The Qiman Tagh Orogen as a window to the crustal evolution in northern Qinghai-Tibet Plateau
The Qiman Tagh Orogenic Belt (QTOB), located along the northern part of the Qinghai-Tibet plateau, was constructed through protracted accretion and collision of a collage of terranes during subduction and closure of the Qiman Tagh Ocean, a branch of Paleo-Tethys Ocean from the Neoproterozoic to Earl...
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EARTH-SCIENCE REVIEWS
2017
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| Online Access: | https://hdl.handle.net/20.500.11897/474233 https://doi.org/10.1016/j.earscirev.2017.02.008 |
| _version_ | 1821740645043142656 |
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| author | Yu, M. Feng, C. Y. Santosh, M. Mao, J. W. Zhu, Y. F. Zhao, Y. M. Li, D. X. Li, B. |
| author2 | Feng, CY (reprint author), CAGS, Inst Mineral Resources, MLR Key Lab Metallogeny & Mineral Assessment, Beijing 100037, Peoples R China. CAGS, Inst Mineral Resources, MLR Key Lab Metallogeny & Mineral Assessment, Beijing 100037, Peoples R China. Peking Univ, Sch Earth & Space Sci, Beijing 100871, Peoples R China. China Univ Geosci, Sch Earth Sci & Resources, 29 Xueyuan Rd, Beijing 100083, Peoples R China. Univ Adelaide, Ctr Tecton Explorat & Res, Adelaide, SA 5005, Australia. Northwest Univ Xian, Dept Geol, Northern Taibai Str 229, Xian 710069, Peoples R China. Cent S Univ, Sch Geosci & Infophys, Key Lab Metallogen Predict Nonferrous Met & Geol, Minist Educ, Changsha 410083, Peoples R China. |
| author_facet | Yu, M. Feng, C. Y. Santosh, M. Mao, J. W. Zhu, Y. F. Zhao, Y. M. Li, D. X. Li, B. |
| author_sort | Yu, M. |
| collection | Peking University Institutional Repository (PKU IR) |
| container_start_page | 103 |
| container_title | Earth-Science Reviews |
| container_volume | 167 |
| description | The Qiman Tagh Orogenic Belt (QTOB), located along the northern part of the Qinghai-Tibet plateau, was constructed through protracted accretion and collision of a collage of terranes during subduction and closure of the Qiman Tagh Ocean, a branch of Paleo-Tethys Ocean from the Neoproterozoic to Early Mesozoic. The orogen is located between the Qaidam Basin and Kumukuri Basin, and cut by the Altun Fault to the west. The early Neoproterozoic (ca. 1000-820 Ma) ages from this orogen suggest a link with the formation of the supercontinent Rodinia. The QTOB is tectonically divided into the North Qiman Tagh Terrane (NQT) and the South Qiman Tagh Terrane (SQT). The NQT developed as an active continental margin, and preserves abundant Early Paleozoic granitoids, which possibly formed through the melting of old basement, and a series of mafic-ultramafic rocks considered as VA (volcanic arc) type ophiolites. In contrast, the SQT witnessed intra-oceanic subduction, where SSZ (supra-subduction zone) type ophiolites are documented together with island arc tholeiite (IAT) and calcalkaline lavas, in a primary oceanic island arc environment during the Early Paleozoic. With continued subduction, the young island arc was transformed into a mature island arc with thickened crust. This region preserves typical evidence for sedimentation and volcanism in the initial stages of volcanic arc development. The collision between the SQT and NQT occurred probably in the Late Silurian (ca. 422 Ma) and continued until ca. 398 Ma, as evidenced from the ages of the abundant within-plate granitic magmatism in the NQT that formed after 398 Ma. In the SQT, voluminous oceanic island arc granitoids formed during the Early-Middle Devonian (ca. 418-389 Ma), with contrasting geochemical features as to those in the NQT. The SQT is interpreted as an exotic terrane that has been incorporated into the continental margin and contributed significantly to the continental growth in this orogenic belt. A trench jam might explain the large gap (ca. 357-251 Ma) of granitoid magmatism. The final closure of the Paleo Tethyan Qiman Tagh Ocean might have occurred in the Late Permian, and resulted in the accretion of the Kumukuri microcontinent; which formed in response to the orocline formation of western Qiman Tagh Orogen and the rotation of the western South Qiman Tagh Terranes. A series of Y-depleted granitoids formed during Early-Middle Triassic (before 237 