A REVIEW OF LOW-TEMPERATURE THERMOCHRONOLOGY ON BEDROCK AND DETRITUS FROM RIVERS AROUND THE TIBETAN PLATEAU

The large river systems are the major transfer of continental masses to the ocean and basin, playing significant roles in global geochemical cycles. The Tibetan plateau is the birthplace of many huge rivers flowing through eastern and southern Asia, in which the fluvial deposits kept not only closely relate to the geological evolution information from the source areas, but also record the river itself building process. The low-temperature thermochronology method of detrital minerals (zircon and apatite, etc.) can be used to constrain the river's source areas, establishing its source-sink system. It can also combine regional tectonic deformation analysis to determine the potential source region of the river and the formation time of the plateau geomorphology, which is a focused issue in recent years. In this study, we have summarized the research results from the large rivers in the Tibetan plateau in recent years, suggesting that the low-temperature thermochronology analysis of the detrital minerals should be focused on the river's key locations in the upstream, midstream and downstream, respectively, combining the small tributaries analysis which can give a more detailed thermal evolution history in the whole drainage basin. On the conditions of the bedrock, it is shown that in the same river's different place we should use the same low-temperature thermochronology, while in different river's places we should take several low-temperature thermochronology methods (apatite and zircon, etc.)at a same position, so we get a complete time series related to the river incision. Combining the valley bedrock and detrital river minerals with the low-temperature thermalchronology on the Tibetan plateau, together with the chronology, structure analysis and other sedimentary studies, we can obtain detailed structures and river's evolution processes.