Cenozoic tectonic evolution of the Elashan range and its surroundings, northern Tibetan Plateau as constrained by paleomagnetism and apatite fission track analyses

Magnetostratigraphic studies of sediments in the western Gonghe and eastern Qaidam Basins, together with apatite fission track (AFT) analyses in the Elashan Range, suggest that the Elashan range and its surroundings experienced a two-stage evolution: a protracted uplift from the Cretaceous to the early Tertiary (which explains the absence of the Paleogene strata in the region) and an accelerated growth of the Elashan range since the latest Oligocene caused by extensively distributed thrust faults in the region. This later phase of uplift resulted in the subsequent thick sediments within the both easternmost Qaidam and Gonghe Basins (basal ages of 21-22 Ma in the Wulan section, of similar to 20 Ma in the southern Gonghe section, and of >12 Ma in the Chaka section. The two phases of thrust motion and range growth mean that the Qaidam and Gonghe Basins were never united during Cenozoic times. The strike-slip is likely to have occurred at similar to 10 Ma, as shown by the paleomagnetic declination data, which show a rapid transition in rotation sense (from counter-clockwise to clockwise) at that time. This time is also similar to the 9 Ma age of initiation of the Wenquan fault determined by backward calculation based on its late Quaternary slip rate. Eventually, the Qinghai Nan Shan thrust belt began to develop at similar to 6 Ma. (C) 2012 Elsevier B.V. All rights reserved.