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Journal Article

The 2020 M w 6.0 Jiashi Earthquake: Coinvolvement of Thin‐Skinned Thrusting and Basement Shortening in Shaping the Keping‐Tage Fold‐and‐Thrust Belt in Southwestern Tian Shan Available to Purchase

Yuqing He, Teng Wang, Lihua Fang, Li Zhao
Published: 15 December 2021
Seismological Research Letters (2022) 93 (2A): 680–692.
DOI: https://doi.org/10.1785/0220210063
...Yuqing He; Teng Wang; Lihua Fang; Li Zhao Abstract The Keping‐tage fold‐and‐thrust belt in southwest Tian Shan is seismically active, yet the most well‐recorded earthquakes occurred south of the mountain front. The lack of large earthquakes beneath the fold‐and‐thrust belt thus hinders our...
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View PDF for article title, The 2020 M w 6.0 Jiashi Earthquake: Coinvolvement of Thin‐Skinned Thrusting and Basement Shortening in Shaping the <span class="search-highlight">Keping</span>‐Tage Fold‐and‐Thrust <span class="search-highlight">Belt</span> in Southwestern Tian Shan
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Book Chapter

Controls on lateral structural variability along the Keping Shan Thrust Belt, SW Tien Shan Foreland, China Available to Purchase

Author(s)
Jian G. Liu, John W. Cosgrove, Sebastian A. Turner
Book: Hydrocarbons in Contractional Belts
Series: Geological Society, London, Special Publications
Publisher: Geological Society of London
Published: 01 January 2010
DOI: 10.1144/SP348.5
EISBN: 9781862395961
... Abstract Lateral structural variability and partitioning of fold–thrust belts often reflects lateral variations in the stratigraphy of the deforming foreland and interaction with inherited structures. The Keping Shan Thrust Belt, NW China, was initiated during the late Cenozoic...
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Abstract
View PDF for content titled, Controls on lateral structural variability along the <span class="search-highlight">Keping</span> Shan Thrust <span class="search-highlight">Belt</span>, SW Tien Shan Foreland, China
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Abstract Lateral structural variability and partitioning of fold–thrust belts often reflects lateral variations in the stratigraphy of the deforming foreland and interaction with inherited structures. The Keping Shan Thrust Belt, NW China, was initiated during the late Cenozoic and is a spectacular example of contractional deformation in a foreland setting. The belt is characterized by a series of imbricate thrusts which form a broadly arcuate salient and deform the thick (3–6 km) Phanerozoic sedimentary succession of the NW Tarim Basin (SW Tien Shan foreland). Abrupt lateral changes in the thickness of the sedimentary succession are associated with a series of major pre-existing basement faults which cross-cut the belt and which were probably initiated during early Permian times. These lateral variations in the basin template have impacted strongly on the structural architecture of the superimposed thrust belt. Variations in the thickness of the sediment pile affect the spatial distribution of thrusts, which increase in abundance where the sediment is thinnest. The inherited cross-cutting basement faults and the associated abrupt changes in sediment thickness combine to generate partitioning of the thrust belt.

Image
Geologic cross sections of the Keping fold belt and Aozigertawu fold belt interpreted from seismic reflection profile (see Figs. 1a and 2a for location). The depth conversion for the profile assumes a uniform velocity of ∼4000  m/s. The data of the bedding strike and dip are from an unpublished geologic map at a scale of 1:250,000. Topographic profiles (topographic data from the 30 m Shuttle Radar Topography Mission [SRTM] DEM, downloaded from Geospatial Data Cloud) of swaths ∼10  km wide are centered along the seismic reflection profiles. The color version of this figure is available only in the electronic edition.

Geologic cross sections of the Keping fold belt and Aozigertawu fold belt i... Available to Purchase

Published: 09 December 2020
Figure 3. Geologic cross sections of the Keping fold belt and Aozigertawu fold belt interpreted from seismic reflection profile (see Figs.  1a and 2a for location). The depth conversion for the profile assumes a uniform velocity of ∼ 4000    m / s . The data of the bedding strike
Image
Active faults and historic earthquakes in the Keping region. Panel (a) shows the Global Positioning System (GPS) velocities in the Tianshan region and the location of the Keping fold‐and‐thrust belt (KFB) with a red rectangle. Panel (b) shows the location of the Tianshan region in global view with a blue rectangle. Panel (c) shows active faults and historic earthquakes in the Keping region. The red and black curves depict fault surface traces (Deng, 2007). The focal mechanism plots represent the historical locations and focal mechanisms of earthquakes with magnitudes greater than Mw 5.0, and the dots indicate earthquakes with magnitudes exceeding Mw 3.0 that have occurred since 1970 (Dziewonski et al., 1981; Ekström et al., 2012). AYF, Aoyibulanke fault; AZF, Aozgertawu fault; EKPF, East Keping fault; HLD, Halajun depression; KSF, Kekebulanke Sanshan fault; MDF, Maidan fault; PQF, Piqiang fault; PQSF, Piqiang Shan fault; TTF, Tataeltage fault; WKPF, West Keping fault; YMF, Yimugantawu fault. The color version of this figure is available only in the electronic edition.

