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Gugu La Fault

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Simplified map indicating the location of the Northern Lhasaplano, together with the estimated N-S tectonic shortening (Murphy et al., 1997; Kapp et al., 2003, 2007a, 2007b; Volkmer et al., 2007, 2014) and the age of Late Cretaceous adakitic magmatism in central-northern Lhasa (Sun et al., 2015a and references therein). K1—Early Cretaceous; K2—Late Cretaceous; P—Paleogene; SGAT—Shiquanhe-Gaize-Amdo thrust belt; ET—Emei La thrust; ST—Shibaluo thrust; GLT—Gugu La thrust; GST—Gaize-Siling Co thrust; SNMZ—Shiquanhe-Nam Co Mélange zone; LMF—Luobadui-Milashan Fault.

Simplified map indicating the location of the Northern Lhasaplano, together... Available to Purchase

Published: 10 April 2019
Lhasa ( Sun et al., 2015a and references therein). K1—Early Cretaceous; K2—Late Cretaceous; P—Paleogene; SGAT—Shiquanhe-Gaize-Amdo thrust belt; ET—Emei La thrust; ST—Shibaluo thrust; GLT—Gugu La thrust; GST—Gaize-Siling Co thrust; SNMZ—Shiquanhe-Nam Co Mélange zone; LMF—Luobadui-Milashan Fault.
Journal Article

Initial growth of the Northern Lhasaplano, Tibetan Plateau in the early Late Cretaceous (ca. 92 Ma) Available to Purchase

Wen Lai, Xiumian Hu, Eduardo Garzanti, Gaoyuan Sun, Carmala N. Garzione, Marcelle BouDagher Fadel, Anlin Ma
Journal: GSA Bulletin
Published: 10 April 2019
GSA Bulletin (2019) 131 (11-12): 1823–1836.
DOI: https://doi.org/10.1130/B35124.1
... Lhasa ( Sun et al., 2015a and references therein). K1—Early Cretaceous; K2—Late Cretaceous; P—Paleogene; SGAT—Shiquanhe-Gaize-Amdo thrust belt; ET—Emei La thrust; ST—Shibaluo thrust; GLT—Gugu La thrust; GST—Gaize-Siling Co thrust; SNMZ—Shiquanhe-Nam Co Mélange zone; LMF—Luobadui-Milashan Fault. ...
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View PDF for article title, Initial growth of the Northern Lhasaplano, Tibetan Plateau in the early Late Cretaceous (ca. 92 Ma)
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(A) Tectonic map of the Tibetan Plateau (modified after Zhu et al., 2011b and Wang et al., 2014). (B) Sketch geological map of the Lhasa block (modified after Pan et al., 2004 and Kapp et al., 2003). Previously studied sites of the Daxiong Formation in the Coqen basin (Sun et al., 2015a) and of the Jingzhushan Formation near Rutog (Li et al., 2014a) are shown. JSSZ—Jinsha suture zone; SNMZ—Shiquan River-Nam Co Mélange zone; LMF—Luobadui-Milashan Fault; SGAT—Shiquanhe-Gaize-Amdo thrust; GST—Gaize-Siling Co thrust; GLT—Gugu La thrust; ST—Shibaluo thrust; ET—Emei La thrust; MCT—Main Central thrust; MBT—Main Boundary thrust; THFT—Tethyan Himalaya fold-thrust belt; GCT—Great counter thrust; IYSZ—Indus-Yarlung Zangbo Suture zone; BNSZ—Bangong-Nujiang suture zone; GT—Gangdese thrust.

