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Litang fault zone
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Image
Figure 7. Generalized tectonic map of the Litang fault zone. See Figure 2 ...
in Late Cenozoic to Holocene deformation in southwestern Sichuan and adjacent Yunnan, China, and its role in formation of the southeastern part of the Tibetan Plateau
> GSA Bulletin
Published: 01 March 2000
Figure 7. Generalized tectonic map of the Litang fault zone. See Figure 2 for location. Dashed line shows the interpreted original orientation of the Yidun and Songpan-Ganzi boundary. CZ—Cazhong fault; JW—Jawa fault; ML—Mula fault.
Journal Article
Late Cenozoic to Holocene deformation in southwestern Sichuan and adjacent Yunnan, China, and its role in formation of the southeastern part of the Tibetan Plateau
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 01 March 2000
GSA Bulletin (2000) 112 (3): 413–423.
...Figure 7. Generalized tectonic map of the Litang fault zone. See Figure 2 for location. Dashed line shows the interpreted original orientation of the Yidun and Songpan-Ganzi boundary. CZ—Cazhong fault; JW—Jawa fault; ML—Mula fault. ...
Image
Figure 10. Interpretation of the evolution of Ganzi, Xianshuihe, and Litang...
in Late Cenozoic to Holocene deformation in southwestern Sichuan and adjacent Yunnan, China, and its role in formation of the southeastern part of the Tibetan Plateau
> GSA Bulletin
Published: 01 March 2000
Figure 10. Interpretation of the evolution of Ganzi, Xianshuihe, and Litang fault zones showing the clockwise rotation of crust south of each fault zone and the absorption of some displacement on the fault zones by shortening within restraining bends.
Journal Article
Rupture Behavior of the Litang Fault within the Sichuan-Yunnan Active Block, Southeastern Tibetan Plateau
Shuaipo Gao, Lichun Chen, Yanbao Li, Hu Wang, Mingming Han, Jiahui Feng, Lili Lu, Sanxi Peng, Chao Jin, Langtao Liu
Journal: Lithosphere
Publisher: GSW
Published: 09 July 2022
Lithosphere (2021) 2021 (Special 2): 8773676.
... to the Xianshuihe Fault Zone in the northeast (Figure 1 (b)). The LTF hosted an M7.3 earthquake in 1948, one of the few large earthquakes within the active tectonic block [ 1 , 2 ]. Here, we choose the intrablock Litang Fault to define its rupture behavior, which may provide strong geological evidence...
Journal Article
Deposit morphology of Luanshibao Landslide in Tibetan Plateau
Publisher: Geological Society of London
Published: 30 November 2017
Quarterly Journal of Engineering Geology and Hydrogeology (2018) 51 (1): 13–16.
... , X.W. , Wen , X.Z. , Yu , G.H. , Zheng , R. , Luo , H. & Zheng , B. 2005 . Average slip rate, earthquake rupturing segmentation and recurrence behavior on the Litang Fault zone, western Sichuan Province, China . Science in China Series D, Earth Science , 48 , 1183 – 1196 . ...
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Spatial distribution of tectonics, hot springs, and strong events. The yell...
in Catalog Replenishment Based on Statistical Method for Strong Earthquakes in the Triple Junction Area, Eastern Tibet
> Seismological Research Letters
Published: 30 December 2024
Figure 1. Spatial distribution of tectonics, hot springs, and strong events. The yellow stars are mainshocks in this study, colored solid circles are hot springs, and fault zone slip rate is marked in red ( Shen et al. , 2005 ). The blue lines represent the triple junction area. ANHF, Anninghe
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(a) Relative position of the Litang dump site and Lajichang Trench. (b) Pho...
in Rupture Behavior of the Litang Fault within the Sichuan-Yunnan Active Block, Southeastern Tibetan Plateau
> Lithosphere
Published: 09 July 2022
that the ancient ground (U1b) was bent by the fault and covered by sediments (U2) after the earthquake, which is the main evidence of LJCE1. (c) Fault trace and the ancient turf (layer U1b) faulted in 1948. (d) Sketch of zone D in Figure 7 (c) shows the relative depth of the EPS white trash and ancient turf.