Active faults and historic earthquakes in the Keping region. Panel (a) show... Available to Purchase

Published: 07 November 2024
Figure 1. Active faults and historic earthquakes in the Keping region. Panel (a) shows the Global Positioning System (GPS) velocities in the Tianshan region and the location of the Keping fold‐and‐thrust belt (KFB) with a red rectangle. Panel (b) shows the location of the Tianshan region
Image
North–south structural cross section of the Keping‐tage fold‐and‐thrust belt. The light‐blue line delineates the detachment fault, and the green line shows the possible basement fault at the margin of the Tarim basin (Lin et al., 2015). The red star marks the epicenter of the 2020 Jiashi earthquake. The dark‐blue lines indicate the thrust faults of the Keping‐tage fold‐and‐thrust belt, including the southern Tian Shan fault (STSF); Aoyibulake thrust fault (AYTF); Kekebuke front thrust fault (KFTF); Yimugantawu thrust fault (YMTF); Ozigertau thrust fault (OZTF); and Keping thrust fault (KPTF). Modified from Allen et al. (1999), Scharer et al. (2004), and Song et al. (2006). The color version of this figure is available only in the electronic edition.

North–south structural cross section of the Keping‐tage fold‐and‐thrust bel... Available to Purchase

Published: 15 December 2021
Figure 2. North–south structural cross section of the Keping‐tage fold‐and‐thrust belt. The light‐blue line delineates the detachment fault, and the green line shows the possible basement fault at the margin of the Tarim basin ( Lin et al. , 2015 ). The red star marks the epicenter of the 2020
Journal Article

Present‐Day Tectonic Activities of Transverse Faults in the Keping Region, Southwest Tianshan Available to Purchase

Qian Guo, Yangmao Wen, Caijun Xu, Xiong Zhao
Published: 07 November 2024
Seismological Research Letters (2025) 96 (3): 1901–1910.
DOI: https://doi.org/10.1785/0220240294
...Figure 1. Active faults and historic earthquakes in the Keping region. Panel (a) shows the Global Positioning System (GPS) velocities in the Tianshan region and the location of the Keping fold‐and‐thrust belt (KFB) with a red rectangle. Panel (b) shows the location of the Tianshan region...
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View PDF for article title, Present‐Day Tectonic Activities of Transverse Faults in the <span class="search-highlight">Keping</span> Region, Southwest Tianshan
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Journal Article

Tectonic-Lithofacies Paleogeography and Sizeable Reservoir Potential in the Early Cambrian Postrift Depressed Carbonate Ramp, Tarim Basin, NW China Open Access

Yongjin Zhu, Jianfeng Zheng, Peng Cao, Zhanfeng Qiao, Guang Yu, LingLi Liu, LiLi Huang
Journal: Lithosphere
Publisher: GSW
Published: 16 October 2021
Lithosphere (2021) 2021 (Special 1): 8804537.
DOI: https://doi.org/10.2113/2021/8804537
...)). For example, midramp high-energy facies belts were mainly composed of grain shoals in the north margin of the Taxi’nan palaeohigh and mound-shoal complexes in the Keping-Wensu area low uplifted zone. At the late stage of sea level fall, extensive grain shoals and mound-shoal complexes outcropped and were...
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View PDF for article title, Tectonic-Lithofacies Paleogeography and Sizeable Reservoir Potential in the Early Cambrian Postrift Depressed Carbonate Ramp, Tarim Basin, NW China
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Figure 1. Sketch map of geologic tectonic units of the Tianshan orogenic belt (showing the distribution of Carboniferous volcanic rocks). WJBS—West Jungar trench-arc-basin system (Paleozoic); EJBS—East Jungar arc-basin system (Paleozoic); BTB—Bole tectonomagmatic belt (late Paleozoic); NTTB—North Tianshan tectonomagmatic belt; HTB—Harlike tectonomagmatic belt (late Paleozoic); BTB—Boluokenu tectonomagmatic belt (early Paleozoic); MGOMB—Mishigou-Gangou ophiolitic mélange belt (early Paleozoic); SWTTB—Southwestern Tianshan tectonomagmatic belt (late Paleozoic); STTB—South Tianshan tectonomagmatic belt (Silurian–late Paleozoic); KTB—Keping tectonomagmatic belt (Sinian–Paleozoic); BR—Baishan rift (Paleozoic).