Ma), which might be associated to the partial melting of thickened lower crust induced by the oceanic lithosphere delamination. Subsequently, a series of calc-alkaline and alkaline granitoids generated through melting of older crustal material which were emplaced in the SQT, and their formation is interpreted to be linked with the transition from post-collision to within-plate settings. Our model is not only suitable to trace the tectonic evolution of the Qiman Tagh orogen, but also valid for the plate tectonic setting orogens in the modern earth. (C) 2017 Elsevier B.V. All rights reserved. National Natural Science Foundation of China [41172076]; Program of High-level Geological Talents of the China Geological Survey [201309]; Youth Geological Talents of the China Geological Survey [201112]; Geological Survey Program from the China Geological Survey [1212011085528]; Scientific Research Fund of the Non-Commercial Unit from Ministry of Land and Resources, China [201411025] SCI(E) REVIEW 103-123 167 |
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| op_doi | https://doi.org/20.500.11897/474233 https://doi.org/10.1016/j.earscirev.2017.02.008 |
| op_relation | EARTH-SCIENCE REVIEWS.2017,167,103-123. 1908580 0012-8252 http://hdl.handle.net/20.500.11897/474233 1872-6828 doi:10.1016/j.earscirev.2017.02.008 WOS:000400211000007 |
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| spelling | ftpekinguniv:oai:localhost:20.500.11897/474233 2025-01-17T01:20:09+00:00 The Qiman Tagh Orogen as a window to the crustal evolution in northern Qinghai-Tibet Plateau Yu, M. Feng, C. Y. Santosh, M. Mao, J. W. Zhu, Y. F. Zhao, Y. M. Li, D. X. Li, B. Feng, CY (reprint author), CAGS, Inst Mineral Resources, MLR Key Lab Metallogeny & Mineral Assessment, Beijing 100037, Peoples R China. CAGS, Inst Mineral Resources, MLR Key Lab Metallogeny & Mineral Assessment, Beijing 100037, Peoples R China. Peking Univ, Sch Earth & Space Sci, Beijing 100871, Peoples R China. China Univ Geosci, Sch Earth Sci & Resources, 29 Xueyuan Rd, Beijing 100083, Peoples R China. Univ Adelaide, Ctr Tecton Explorat & Res, Adelaide, SA 5005, Australia. Northwest Univ Xian, Dept Geol, Northern Taibai Str 229, Xian 710069, Peoples R China. Cent S Univ, Sch Geosci & Infophys, Key Lab Metallogen Predict Nonferrous Met & Geol, Minist Educ, Changsha 410083, Peoples R China. 2017 https://hdl.handle.net/20.500.11897/474233 https://doi.org/10.1016/j.earscirev.2017.02.008 en eng EARTH-SCIENCE REVIEWS EARTH-SCIENCE REVIEWS.2017,167,103-123. 1908580 0012-8252 http://hdl.handle.net/20.500.11897/474233 1872-6828 doi:10.1016/j.earscirev.2017.02.008 WOS:000400211000007 SCI East Kunlun Qiman Tagh Orogen Tectonic-magmatic evolution Arc-continent collision Continental growth Orocline EAST KUNLUN MOUNTAINS U-PB AGE HF ISOTOPIC COMPOSITIONS LATE TRIASSIC GRANITOIDS ZIRCON U ISLAND-ARC TECTONIC IMPLICATIONS GEOLOGICAL SIGNIFICANCE CONTINENTAL-CRUST VOLCANIC-ROCKS Journal 2017 ftpekinguniv https://doi.org/20.500.11897/474233 https://doi.org/10.1016/j.earscirev.2017.02.008 2021-08-01T11:13:35Z The Qiman Tagh Orogenic Belt (QTOB), located along the northern part of the Qinghai-Tibet plateau, was constructed through protracted accretion and collision of a collage of terranes during subduction and closure of the Qiman Tagh Ocean, a branch of Paleo-Tethys Ocean from the Neoproterozoic to Early Mesozoic. The orogen is located between the Qaidam Basin and Kumukuri Basin, and cut by the Altun Fault to the west. The early Neoproterozoic (ca. 1000-820 Ma) ages from this orogen suggest a link with the formation of the supercontinent Rodinia. The QTOB is tectonically divided into the North Qiman Tagh Terrane (NQT) and the South Qiman Tagh Terrane (SQT). The NQT developed as an active continental margin, and preserves abundant Early Paleozoic granitoids, which possibly formed through the melting of old basement, and a series of mafic-ultramafic rocks considered as VA (volcanic arc) type ophiolites. In contrast, the SQT witnessed intra-oceanic subduction, where SSZ (supra-subduction zone) type ophiolites are documented together with island arc tholeiite (IAT) and calcalkaline lavas, in a primary oceanic island arc environment during the Early Paleozoic. With continued subduction, the young island arc was transformed