Removal of deep lithosphere in ancient continental collisional orogens: A case study from central Tibet, China

Widespread but small‐volume Late Cretaceous volcanic rocks in central Tibet contain important information on the Lhasa‐Qiangtang collision process. In this contribution, we focus on Late Cretaceous volcanics in the southern Qiangtang subterrane and present zircon LA‐ICP‐MS U‐Pb ages, whole‐rock majo...

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Published inGeochemistry, geophysics, geosystems : G3 Vol. 18; no. 3; pp. 1225 - 1243
Main Authors Chen, Sheng‐Sheng, Fan, Wei‐Ming, Shi, Ren‐Deng, Gong, Xiao‐Han, Wu, Kang
Format Journal Article
LanguageEnglish
Published Washington John Wiley & Sons, Inc 01.03.2017
Subjects
Andesite
Asthenosphere
Case studies
Continental crust
Cretaceous
crustal thickening
Crystallization
Heating
Late Cretaceous
Lava
Lead
Lhasa‐Qiangtang collision zone
Lithosphere
lithospheric removal
Magma
Mantle
Melting
Ocean circulation
Potassium
Ratios
Removal
southern Qiangtang
Trace elements
Upwelling
Volcanic rocks
Zircon
Tibet
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Summary:Widespread but small‐volume Late Cretaceous volcanic rocks in central Tibet contain important information on the Lhasa‐Qiangtang collision process. In this contribution, we focus on Late Cretaceous volcanics in the southern Qiangtang subterrane and present zircon LA‐ICP‐MS U‐Pb ages, whole‐rock major and trace element compositions, and Sr‐Nd isotopic data. Zircon LA‐ICP‐MS U‐Pb dating yielded a concordant age of 80 Ma, which postdates the Early Cretaceous collision of the Qiangtang and Lhasa terranes. The volcanic rocks are potassium‐rich alkaline andesites with high contents of K2O (3.45–5.11 wt %) and Th (13.39–25.02 ppm), as well as high K2O/Na2O ratios (0.6–0.9). They have higher REE and HFSE contents than coeval Mg‐rich and adakite‐like magmatic rocks that can be related to partial melting of a thickened lower crust. Moreover, they have higher values of Mg# and lower contents of SiO2 than lower continental crust‐derived rocks in central Tibet and experimental data of mafic rocks. We argue that the andesites were generated after the removal of thickened lithospheric mantle and subsequent to the final Lhasa‐Qiangtang amalgamation in a postcollisional setting. The high‐K characteristics can be explained by producing the primitive andesite magmas from partial melting of the residual and shallow metasomatized lithospheric mantle (the K‐rich layer) during heating by upwelling asthenosphere; subsequently, these primitive andesite magmas were subjected to fractional crystallization to generate the Amdo andesites. The way in which these andesites were formed provides evidence for the lithospheric thickening and uplifting of central Tibet during the Late Cretaceous prior to India‐Asia collision. Key Points The Late Cretaceous andesites were derived by partial melting of metasomatized lithospheric mantle Removal of a thickened lithosphere was identified in central Tibet The Qiangtang‐Lhasa collision contributed to early uplifting of central Tibet
ISSN:1525-2027
1525-2027
DOI:10.1002/2016GC006678