Figure 1. Sketch map of geologic tectonic units of the Tianshan orogenic be... Available to Purchase

Published: 01 March 2004
belt (Silurian–late Paleozoic); KTB—Keping tectonomagmatic belt (Sinian–Paleozoic); BR—Baishan rift (Paleozoic).
Journal Article

The 2020 M w 6.0 Jiashi Earthquake: A Fold Earthquake Event in the Southern Tian Shan, Northwest China Available to Purchase

Yuan Yao, Shaoyan Wen, Tao Li, Chisheng Wang
Published: 09 December 2020
Seismological Research Letters (2021) 92 (2A): 859–869.
DOI: https://doi.org/10.1785/0220200146
...Figure 3. Geologic cross sections of the Keping fold belt and Aozigertawu fold belt interpreted from seismic reflection profile (see Figs.  1a and 2a for location). The depth conversion for the profile assumes a uniform velocity of ∼ 4000    m / s . The data of the bedding strike...
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View PDF for article title, The 2020 M w 6.0 Jiashi Earthquake: A Fold Earthquake Event in the Southern Tian Shan, Northwest China
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Journal Article

Tracing decarbonated eclogite in the mantle sources of Tarim continental flood basalts using Zn isotopes Available to Purchase

Zhenchao Wang, Zhaochong Zhang, Marc K. Reichow, Wei Tian, Weiliang Kong, Bingxiang Liu
Journal: GSA Bulletin
Published: 14 November 2022
GSA Bulletin (2023) 135 (7-8): 1768–1782.
DOI: https://doi.org/10.1130/B36502.1
... in their mantle sources is highly debated. Zn isotopes have great potential to trace recycled carbonate due to the distinctly different δ 66 Zn values between marine carbonates and the mantle. Representative continental flood basalt samples from Keping (Group1) and Yingmai and Shengli (Group 2) in Tarim, NW China...
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View PDF for article title, Tracing decarbonated eclogite in the mantle sources of Tarim continental flood basalts using Zn isotopes
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Journal Article

Dynamic Modeling of the 2020 M w 6.0 Jiashi Earthquake: Constrained by Geodetic and Seismic Observations Available to Purchase

Duyuan Xu, Zhenguo Zhang, Yunyi Qian, Houyun Yu, Xiaofei Chen
Published: 12 August 2022
Seismological Research Letters (2022) 93 (6): 3278–3290.
DOI: https://doi.org/10.1785/0220220102
... of thin‐skinned thrusting and basement shortening in shaping the Keping‐Tage fold‐and‐thrust belt in southwestern Tian Shan , Seismol. Res. Lett. 93 , 680 – 692 , doi: 10.1785/0220210063 . Hu F. Zhang Y. Xu X. , and Chen X. 2020 . Dynamic rupture simulations...
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View PDF for article title, Dynamic Modeling of the 2020 M w 6.0 Jiashi Earthquake: Constrained by Geodetic and Seismic Observations
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Journal Article

Constraining the duration of the Tarim flood basalts (northwestern China): CA-TIMS zircon U-Pb dating of tuffs Available to Purchase

Yu-Ting Zhong, Zhen-Yu Luo, Roland Mundil, Xun Wei, Hai-Quan Liu, Bin He, Xiao-Long Huang, Wei Tian, Yi-Gang Xu
Journal: GSA Bulletin
Published: 07 May 2021
GSA Bulletin (2022) 134 (1-2): 325–334.
DOI: https://doi.org/10.1130/B36053.1
... interlayered with lava flows in the Kupukuziman and Kaipaizileike formations in the Keping area (Xinjiang, northwest China). The volcanism of the Kupukuziman Formation is constrained to a short duration from 289.77 ± 0.95 to 289.41 ± 0.52 Ma. An age for the overlying Kaipaizileike Formation is 284.27 ± 0.39 Ma...
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View PDF for article title, Constraining the duration of the Tarim flood basalts (northwestern China): CA-TIMS zircon U-Pb dating of tuffs
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Journal Article

