LITHIUM ISOTOPIC CONSTRAINTS ON THE ORIGIN OF I- AND A-TYPE GRANITES FROM EAST JUNGGAR (NW CHINA) OF THE CENTRAL ASIAN OROGENIC BELT: IMPLICATIONS FOR LI ISOTOPIC FRACTIONATION DURING CRUSTAL ANATEXIS
https://doi.org/10.5800/GT-2017-8-3-0253
Abstract
Though Li isotope fractionation during mantle melting and differentiation of basaltic melts have been proved insignificant, Li isotopic systems during crustal processes remain unclear. To study this, we report combined petrological, Nd-Sr and Li isotopic data for the late Paleozoic coexisting I- and A-type granites in the East Junggar orogen of the Central Asian Orogenic Belt. The granites were formed responding to underplating of mafic magmas in the lower crust in a postcollisional, extensional regime, and intruded into the Paleozoic foldbelts that formed due to extensive oceanic subduction-accretion processes.
About the Authors
Bin Chen
Hefei University of Technology
China
China
School of Resources and Environmental Engineering,
Hefei 230009
Keke Sun
Peking University
China
China
School of Earth and Space Sciences,
Beijing 100871
Chao Huang
Hefei University of Technology
China
China
School of Resources and Environmental Engineering,
Hefei 230009
Hai-ou Gu
Hefei University of Technology
University of Science and Technology
China
China
School of Resources and Environmental Engineering, Hefei 230009;
School of Earth and Space Sciences, Hefei 230026
Review
For citations:
Chen B., Sun K., Huang Ch., Gu H. LITHIUM ISOTOPIC CONSTRAINTS ON THE ORIGIN OF I- AND A-TYPE GRANITES FROM EAST JUNGGAR (NW CHINA) OF THE CENTRAL ASIAN OROGENIC BELT: IMPLICATIONS FOR LI ISOTOPIC FRACTIONATION DURING CRUSTAL ANATEXIS. Geodynamics & Tectonophysics. 2017;8(3):429-430. https://doi.org/10.5800/GT-2017-8-3-0253
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