into a mature island arc with thickened crust. This region preserves typical evidence for sedimentation and volcanism in the initial stages of volcanic arc development. The collision between the SQT and NQT occurred probably in the Late Silurian (ca. 422 Ma) and continued until ca. 398 Ma, as evidenced from the ages of the abundant within-plate granitic magmatism in the NQT that formed after 398 Ma. In the SQT, voluminous oceanic island arc granitoids formed during the Early-Middle Devonian (ca. 418-389 Ma), with contrasting geochemical features as to those in the NQT. The SQT is interpreted as an exotic terrane that has been incorporated into the continental margin and contributed significantly to the continental growth in this orogenic belt. A trench jam might explain the large gap (ca. 357-251 Ma) of granitoid magmatism. The final closure of the Paleo Tethyan Qiman Tagh Ocean might have occurred in the Late Permian, and resulted in the accretion of the Kumukuri microcontinent; which formed in response to the orocline formation of western Qiman Tagh Orogen and the rotation of the western South Qiman Tagh Terranes. A series of Y-depleted granitoids formed during Early-Middle Triassic (before 237 Ma), which might be associated to the partial melting of thickened lower crust induced by the oceanic lithosphere delamination. Subsequently, a series of calc-alkaline and alkaline granitoids generated through melting of older crustal material which were emplaced in the SQT, and their formation is interpreted to be linked with the transition from post-collision to within-plate settings. Our model is not only suitable to trace the tectonic evolution of the Qiman Tagh orogen, but also valid for the plate tectonic setting orogens in the modern earth. (C) 2017 Elsevier B.V. All rights reserved. National Natural Science Foundation of China [41172076]; Program of High-level Geological Talents of the China Geological Survey [201309]; Youth Geological Talents of the China Geological Survey [201112]; Geological Survey Program from the China Geological Survey [1212011085528]; Scientific Research Fund of the Non-Commercial Unit from Ministry of Land and Resources, China [201411025] SCI(E) REVIEW 103-123 167 Journal/Newspaper Young Island Peking University Institutional Repository (PKU IR) Young Island ENVELOPE(162.400,162.400,-66.417,-66.417) Altun ENVELOPE(18.422,18.422,68.919,68.919) Earth-Science Reviews 167 103 123 |
| spellingShingle | East Kunlun Qiman Tagh Orogen Tectonic-magmatic evolution Arc-continent collision Continental growth Orocline EAST KUNLUN MOUNTAINS U-PB AGE HF ISOTOPIC COMPOSITIONS LATE TRIASSIC GRANITOIDS ZIRCON U ISLAND-ARC TECTONIC IMPLICATIONS GEOLOGICAL SIGNIFICANCE CONTINENTAL-CRUST VOLCANIC-ROCKS Yu, M. Feng, C. Y. Santosh, M. Mao, J. W. Zhu, Y. F. Zhao, Y. M. Li, D. X. Li, B. The Qiman Tagh Orogen as a window to the crustal evolution in northern Qinghai-Tibet Plateau |
| title | The Qiman Tagh Orogen as a window to the crustal evolution in northern Qinghai-Tibet Plateau |
| title_full | The Qiman Tagh Orogen as a window to the crustal evolution in northern Qinghai-Tibet Plateau |
| title_fullStr | The Qiman Tagh Orogen as a window to the crustal evolution in northern Qinghai-Tibet Plateau |
| title_full_unstemmed | The Qiman Tagh Orogen as a window to the crustal evolution in northern Qinghai-Tibet Plateau |
| title_short | The Qiman Tagh Orogen as a window to the crustal evolution in northern Qinghai-Tibet Plateau |
| title_sort | qiman tagh orogen as a window to the crustal evolution in northern qinghai-tibet plateau |
| topic | East Kunlun Qiman Tagh Orogen Tectonic-magmatic evolution Arc-continent collision Continental growth Orocline EAST KUNLUN MOUNTAINS U-PB AGE HF ISOTOPIC COMPOSITIONS LATE TRIASSIC GRANITOIDS ZIRCON U ISLAND-ARC TECTONIC IMPLICATIONS GEOLOGICAL SIGNIFICANCE CONTINENTAL-CRUST VOLCANIC-ROCKS |
| topic_facet | East Kunlun Qiman Tagh Orogen Tectonic-magmatic evolution Arc-continent collision Continental growth Orocline EAST KUNLUN MOUNTAINS U-PB AGE HF ISOTOPIC COMPOSITIONS LATE TRIASSIC GRANITOIDS ZIRCON U ISLAND-ARC TECTONIC IMPLICATIONS GEOLOGICAL SIGNIFICANCE CONTINENTAL-CRUST VOLCANIC-ROCKS |
| url | https://hdl.handle.net/20.500.11897/474233 https://doi.org/10.1016/j.earscirev.2017.02.008 |