GSA Annual Meeting in Denver, Colorado, USA - 2016

Paper No. 347-15
Presentation Time: 9:00 AM-6:30 PM

DETRITAL ZIRCON U-PB ANALYSIS OF THE LIUQU CONGLOMERATE ALONG THE YARLUNG-ZANGBO SUTURE ZONE, AND IMPLICATIONS FOR THE MODE AND TIMING OF COLLISION TECTONICS IN SOUTHERN TIBET


XIE, Yanxue, Department of Geology and Env Earth Science, Miami University, Shideler Hall, Spring Street, Oxford, OH 45056 and DILEK, Yildirim, Department of Geology & Environmental Earth Science, Miami University, 208 Shideler Hall, Patterson Avenue, Oxford, Ohio, OH 45056, xiey2@miamioh.edu

The Liuqu Conglomerate (LQC) along the Yarlung-Zangbo suture zone (YZSZ) in Southern Tibet is a terrestrial deposit that provides significant spatial and temporal constraints for the timing and nature of collisional events in the tectonic evolution of the Tibetan-Himalayan orogenic belt. The ~10-km-wide (N-S) LQC is exposed discontinuously for more than 1000 km in an E-W direction, and is tectonically overlain to the north by the Cretaceous Neotethyan oceanic lithosphere along a S-vergent thrust fault system and to the south by Triassic-Jurassic metamorphosed sedimentary-volcanic rocks of the Tethyan Himalaya along N-vergent reverse-thrust faults. The major facies of the LQC are the matrix-supported to clast-supported conglomerates. The matrix is poorly to moderate sorted red quartz sandstone, mudstone and sub-rounded pebble to cobble-sized clasts. The clast lithology present in central and southern parts includes dark red sandstone, siltstone and mudstone greyish-green shale, grey phyllite and slate with their provenance in the Triassic Tethyan Himalaya to the south. The clastic material making up its stratigraphy in the northern part of the LQC includes quartz sandstone, radiolarian chert, minor dolerite, gabbro and peridotite derived from the Cretaceous ophiolite. Here we report in-situ detrital zircon U-Pb age analysis of sandstone from the LQC near Liuqu area. 163 concordant U-Pb ages obtained from sample 22-LQ-15, 27-LQ-15 and 35-LQ-15 show the youngest age is 307±13 Ma with discordance of -17.02%, and the oldest zircon grain is 3362 ±51 Ma with discordance of 2.63%. Statistically, the age spectrum of these zircons from the three sandstone samples display a prominent peak centred in ~935 Ma, a large peak around ~516 Ma, and two small clusters around ~2429 Ma and ~2772 Ma. The zircon U-Pb results provide evidence of age clusters of the sandstone in the LQC are consistent with the detrital U-Pb age signature of the sandstone in Tethyan Himalaya. Thus, the sediments in the LQC could be derived from the northern edge of the Indian margin and a late Jurassic-Cretaceous intra-oceanic island arc that lay within Thethys and developed prior to the final collision between India and Eurasia plates.