. Here we use simple finite element viscoelastic earthquake cycle models to investigate the basic mechanics of this process. Our models feature a vertical strike‐slip fault in an elastic layer overlying a viscoelastic substrate of Maxwell or Burgers rheology, with or without a low‐viscosity shear zone representing deeper extension of the fault. We demonstrate that the primary control on the localization of interseismic deformation is the recurrence interval of past earthquakes. Given viscosity, shorter recurrence leads to greater localization, regardless of the rheological model used. The presence of a low‐viscosity deep fault does not change this conclusion, although it tends to lessen localization by promoting faster postseismic stress relaxation. Distributed deformation, although less reported, is a natural consequence of very long recurrence and in theory should be as common as localized deformation. We think that the apparent propensity of the latter is likely associated with the much greater quantity and better quality of geodetic observations from higher‐rate and shorter‐recurrence faults. Our results also show the important role of nearby earthquakes along the same fault. For faults of relatively short recurrence, frequent ruptures of nearby segments, modeled using a migrating rupture sequence, further enhance localization. For faults of very long recurrence, faster near‐fault deformation induced by a recent earthquake may give a false impression of localized interseismic deformation.

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Characteristic Slip of Strong Earthquakes Along the Yishu Fault Zone in East China Evidenced by Offset Landforms

Cited by 28 publications

References 37 publications

A New Tectonic Model for the 1927M8.0 Gulang Earthquake on the NE Tibetan Plateau

A New Tectonic Model for the 1927M8.0 Gulang Earthquake on the NE Tibetan Plateau

Evidence of long recurrence times and low slip rate along the 1668 Tancheng earthquake fault

Effects of Earthquake Recurrence on Localization of Interseismic Deformation Around Locked Strike‐Slip Faults

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