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Figure 2. Generalized tectonic map of southwestern Sichuan showing the geol...
in Late Cenozoic to Holocene deformation in southwestern Sichuan and adjacent Yunnan, China, and its role in formation of the southeastern part of the Tibetan Plateau
> GSA Bulletin
Published: 01 March 2000
Figure 2. Generalized tectonic map of southwestern Sichuan showing the geological setting of the Xianshuihe, Ganzi, Litang, Batang (BF) and Chenzhi (CF) fault zones. Major tectonic units of southwestern Sichuan are the Zhongza (I), Yidun (II), and Songpan-Ganzi (III) units. Earthquakes
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Tectonic map of the Tibetan Plateau and its surrounding areas, showing the ...
in Albian–Cenomanian granitoid magmatism in Eastern and Central Tibet as a result of diachronous, continental collision induced slab tear propagation
> GSA Bulletin
Published: 07 July 2022
Figure 1. Tectonic map of the Tibetan Plateau and its surrounding areas, showing the major terranes with bounding suture zones, major fault systems, the Gangdese magmatic arc in the Southern Lhasa Terrane, and elevation distribution (in meters) across the plateau (modified after Yin and Harrison
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Epicenter distribution maps of strong earthquakes in the Sichuan–Yunnan rho...
in Analysis of the Reoccurrence Patterns of Earthquakes in the Sichuan–Yunnan Area (Southeastern Tibetan Plateau), Southwest China
> Seismological Research Letters
Published: 25 August 2021
) Map shows geometric structures of Xianshuihe fault zone with labeled seven segments or branches. Main faults of the Sichuan–Yunnan rhombus block: ANH–ZMHF, Anninghe–Zemuhe fault; BT & JSJF, Batang fault & Jinshajiang fault; CHF, Chenghai fault; DLSF, Daliangshan fault; DQ–ZDF, Deqin–Zhongdian
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Topography map of southwest China with the main tectonic features and major...
in The Community Velocity Model V.1.0 of Southwest China, Constructed from Joint Body‐ and Surface‐Wave Travel‐Time Tomography
> Seismological Research Letters
Published: 21 April 2021
, Youjiang block; YZC, Yangtze craton. Thick solid black lines show major faults. ANHF, Anninghe fault; BTF, Batang fault; GZF, Ganzi fault; LTF, Litang fault; LXJF, Lijiang‐Xiaojinhe fault; LZJF, Lüzhijiang fault; RRF, Red River fault; XJF, Xiaojiang fault; XSHF, Xianshuihe fault; ZDF, Zhongdian fault; ZMHF
Journal Article
Resolving Quaternary Tectonic Activity with High-Resolution Data in Space and Time
Journal: Lithosphere
Publisher: GSW
Published: 31 December 2022
Lithosphere (2022) 2022 (1): 9823275.
... Zone, Eastern China Lithosphere 2021 2021 Special 2, article 6691692 10.2113/2021/6691692 Gao S. P. Chen L. C. Li Y. B. Wang H. Han M. M. Feng J. H. Lu L. L. Peng S. X. Jin C. Liu L. T. Rupture Behavior of the Litang Fault within the Sichuan-Yunnan...
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(A) Simplified geological map of the Central Tibetan Plateau, showing the m...
in Albian–Cenomanian granitoid magmatism in Eastern and Central Tibet as a result of diachronous, continental collision induced slab tear propagation
> GSA Bulletin
Published: 07 July 2022
Figure 2. (A) Simplified geological map of the Central Tibetan Plateau, showing the main geological features of the Qiangtang and Lhasa terranes, particularly the suture zones, ophiolites, Albian–Cenomanian granitoid plutons, and major faults. Numbers in the ellipses refer to zircon
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(A) Topographic and geological map of the study area. The inset represents ...
in Distinguishing tectonic versus climatic forcing on landscape evolution: An example from SE Tibetan Plateau
> GSA Bulletin
Published: 05 June 2020
. (2018) ; [9] = Wang et al. (2020) . HFT—Himalayan Frontal Thrust; ISZ—Indus Suture Zone; BSZ—Bangong Suture Zone; JSZ—Jinsha Suture Zone; LSZ—Litang Suture Zone; KSZ—Kunlun Suture Zone; LB—Lhasa Block; QB—Qiangtang Block; SGB—Songpan-Ganze Block; ANF—Anninghe Fault; ASRRSZ—Ailao Shan-Red River shear
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Seismotectonic setting and distribution map of the Jianshui fault in the so...
