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Diachronous evolution of sub-Himalayan piggyback basins, Nepal
Authors:Kazuo Kimura
Affiliation:Institute of Geography, Graduate School of Science, Tohoku University, Sendai 980-8578, Japan;Email: <>
Abstract:The geomorphology and related geostructures in the region of the dun valleys in Nepal (e.g. the Deukhuri Dun, the Chitwan Dun, the Hetauda Dun and the Trijuga Dun) have been surveyed in order to understand the neotectonics along the Himalayan front. The sub-Himalayan intermontane basins developed as piggyback basins located on the thrust-sheet of the Himalaya Front Fault (HFF equivalent to the Frontal Churia Thrust, the Main Siwalik Thrust or the Main Frontal Thrust). Each piggyback basin is a result of the north-northeast–south-southwest crustal shortening between the Indian Shield and the Himalayas. The evolution of the dun valleys is recorded as current reversals between the Upper Siwalik Group and the basin fills. The Upper Siwalik Group formed as piedmont alluvial fans distributed along the foot of the Lesser Himalaya and/or the Inner Churia Range, and show predominantly southerly current directions. In contrast, the basin fills distributed along the southern margin of the dun valleys formed by north-flowing drainage systems. The oldest basin fills of the piggyback basins appear to have commenced by the middle Pleistocene in the Deukhuri Dun and the Chitwan Dun, by the late Pleistocene in the Hetauda Dun, and by the latest Pleistocene in the Trijuga Dun. The diachronous evolution of the dun valleys suggest that the morphogenesis of the HFF zone was controlled by west-to-east propagation in late Quaternary time. These morphotectonics suggest the oblique-slip thrusting of the HFF zone which can be related to the oblique convergence between the Indian Shield and the Himalayas, and/or the counter-clockwise rotation of the Indian Subcontinent.
Keywords:active tectonics    dun valley    Himalayan Front    HFF zone    morphogenesis    oblique-slip    plate convergence    Quaternary    stress field    thrust
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