Early Eocene crustal thickening in southern Tibet: New age and geochemical constraints from the Gangdese batholith
- 作者:Wei-Qiang Jia ; jiweiqiang@mail.iggcas.ac.cn ; Fu-Yuan Wua ; Chuan-Zhou Liua ; Sun-Lin Chungb
- 关键词:Eocene ; Crustal thickening ; Gangdese batholith ; Zircon U&ndash ; Pb age and Hf isotope ; Geochemistry ; Lhasa terrane ; Tibet
- 刊名:Journal of Asian Earth Sciences
- 出版年:2012
- 期刊代码:40_13679120
- 类别:ear
- 出版时间:7 July, 2012
- 卷:53
- 期:Complete
- 页码:82-95
- 文件大小:1933 K
摘要
The Lhasa terrane, southern Tibet is where the thickest part of the Earth鈥檚 crust occurs as a result of the India-Asia collision. This paper reports zircon U-Pb age and geochemical data of samples collected from the Gangdese batholith, southern Lhasa terrane, a subset of which has already been dated at 65-41 Ma using zircon U-Pb geochronology (Ji, W.Q., Wu, F.Y., Chung, S.L., Li, J.X., Liu, C.Z., 2009a. Zircon U-Pb chronology and Hf isotopic constraints on the petrogenesis of Gangdese batholiths, southern Tibet. Chemical Geology 262, 229-245), to constrain the timing and mechanism(s) responsible for crustal thickening beneath southern Tibet. Our new data indicate that the Gangdese magmatism lasted continuously from ca. 65 to 34 Ma, during which geochemical evidence for crustal thickening is observed. Crustal thickening is best illustrated by the progressive increase in La/Yb and Sr/Y of the Early to latest Eocene magmatic rocks, associated with the decrease in Hf isotopic ratios of Paleocene to Eocene magmatic zircons. We also identify in this study the oldest (ca. 51 Ma), 鈥減ost-collisional鈥?adakitic granitoids in the Gangdese batholith, interpreted as products from partial melting of underplated basaltic lower crust. Therefore, a thickened crust likely existed by that time, at least locally, in the southern Lhasa terrane, Tibet.