Petrogenesis of Early to Middle Jurassic granitoid rocks from the Gangdese belt, Southern Tibet: Implications for early history of the Neo-Tethys

The Gangdese belt, Tibet, records the opening and closure of the Neo-Tethyan ocean and the resultant collision between the Indian and Eurasian plates. Mesozoic magmatic rocks generated through subduction of the Tethyan oceanic slab constitute the main component of the Gangdese belt, and play a cruci...

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Published inLithos Vol. 179; pp. 320 - 333
Main Authors Guo, Lishuang, Liu, Yulin, Liu, Shuwen, Cawood, Peter A., Wang, Zhenghua, Liu, Hongfei
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2013
Subjects
Geochemistry
Jurassic granitoid rocks
Tectonic setting
The Gangdese belt
Zircon U–Pb chronology
Eurasian Plate
China, People's Rep., Xizang
Tethys Sea
Zircon U–Pb chronology
Geochemistry
Tectonic setting
The Gangdese belt
Jurassic granitoid rocks
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Abstract The Gangdese belt, Tibet, records the opening and closure of the Neo-Tethyan ocean and the resultant collision between the Indian and Eurasian plates. Mesozoic magmatic rocks generated through subduction of the Tethyan oceanic slab constitute the main component of the Gangdese belt, and play a crucial role in understanding the formation and evolution of the Neo-Tethyan tectonic realm. U–Pb and Lu–Hf isotopic data for tonalite and granodiorite from the Xietongmen–Nymo segment of the Gangdese belt indicate a significant pulse of Jurassic magmatism from 184Ma to 168Ma. The magmatic rocks belong to metaluminous medium-K calc-alkaline series, characterized by regular variation in major element compositions with SiO2 of 61.35%–73.59%, low to moderate MgO (0.31%–2.59%) with Mg# of 37–45. These magmatic rocks are also characterized by LREE enrichment with concave upward trend in MREE on the chondrite-normalized REE patterns, and also LILE enrichment and depletion in Nb, Ta and Ti in the primitive mantle normalized spidergrams. These rocks have high zircon εHf(t) values of +10.94 to +15.91 and young two-stage depleted mantle model ages (TDM2) of 192Ma to 670Ma. The low MgO contents and relatively depleted Hf isotope compositions suggest that the granitoid rocks were derived from the partial melting of the juvenile basaltic lower crust with minor mantle materials injected. In combination with the published data, it is suggested that northward subduction of the Neo-Tethyan slab beneath the Lhasa terrane began by the Late-Triassic, which formed a major belt of arc-related magmatism. [Display omitted] •Ca. 184–168Ma Jurassic granitoid rocks in the Gangdese belt.•The Jurassic granitoid rocks consist of tonalites and granodiorites.•The rocks were mainly derived from the partial melting of the juvenile lower crust.•Jurassic magmatism evolved at a subduction setting of the Neo-Tethyan at Jurassic.
AbstractList The Gangdese belt, Tibet, records the opening and closure of the Neo-Tethyan ocean and the resultant collision between the Indian and Eurasian plates. Mesozoic magmatic rocks generated through subduction of the Tethyan oceanic slab constitute the main component of the Gangdese belt, and play a crucial role in understanding the formation and evolution of the Neo-Tethyan tectonic realm. U–Pb and Lu–Hf isotopic data for tonalite and granodiorite from the Xietongmen–Nymo segment of the Gangdese belt indicate a significant pulse of Jurassic magmatism from 184Ma to 168Ma. The magmatic rocks belong to metaluminous medium-K calc-alkaline series, characterized by regular variation in major element compositions with SiO2 of 61.35%–73.59%, low to moderate MgO (0.31%–2.59%) with Mg# of 37–45. These magmatic rocks are also characterized by LREE enrichment with concave upward trend in MREE on the chondrite-normalized REE patterns, and also LILE enrichment and depletion in Nb, Ta and Ti in the primitive mantle normalized spidergrams. These rocks have high zircon εHf(t) values of +10.94 to +15.91 and young two-stage depleted mantle model ages (TDM2) of 192Ma to 670Ma. The low MgO contents and relatively depleted Hf isotope compositions suggest that the granitoid rocks were derived from the partial melting of the juvenile basaltic lower crust with minor mantle materials injected. In combination with the published data, it is suggested that northward subduction of the Neo-Tethyan slab beneath the Lhasa terrane began by the Late-Triassic, which formed a major belt of arc-related magmatism. [Display omitted] •Ca. 184–168Ma Jurassic granitoid rocks in the Gangdese belt.•The Jurassic granitoid rocks consist of tonalites and granodiorites.•The rocks were mainly derived from the partial melting of the juvenile lower crust.•Jurassic magmatism evolved at a subduction setting of the Neo-Tethyan at Jurassic.