(A) Tectonic map of the Tibetan Plateau (modified after Zhu et al., 2011b ... Available to Purchase

Published: 10 April 2019
al., 2015a ) and of the Jingzhushan Formation near Rutog ( Li et al., 2014a ) are shown. JSSZ—Jinsha suture zone; SNMZ—Shiquan River-Nam Co Mélange zone; LMF—Luobadui-Milashan Fault; SGAT—Shiquanhe-Gaize-Amdo thrust; GST—Gaize-Siling Co thrust; GLT—Gugu La thrust; ST—Shibaluo thrust; ET—Emei La
Journal Article

Late Cretaceous evolution of the Coqen Basin (Lhasa terrane) and implications for early topographic growth on the Tibetan Plateau Available to Purchase

Gaoyuan Sun, Xiumian Hu, Hugh D. Sinclair, Marcelle K. BouDagher-Fadel, Jiangang Wang
Journal: GSA Bulletin
Published: 01 July 2015
GSA Bulletin (2015) 127 (7-8): 1001–1020.
DOI: https://doi.org/10.1130/B31137.1
... by oppositely vergent thrust belts: the north-dipping Gugu La thrust and south-dipping Gaize–Selin Co thrust ( Fig. 1B ; Murphy et al., 1997 ; Kapp et al., 2007a ). The Gugu La thrust placed the Lower Cretaceous Zelong volcanic rocks over the Upper Cretaceous Daxiong Formation and included south-vergent fault...
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View PDF for article title, Late Cretaceous evolution of the Coqen Basin (Lhasa terrane) and implications for early topographic growth on the Tibetan Plateau
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(A) Simplified tectonic map of the Himalaya and Tibet showing major tectonic domains and suture zones (Pan et al., 2004).BNSZ—Bangong–Nujiang suture zone; IYZS—Indus–Yarlung–Zangbo suture; JSSZ—Jinshajiang suture zone; LMF—Luobadui–Milashan fault; JF—Jiali fault; KLF—Kunlun fault; KF—Karakoram fault; ALT—Altyn Tagh fault. (B) Simplified geological map of the Lhasa terrane, showing the studied sections (modified after Pan et al., 2004). GST—Gaize-Selin Co thrust; SGAT—Shiquan–Gaize–Amdo thrust; GLT—Gugu La thrust; ST—Shibaluo thrust; ET—Emei La thrust. Stratigraphic data from northern sections from Xu et al., (2020). (C) Cretaceous strata in the Northern Lhasa terrane. (D) Conformable contact between the Duoni and Langshan formations in the Geren Co area (GPS: 31°20′47.80″N; 88°11′36.81″E). (E) More close observation on conformable contact between the Duoni and Langshan formations in the Geren Co area. (F) Langshan Formation in the Geji section (GPS: 32°27′41.545″N; 80°54′56.108″E). (G) Langshan Formation in the Baoji section (GPS: 30°57′54.85″N; 90°19′33.83″E). (H) Langshan Formation in the Xiongmei section (GPS: 31°19′9.09″N; 88°51′22.38″E). Dip direction and dip angle of members 1, 2, and 3 are 200°/52°, 195°/55° and 195°/50°, respectively.

(A) Simplified tectonic map of the Himalaya and Tibet showing major tectoni... Available to Purchase

Published: 11 May 2021
—Karakoram fault; ALT—Altyn Tagh fault. (B) Simplified geological map of the Lhasa terrane, showing the studied sections (modified after Pan et al., 2004 ). GST—Gaize-Selin Co thrust; SGAT—Shiquan–Gaize–Amdo thrust; GLT—Gugu La thrust; ST—Shibaluo thrust; ET—Emei La thrust. Stratigraphic data from northern
Image
(A) Tectonic framework of the Tibetan Plateau (adapted from Kapp et al., 2005; Zhu et al., 2016; Zhu et al., 2013) showing the distribution of Cretaceous terrestrial strata and localities of collected U-Pb ages. JSSZ—Jinsha Suture Zone; LSSZ—Longmu Tso-Shuanghu Suture Zone; BNSZ—Bangong-Nujiang Suture Zone; SNMZ—Shiquan River-Nam Tso Mélange Zone; LMF—Luobadui-Milashan Fault; IYZSZ—Indus-Yarlung Zangbo Suture Zone; STDS—South Tibetan Detachment System; TZB—Tangza Basin; CQB—Coqen Basin; NMB—Nima Basin; XFB—Xigaze Forearc Basin; SCB—Selin Co Basin; BGB—Baingoin Basin; LZB—Linzhou Basin; SGAT—Shiquanhe-Gaize-Amdo thrust system; GLT—Gugu La thrust. (B) Geological map of the Geji area showing the sections studied. (C–E) Satellite image from Google Earth of the measured sections. (F) Schematic diagram showing spatial relationship of measured sections from this study and previous studies (Ye et al., 2019).

