Late Silurian to Late Triassic seamount/oceanic plateau series accretion in Jinshajiang subduction mélange, Central Tibet, SW China

Liu, Yin; Xiao, Wenjiao; Windley, Brian F.; Schulmann, Karel; Li, Rongshe; Ji, Wenhua; Zhou, Kefa; Sang, Miao; Chen, Yi-Chao; Jia, Xilai; Li, Liang

doi:10.1002/gj.3432

Cited by 10 publications

(6 citation statements)

References 86 publications

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“…Firstly, 439.3 ± 3.5 Ma continental flood basalts have been identified from the Jinshajiang suture zone on the western margin of the Yangtze plate, which are associated with an early continental rifting episode (Jian et al, 2009a;. Secondly, a ~422 ± 6.1 Ma mafic rock block with OIB characteristics, from the Jinshajiang suture zone, was interpreted to have formed in a tectonic setting that was undergoing a subduction accretion (Liu et al, 2019). This suggests that the Jinshajiang paleo-Tethys was most likely produced in a back-arc basin, which was the result of the subduction of the Proto-Tethys ocean (Wang et al, 2012).…”

Section: Partial Melting Of Mantle Peridotitementioning

confidence: 99%

“…Tethys, also known as the Tethys Sea or Tethys Ocean, was proposed in 1893 by the Austrian geologist Eduard Suess (Sengör, 1984), as a vast Mesozoic paleo-ocean that separated the Gondwana continent in the south, from the Angolan paleo-continent in the north. Much research has been devoted to geological studies of the East Tethys tectonic belt, mainly on the Tibetan Plateau, due to the importance of this extensive tectonic belt for understanding past plate reconstructions and geodynamics (Reid et al, 2005;Yan et al, 2005;Jian et al, 2008;Hu et al, 2009;Jian et al, 2009a;Roger et al, 2010;Wang et al, 2012;Zi et al, 2012;Hu et al, 2013;Hu et al, 2014;Wang et al, 2016a;Li et al, 2017;Zhao et al, 2017;Zhao et al, 2018;Liu et al, 2019;Xu et al, 2021). Based on a multidisciplinary dataset, four Tethyan ocean basins have been recognised in Asia (Metcalfe, 2021), the Proto-Tethys (Sinian-Silurian), Paleo-Tethys (Middle Devonian-Late Triassic), Meso-Tethys (Middle Permian-Late Cretaceous) and the Ceno-Tethys (Late Middle Triassic-Eocene).…”

Section: Introductionmentioning

confidence: 99%

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Geochronology and petrogenesis of the early Silurian Zeluo mafic-ultramafic intrusion, eastern Tibet: implications for the tectonic setting and evolution of the eastern Proto-Tethys Ocean

Zhou

Fru

et al. 2022

International Geology Review

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Text: The Tibetan Plateau is a key region to understand the evolution of the Tethys Oceans. To better constrain the tectonic evolution of the Proto-Tethys Ocean on the western margin of the Yangtze plate, we present an integrated petrography, geochemistry, and zircon U-Pb-Lu-Hf isotope study on newly recognized early Silurian gabbro and serpentinite rocks from the eastern Yidun terrane of the Tibetan Plateau.Zircon U-Pb dating of the gabbro yields an Early Silurian age of 438.2 ± 2.8 Ma. Zircon εHf(t) values of 5.4 to 8.5 suggest a single-stage model age (TDM1) ranging from 729 to 858 Ma. The gabbros exhibit low total rare earth element abundances but are moderately enriched in the light rare earth elements and the large-ion lithophile elements (e.g., Rb, Ba, and Sr), and display representative negative high-field strength elemental anomalies for Nb, Ta, Zr, and Hf on spidergrams. The gabbro and serpentinites were derived from a depleted mantle-like source made of garnet-spinel lherzolite composition, from a sub-arc mantle wedge that was metasomatized by slab dehydration. Thus, the gabbro and serpentinites record an Early Silurian subduction event of the Proto-Tethys Ocean under the Yangtze plate. Furthermore, this study confirms that the Yidun terrane on the western margin of the Yangtze plate is underlined by a Precambrian crystalline basement.