The Gangdese belt, Tibet, records the opening and closure of the Neo-Tethyan ocean and the resultant collision between the Indian and Eurasian plates. Mesozoic magmatic rocks generated through subduction of the Tethyan oceanic slab constitute the main component of the Gangdese belt, and play a crucial role in understanding the formation and evolution of the Neo-Tethyan tectonic realm. U-Pb and Lu-Hf isotopic data for tonalite and granodiorite from the Xietongmen-Nymo segment of the Gangdese belt indicate a significant pulse of Jurassic magmatism from 184 Ma to 168 Ma. The magmatic rocks belong to metaluminous medium-K calc-alkaline series, characterized by regular variation in major element compositions with SiO2 of 61.35%-73.59%, low to moderate MgO (0.31%-2.59%) with Mg# of 37-45. These magmatic rocks are also characterized by LREE enrichment with concave upward trend in MREE on the chondrite-normalized REE patterns, and also LILE enrichment and depletion in Nb, Ta and Ti in the primitive mantle normalized spidergrams. These rocks have high zircon epsilon Hf(t) values of + 10.94 to + 15.91 and young two-stage depleted mantle model ages (TDM2) of 192 Ma to 670 Ma. The low MgO contents and relatively depleted Hf isotope compositions suggest that the granitoid rocks were derived from the partial melting of the juvenile basaltic lower crust with minor mantle materials injected. In combination with the published data, it is suggested that northward subduction of the Neo-Tethyan slab beneath the Lhasa terrane began by the Late-Triassic, which formed a major belt of arc-related magmatism.
Author Liu, Hongfei
Liu, Yulin
Cawood, Peter A.
Liu, Shuwen
Wang, Zhenghua
Guo, Lishuang
Author_xml – sequence: 1
  givenname: Lishuang
  surname: Guo
  fullname: Guo, Lishuang
  organization: Key Laboratory of Crustal Dynamics, Institute of Crustal Dynamics, CEA, Beijing 100085, China
– sequence: 2
  givenname: Yulin
  surname: Liu
  fullname: Liu, Yulin
  email: ylliu@pku.edu.cn
  organization: Key Laboratory of Orogenic Belts and Crustal Evolution, Ministry of Education, School of Earth and Space Sciences, Peking University, Beijing 100871, China
– sequence: 3
  givenname: Shuwen
  surname: Liu
  fullname: Liu, Shuwen
  organization: Key Laboratory of Orogenic Belts and Crustal Evolution, Ministry of Education, School of Earth and Space Sciences, Peking University, Beijing 100871, China
– sequence: 4
  givenname: Peter A.
  surname: Cawood
  fullname: Cawood, Peter A.
  organization: Department of Earth Sciences, University of St Andrews, St Andrews, KY16 9AL, UK
– sequence: 5
  givenname: Zhenghua
  surname: Wang
  fullname: Wang, Zhenghua
  organization: WANBAO Mining Limited, Beijing 100053, China
– sequence: 6
  givenname: Hongfei
  surname: Liu
  fullname: Liu, Hongfei
  organization: Tibet Institute of Geological Survey, Lhasa 850000, China
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Keywords Zircon U–Pb chronology
Geochemistry
Tectonic setting
The Gangdese belt
Jurassic granitoid rocks
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Snippet The Gangdese belt, Tibet, records the opening and closure of the Neo-Tethyan ocean and the resultant collision between the Indian and Eurasian plates. Mesozoic...
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SubjectTerms Geochemistry
Jurassic granitoid rocks
Tectonic setting
The Gangdese belt
Zircon U–Pb chronology
Title Petrogenesis of Early to Middle Jurassic granitoid rocks from the Gangdese belt, Southern Tibet: Implications for early history of the Neo-Tethys
URI https://dx.doi.org/10.1016/j.lithos.2013.06.011
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