in Latest Quaternary Active Faulting and Paleoearthquakes on the Southern Segment of the Xiaojiang Fault Zone, SE Tibetan Plateau
> Lithosphere
Published: 10 February 2021
Figure 1 Seismotectonic setting and distribution map of the Jianshui fault in the southern segment of the Xiaojiang fault zone. (a) Main active faults and large earthquakes with magnitudes of ≥7.0 in the study area. Fault locations and slip senses are simplified from Xu et al. [ 21 ]. Red lines
Journal Article
Characteristics of Radiogenic Heat Production of Widely Distributed Granitoids in Western Sichuan, Southeast Tibetan Plateau
Chao Zhang, Qingda Feng, Linyou Zhang, Song Qin, Guangzheng Jiang, Jie Hu, Shengbiao Hu, Ronghua Huang, Haozhu Zhang
Journal: Lithosphere
Publisher: GSW
Published: 29 November 2022
Lithosphere (2022) 2022 (1): 4165618.
...–Yunnan fault form a “Y”-shaped tectonic area [ 23 ]. One of the most obvious features of the study area is that the geothermal activity is primarily distributed along the active fault zones (Figure 2 ), thus forming the Batang–Xiangcheng geothermal belt, Garze–Litang geothermal belt, and the Luhuo...
Journal Article
Multiple sources and magmatic evolution of the Late Triassic Daocheng batholith in the Yidun Terrane: Implications for evolution of the Paleo-Tethys Ocean in the eastern Tibetan Plateau
Pengsheng Dong, Guochen Dong, M. Santosh, Xuanxue Mo, Peng Wang, Huawei Li, Jiahui Tang, Lin Su, Zhuanrong Sun, Yanick Blaise Ketchaya
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 27 October 2021
GSA Bulletin (2022) 134 (7-8): 1660–1680.
... ). (2) The low geothermal gradient and the N-MORB nature of the high-pressure metamorphic garnet amphibolites in the Garzê-Litang fault zone indicate a subduction-related setting during the Triassic to Early Jurassic (236–195 Ma; Li et al., 2018 ). (3) The deformation of the Middle to Late Triassic...
Journal Article
Two-phase subduction and subsequent collision defines the Paleotethyan tectonics of the southeastern Tibetan Plateau: Evidence from zircon U-Pb dating, geochemistry, and structural geology of the Sanjiang orogenic belt, southwest China
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 01 November 2014
GSA Bulletin (2014) 126 (11-12): 1654–1682.
... and then uplifting of the subducted Garzê–Litang flysch gave rise to the Qiangtang metamorphic belt, as these rocks are exposed in the footwalls of low-angle normal faults ( Kapp et al., 2001 ). In contrast, numerous other studies have suggested that the Permian–Triassic Qiangtang metamorphic belt and volcanic rocks...
Journal Article
Denudational response to surface uplift in east Tibet: Evidence from apatite fission-track thermochronology
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 01 September 2011
GSA Bulletin (2011) 123 (9-10): 1966–1987.
... fans, and based on an assumed age of these features, a Holocene slip rate of 5 mm/yr has been estimated ( Tang et al., 1993 ). On the southern side of the Litang fault zone, there are three en echelon Quaternary basins that are associated with hydrothermal activity and suggest active north-south...
Journal Article
Imaging the Late Triassic lithospheric architecture of the Yidun Terrane, eastern Tibetan Plateau: Observations and interpretations
Qiong-Yao Zhan, Di-Cheng Zhu, Qing Wang, Peter A. Cawood, Jin-Cheng Xie, Xiang Liu, Shi-Min Li, Liang-Liang Zhang, Zhi-Dan Zhao
Journal: GSA Bulletin
Publisher: Geological Society of America
Published: 25 February 2021
GSA Bulletin (2021) 133 (11-12): 2279–2290.
...). The Tibetan Plateau is a complex collage of multi-terranes separated by suture zones (e.g., Yin and Harrison, 2000 ; Kapp and DeCelles, 2019). Among the terranes, the Yidun Terrane is located in the eastern Tibetan Plateau ( Fig. 1A ). It is separated from the SGFB to the east by the Ganzi-Litang suture zone...
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