Jurassic paleogeographic reconstructions of the Tian Shan region: an Early to Middle Jurassic evolution driven by far-field extension
Abstract
Using both detailed field analysis and bibliographic data we reconstructed the Early, Middle and Late Jurassic –
Early Cretaceous paleogeography of the Tian Shan region with the objective to decipher further its large-scale tectonic
and topographic evolution. During the Lower to Middle Jurassic, the topographic evolution of the Tian Shan
Range was dominated by the progressive planation of a Late Paleozoic to Early Mesozoic relief. Meanwhile, in the
basins surrounding the range and in the intra-mountain depressions, sedimentation was characterized by alluvial
to lacustrine systems deposited under humid conditions. Sediment by-pass dominated to the north of the range,
in the Chu-Sarysu and Ili-Balkash basins but also in the west Tarim Basin to the south. The Late Jurassic period
marked the onset of an aridification trend recorded all over the Tian Shan area and expressed by the emplacement
of numerous calcareous paleosols and the disappearance of coal beds within the basins. This aridification reached
a peak during the Late Jurassic – Early Cretaceous transition corresponding to the emplacement of semi-arid/arid
alluvial systems locally associated to large dune fields (in the Junggar basin). Meanwhile, the intra-mountains depressions
localized within the central part of the Tian Shan where mostly dominated by sediment by-pass. This
period was also characterized by differential relief build-up characterized by stronger relief building to the west
than to the east of the Tian Shan range. Finally, we proposed that the Early to Middle Jurassic evolution of the Tian
Shan region was not controlled by collisional events but could have instead been driven by the subduction-related
NE-SW extension event occurring on the Caspian - Turan - Kazakh domains to the west.