(A) Tectonic framework of the Tibetan Plateau (adapted from Kapp et al., 2... Available to Purchase

Published: 30 October 2020
Basin; SGAT—Shiquanhe-Gaize-Amdo thrust system; GLT—Gugu La thrust. (B) Geological map of the Geji area showing the sections studied. (C–E) Satellite image from Google Earth of the measured sections. (F) Schematic diagram showing spatial relationship of measured sections from this study and previous
Journal Article

Early Cretaceous stratigraphy, depositional environments, sandstone provenance, and tectonic setting of central Tibet, western China Available to Purchase

Kai-Jun Zhang, Bang-Dong Xia, Guan-Min Wang, Yong-Tie Li, He-Fei Ye
Journal: GSA Bulletin
Published: 01 September 2004
GSA Bulletin (2004) 116 (9-10): 1202–1222.
DOI: https://doi.org/10.1130/B25388.1
... of a peripheral foreland basin during continuing convergence along the Bangong-Nujiang suture between the Qiangtang and Lhasa blocks throughout the Cretaceous. They documented the Gugu La, Shibaluo, and Emei La thrust systems from the north to the south and proposed that these three thrust systems were active...
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View PDF for article title, Early Cretaceous stratigraphy, depositional environments, sandstone provenance, and tectonic setting of central Tibet, western China
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Journal Article

The middle Cretaceous (110–94 Ma) evolution of Tangza Basin in the western Tibetan Plateau and implications for initial topographic growth of northern Lhasa Available to Purchase

Xu Han, Jin-Gen Dai, Jie Lin, Shi-Ying Xu, Bo-Rong Liu, Ya-Nan Wang, Cheng-Shan Wang
Journal: GSA Bulletin
Published: 30 October 2020
GSA Bulletin (2021) 133 (5-6): 1283–1300.
DOI: https://doi.org/10.1130/B35708.1
... Basin; SGAT—Shiquanhe-Gaize-Amdo thrust system; GLT—Gugu La thrust. (B) Geological map of the Geji area showing the sections studied. (C–E) Satellite image from Google Earth of the measured sections. (F) Schematic diagram showing spatial relationship of measured sections from this study and previous...
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View PDF for article title, The middle Cretaceous (110–94 Ma) evolution of Tangza Basin in the western Tibetan Plateau and implications for initial topographic growth of northern Lhasa
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Journal Article

Foraminiferal Biostratigraphy and Palaeoenvironmental Analysis of the Mid-cretaceous Limestones in the Southern Tibetan Plateau Available to Purchase

Marcelle K. BouDagher-Fadel, Xiumian Hu, G. David Price, Gaoyuan Sun, Jian-Gang Wang, Wei An
Published: 01 April 2017
Journal of Foraminiferal Research (2017) 47 (2): 188–207.
DOI: https://doi.org/10.2113/gsjfr.47.2.188
...—Bangong-Nujiang suture zone; IYSZ—Indus-Yarlung suture zone. B Simplified geological map of the Lhasa terrane modified from Kapp et al. (2005) . SGAT—Shiquan-Gaize-Amdo thrust; GST—Gaize–Selin Co thrust; GLT—Gugu La thrust; ST—Shibaluo thrust; ELT—Emei La thrust; GT—Gangdese thrust system; GCT—Great...
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View PDF for article title, Foraminiferal Biostratigraphy and Palaeoenvironmental Analysis of the Mid-cretaceous Limestones in the Southern Tibetan Plateau
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Journal Article