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Section: Partial Melting Of Mantle Peridotitementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Geochronology and petrogenesis of the early Silurian Zeluo mafic-ultramafic intrusion, eastern Tibet: implications for the tectonic setting and evolution of the eastern Proto-Tethys Ocean

Zhou

Fru

et al. 2022

International Geology Review

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“…Y. Liu et al () present four well‐constrained U–Pb zircon ages (422.4, 336.4, 272.3, and 255.8 Ma) of mafic blocks in the Jinshajiang Suture in the Central Tibetan Plateau. Based on the oceanic island basalt (OIB) affinity of these mafic rocks, they suggested a long‐lived accretionary process accompanied with seamounts/oceanic plateau along the Jinshajiang Suture, which provides robust new evidence for subduction‐related continental growth in the central Tibetan Plateau.…”

Section: Tectonics Of Western Chinamentioning

confidence: 99%

Preface: Tectonics of China

Liu

Xiao

et al. 2019

Geological Journal

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“…In the recent years, several studies have focused on acquiring precise ages and geochemical data on the pre‐Cenozoic magmatic rocks that line the Western Jinsha suture between the North Qiangtang and Songpan‐Ganze terranes (Chen et al., 2005; Gu et al., 2013; Jin, 2006; G.‐M. Li et al., 2015; J. Li et al., 2012; B. Liu, Ma, Guo, Sun, et al., 2016; B. Liu, Ma, Guo, Xiong, et al., 2016; Y. Liu et al., 2010, 2014, 2021; Y. Liu, Tan, et al., 2019; Y. Liu, Xiao, et al., 2019; Tan et al., 2020; B. Z. Wang et al., 2008; Yang et al., 2012; Yong et al., 2011; H. Zhang et al., 2017; Zhao, Fu, et al., 2015; Zhao, Tan, et al., 2015).…”

Section: Introductionmentioning

confidence: 99%

Polarity and Timing of the Deformation Along the Jinsha Suture Zone (Yushu Area, Northeastern Tibet)

Goussin,

Guillot,

Ruffet

et al. 2023

Tectonics

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The Tibetan Plateau was formed by intense Cenozoic shortening (up to 1,100 km) of a composite “proto‐Tibet,” itself the product of a long Paleozoic and Mesozoic history of accretion of Gondwana‐derived continental fragments and volcanic arcs against the Asian continental margin. The difficult access and the scarcity of outcrops have long limited the possibilities of studying these Mesozoic suture zones in the heart of the Plateau. In this work, we present new U‐Pb and 40Ar/39Ar ages from the highly deformed units of the Yushu mélange, along the Jinsha Suture in the northeastern Qiangtang terrane. Early Triassic (c. 253 Ma) to Middle Jurassic ages (c. 165 Ma) complement the existing data set and help to refine the chronology of the Paleo‐Tethyan oceanic subductions which have structured the northeastern part of the Qiangtang terrane. The Yushu mélange records at least three successive tectono‐magmatic events. The opening of a back‐arc basin during the northward Paleo‐Tethyan subduction along the Longmu Co‐Shuanghu Suture during Early to Middle Triassic; then its closure during the southward subduction of the Songpan‐Ganze Ocean along the Jinsha Suture in Late Triassic. Finally, a shortening phase related to the continental collision of the Songpan‐Ganze and Qiangtang blocks from Late Triassic to Early‐Middle Jurassic. No evidence for any high‐ or mid‐temperature Cenozoic reactivation of the Jinsha suture in our study area is recorded.

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Late Silurian to Late Triassic seamount/oceanic plateau series accretion in Jinshajiang subduction mélange, Central Tibet, SW China

Cited by 10 publications

References 86 publications

Geochronology and petrogenesis of the early Silurian Zeluo mafic-ultramafic intrusion, eastern Tibet: implications for the tectonic setting and evolution of the eastern Proto-Tethys Ocean

Geochronology and petrogenesis of the early Silurian Zeluo mafic-ultramafic intrusion, eastern Tibet: implications for the tectonic setting and evolution of the eastern Proto-Tethys Ocean

Preface: Tectonics of China

Polarity and Timing of the Deformation Along the Jinsha Suture Zone (Yushu Area, Northeastern Tibet)

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