Re-evaluating the geochronology of the Permian Tarim magmatic province: implications for temporal evolution of magmatism Available to Purchase

Shimai Shangguan, Ingrid Ukstins Peate, Wei Tian, Yigang Xu
Published: 09 September 2015
Journal of the Geological Society (2016) 173 (1): 228–239.
DOI: https://doi.org/10.1144/jgs2014-114
... of the province (>99%) is covered by the Taklamakan Desert sands and Quaternary sediments ( Fig. 1a ). The main outcrop of flood basalt is located in Keping, which exposes c . 100 km of lateral section ( Fig. 1c ), and a cumulative thickness of c . 400 m. The Keping outcrop consists of two packages...
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View PDF for article title, Re-evaluating the geochronology of the Permian Tarim magmatic province: implications for temporal evolution of magmatism
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Journal Article

Paleoearthquake Characteristics of the Range-Front Maidan Fault in the Southwestern Tianshan Open Access

Xunye Dai, Chuanyong Wu, Na Wang, Xiaohui Yu, Sihua Yuan, Xiangdong Bai, Chengyao Guan, Juan Jing, Kezhi Zang
Journal: Lithosphere
Publisher: GSW
Published: 21 March 2025
Lithosphere (2024) 2024 (Special 15): lithosphere_2024_130.
DOI: https://doi.org/10.2113/2024/lithosphere_2024_130
... belts in keping nappe structure” , Science in China (Series D) , vol. 36 , no. 10 , pp . 905 – 913 , 2006 . 41 L. X. Xu , Y. K. Ran , H. G. Liu , and A. Li , “The stratiform geomorphology and late quaternary reverse fault deformation in the kepingtage piedmont: A case...
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View PDF for article title, Paleoearthquake Characteristics of the Range-Front Maidan Fault in the Southwestern Tianshan
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Journal Article

Intracontinental convergence accommodated by underthrusting of Tarim Basin beneath central Tian Shan, Central Asia: Insights from Cenozoic upper crust deformation across the western Kepingtage fold-and-thrust belt in the northern Tarim Basin Available to Purchase

Jialun Huang, Hanlin Chen, Xiubin Lin, Kaixuan An, Xiaogan Cheng, Yong Li, Xianzhang Yang, Liang Zhang, Cai Chen
Journal: GSA Bulletin
Published: 15 May 2023
GSA Bulletin (2024) 136 (1-2): 295–306.
DOI: https://doi.org/10.1130/B36927.1
... 5.5-7.0) earthquakes in the Jiashi-Keping region, Tian Shan Southwestern Front : Tectonics , v. 40 , https://doi.org/10.1029/2021TC006760 . Lü , L.X. , Sun , J.M. , Jia , Y.Y. , and Wu , L. , 2021b , Late Cenozoic thrust propagation within the Keping fold-and-thrust belt...
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View PDF for article title, Intracontinental convergence accommodated by underthrusting of Tarim Basin beneath central Tian Shan, Central Asia: Insights from Cenozoic upper crust deformation across the western Kepingtage fold-and-thrust <span class="search-highlight">belt</span> in the northern Tarim Basin
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Journal Article

Filling Provenance in Fracture Cavity Formation within Aksu Area, Tarim Basin, NW China: Indicators from Major and Trace Element, Carbon-Oxygen, and Strontium Isotope Compositions Open Access

