Bangong-Nujiang Neo-Tethyan Ocean (Central Tibet): Geodynamics, crustal evolution, metallogeny, and linkages to the “Yanshan Movement”

Hao, Lu-Lu, Hu, Wan-Long, Wang, Qiang, Kerr, Andrew C. ORCID: https://orcid.org/0000-0001-5569-4730, Dan, Wei, Zhang, Xiu-Zheng, Yang, Zong-Yong and Sun, Peng 2025. Bangong-Nujiang Neo-Tethyan Ocean (Central Tibet): Geodynamics, crustal evolution, metallogeny, and linkages to the “Yanshan Movement”. Earth-Science Reviews 265 , 105119. 10.1016/j.earscirev.2025.105119 Item availability restricted.

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Abstract

The Bangong-Nujiang suture zone (BNSZ) is located in the central Tibetan Plateau and represents the remnants of the Permian-Cretaceous Bangong-Nujiang Neo-Tethyan ocean (BNTO). Reconstructing the BNTO's evolution is crucial for understanding the accretionary history of the constituent blocks of the Tibetan Plateau prior to Cenozoic India-Asia collision. This paper reviews Mesozoic magmatism in the southern Qiangtang block (SQB) (north of the BNSZ) and beyond, as well as ophiolites and oceanic plateau material within the BNSZ, to assess the BNTO's evolution from its opening to closure. Combined with the ∼285 Ma southern Qiangtang-Panjal large igneous province, ∼278 Ma embryonic oceanic crust, and stratigraphy and biotas, we suggest that the BNTO opened during the Early Permian. This opening was the result of the rifting of East Cimmerian continental fragments from Gondwana's northern margin. After the Lhasa block separated from Gondwana, the BNTO was located between SQB to the north and the Lhasa block to the south. The widespread arc-related magmatic rocks in SQB indicate that the BNTO was subducted northwards. The initial subduction of the BNTO likely occurred during the Late Triassic, as strongly evidenced by the Mugagangri Group accretionary wedge. An integrated study of stratigraphy and magmatism suggests that the BNTO probably underwent a diachronous closure: the middle segment may have closed in the Early Cretaceous (133–120 Ma) while the western segment may have closed in the Albian (113–105 Ma). The intra-oceanic subduction and oceanic-continental subduction likely occurred during Early Jurassic. Then the widespread subduction-related ophiolites indicate that a late Early Jurassic (∼177 Ma) collisional orogeny occurred between the oceanic plateau and southern Qiangtang, resulting in intra-oceanic subduction. However, the oceanic plateaus in the BNTO have two contrasting fates: they were either accreted to SQB in the middle segment to clog the oceanic-continental subduction zone, or were subducted beneath SQB in the western segment to induce the 177–169 Ma flat-slab subduction. The 169–145 Ma magmatism and 145–125 Ma magmatic gap in western SQB can be explained by the second subduction of the oceanic plateau or/and ridge subduction. The <125 Ma renewed magmatism may be the result of slab rollback and breakoff.

Item Type:	Article
Date Type:	Publication
Status:	Published
Schools:	Schools > Earth and Environmental Sciences
Publisher:	Elsevier
ISSN:	0012-8252
Date of First Compliant Deposit:	7 April 2025
Date of Acceptance:	26 March 2025
Last Modified:	14 Apr 2025 11:30
URI:	https://orca.cardiff.ac.uk/id/eprint/177437

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