Mid-Cretaceous thick carbonate accumulation in Northern Lhasa (Tibet): eustatic vs. tectonic control? Available to Purchase

Yiwei Xu, Xiumian Hu, Eduardo Garzanti, Marcelle BouDagher-Fadel, Gaoyuan Sun, Wen Lai, Shijie Zhang
Journal: GSA Bulletin
Published: 11 May 2021
GSA Bulletin (2022) 134 (1-2): 389–404.
DOI: https://doi.org/10.1130/B35930.1
...—Karakoram fault; ALT—Altyn Tagh fault. (B) Simplified geological map of the Lhasa terrane, showing the studied sections (modified after Pan et al., 2004 ). GST—Gaize-Selin Co thrust; SGAT—Shiquan–Gaize–Amdo thrust; GLT—Gugu La thrust; ST—Shibaluo thrust; ET—Emei La thrust. Stratigraphic data from northern...
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View PDF for article title, Mid-Cretaceous thick carbonate accumulation in Northern Lhasa (Tibet): eustatic vs. tectonic control?
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Book Chapter

The major Late Albian transgressive event recorded in the epeiric platform of the Langshan Formation in central Tibet Available to Purchase

Author(s)
Yiwei Xu, Xiumian Hu, Marcelle K. BouDagher-Fadel, Gaoyuan Sun, Wen Lai, Juan Li, Shijie Zhang
Book: Cretaceous Climate Events and Short-Term Sea-Level Changes
Series: Geological Society, London, Special Publications
Publisher: Geological Society of London
Published: 14 April 2020
DOI: 10.1144/SP498-2019-8
EISBN: 9781786204806
.... 2004 ). GST, Gaize-Selin Co thrust; SGAT, Shiquan–Gaize–Amdo thrust; GLT, Gugu La thrust; ST, Shibaluo thrust; ET, Emei La thrust. The localities of the Guolong and Xiagezi sections are from BouDagher-Fadel et al. (2017) . The Lhasa terrane, a part of the Tibet Plateau, lies between the Indus...
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Abstract
View PDF for content titled, The major Late Albian transgressive event recorded in the epeiric platform of the Langshan Formation in central Tibet
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Abstract Global sea-level changes strongly impact within-basin depositional patterns and the evolution of palaeoclimate, palaeogeography and palaeoecology. During the long, worldwide ice-free period in the mid-Cretaceous greenhouse time interval, high-frequency global sea-level changes were recorded in sedimentary archives. However, the causes of these global sea-level changes are still debated. In central Tibet, the 1 km-thick Langshan Formation has been dated to the late Aptian to early Cenomanian based on larger benthic foraminifera and accumulated in an epeiric seaway, thus, it provides a good opportunity to reconstruct the sea-level change and their controlling factors. Eleven distinct microfacies corresponding to three sedimentary environments have been identified in the Langshan Formation. Calcispheres marlstone and bioclastic wackestone with calcispheres were deposited in an open marine environment; coral rudstone, rudist rudstone and benthic foraminifera–rudist wackestone characterize were deposited in a rudist bank environment; and orbitolinids floatstone–rudstone, green algae packstone, bioclastic grainstone, orbitolinids wackestone with small benthic foraminifera, spicules wackestone and small benthic foraminifera wackestone–mudstone were deposited in a lagoonal environment. The Langshan Formation accumulated on an epeiric platform. This unit documents a sudden deepening event from a rudist bank to an open marine environment during the late Albian ( c. 107 Ma). Integrating these findings with regional data from the literature, we infer that this deepening event was a widespread, roughly synchronous feature across the globe, and was controlled by a global sea-level rise related to the decay of polar ice sheets or the release of water from continental aquifers.