Qiqiang Ren, Jianwei Feng, Ji Ma, He Du
Journal: Lithosphere
Publisher: GSW
Published: 09 June 2021
Lithosphere (2021) 2021 (Special 1): 5559457.
DOI: https://doi.org/10.2113/2021/5559457
... fractures and cavities were selected, namely, Yijianfang (YJF), Liuhuanggou (LHG), and Xinnengshipianchang (XNSPC), respectively, in the Keping Tectonic Belt, north Tarim Basin (Figures 1 (b) and 1 (c)). Keping, Bachu, and Kepingtage thrust zones consist of main tectonic structures. Through 314 National...
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View PDF for article title, Filling Provenance in Fracture Cavity Formation within Aksu Area, Tarim Basin, NW China: Indicators from Major and Trace Element, Carbon-Oxygen, and Strontium Isotope Compositions
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Image
(a) Satellite image, structures, and historical earthquakes of the Kepingtage fold‐and‐thrust belts. The white line shows the location of the study area (see Fig. 2). Global Positioning System (GPS) velocities are relative to stable Eurasia and are from Gan (2007), Li (2012), and Wang and Shen (2020). Earthquake locations are from the China Earthquake Networks Center seismic catalog for the 1853–2014 period. The purple line is the seismic profile shown in Figure 3. The orange block is Xiker station of strong motion. (b) Peak accelerating records after correction of Xiker station. These data are measured by strong‐motion seismograph. The three figures are peak acceleration in different direction (east–west [EW], north–south [NS], and up–down [UD]). (c) The Kepingtage fold‐and‐thrust belt system (modified from Allen et al., 1999) and the name of thrust corresponds to panel (a). ATS A., Atushi Antiline; AYT, Aoyibulake thrust fault; AZT, Aozigertawu thrust fault; CNC, China Earthquake Networks Center; KBT, Kashi basin thrust fault; KFT, Kekebuke front thrust fault; KPT, Keping thrust fault; NAT, northern Atushi thrust fault; PFT, Piqiangshan front thrust fault; PQF, Piqiang fault; TAT, Tataiertage thrust fault; USGS, U.S. Geological Survey; YMT, Yimugantawu thrust fault. The color version of this figure is available only in the electronic edition.

(a) Satellite image, structures, and historical earthquakes of the Kepingta... Available to Purchase

Published: 09 December 2020
Figure 1. (a) Satellite image, structures, and historical earthquakes of the Kepingtage fold‐and‐thrust belts. The white line shows the location of the study area (see Fig.  2 ). Global Positioning System (GPS) velocities are relative to stable Eurasia and are from Gan (2007) , Li (2012
Journal Article

Buried rift basin under the Kalpin fold-thrust belt in the northwestern Tarim Basin: Implications for deep oil and gas exploration Available to Purchase

Cheng Zhong, Tongsheng Zeng, Chengzao Jia, Guoqi Wei, Dong Jia, Yongjin Zhu, Hongwei Yin, Zhuxin Chen, Xing Wang, Yong Zhang
Journal: AAPG Bulletin
Published: 01 October 2024
AAPG Bulletin (2024) 108 (10): 2009–2043.
DOI: https://doi.org/10.1306/07122422055
... Mw 6.0 Jiashi earthquake: Coinvolvement of thin‐skinned thrusting and basement shortening in shaping the Keping‐Tage fold‐and‐thrust belt in southwestern Tian Shan : Seismological Research Letters , v.  93 , no.  2A , p.  680 – 692 , doi: 10.1785/0220210063 . Hill , K. C. , and A. B...
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View PDF for article title, Buried rift basin under the Kalpin fold-thrust <span class="search-highlight">belt</span> in the northwestern Tarim Basin: Implications for deep oil and gas exploration
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The nature and origins of decametre-scale porosity in Ordovician carbonate rocks, Halahatang oilfield, Tarim Basin, China Open Access

Estibalitz Ukar, Vinyet Baqués, Stephen E. Laubach, Randall Marrett
Published: 02 June 2020
Journal of the Geological Society (2020) 177 (5): 1074–1091.
DOI: https://doi.org/10.1144/jgs2019-156
... dissolution and porous fault rock are widespread in Yijianfang Formation rocks. Evidence from the Keping Uplift outcrops, 100 km SW from producing Yijianfang Formation carbonate rocks in the Halahatang oilfield show that multiple stages of fracture-related dissolution are common in exposed Middle Ordovician...
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View PDF for article title, The nature and origins of decametre-scale porosity in Ordovician carbonate rocks, Halahatang oilfield, Tarim Basin, China
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Journal Article

Impact of diagenesis on the pore evolution and sealing capacity of carbonate cap rocks in the Tarim Basin, China Available to Purchase

Jun Wu, Tailiang Fan, Enrique Gomez-Rivas, Anna Travé, Qian Cao, Zhiqian Gao, Shanshan Wang, Zhihong Kang
Journal: AAPG Bulletin
Published: 01 December 2022
AAPG Bulletin (2022) 106 (12): 2471–2511.
DOI: https://doi.org/10.1306/11082120136
... multistage tectonic episodes during the Caledonian, Hercynian, Indosinian, Yanshanian, and Himalayan Orogenies ( He et al., 2016 ). The studied outcrop sections in the Keping and Bachu Counties are named Penglaiba, Yangjikan, Kepingshuinichang, and Dabantage. They are located in the Keping uplift...
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View PDF for article title, Impact of diagenesis on the pore evolution and sealing capacity of carbonate cap rocks in the Tarim Basin, China
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