Holocene tectono-geomorphic evolution of parts of the Upper and Middle Gangetic plains, India

Using multispectral scanning (MSS) images and digital elevation models (DEMs), 26 terrain morphological units were delineated in the study area between the Rapti and Kosi Rivers in the Gangetic plains. Based on the degree of soil development and the infrared stimulated luminescence chronology, these...

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Bibliographic Details
Published in:Geomorphology (Amsterdam, Netherlands) Netherlands), 2011-05, Vol.128 (3), p.148-170
Main Authors: Pati, Pitambar, Parkash, B., Awasthi, A.K., Acharya, Vivekanand
Format: Article
Language:English
Subjects:
Areal geology
Areal geology. Maps
cliffs
Compressing
digital elevation models
digital images
drainage
Earth sciences
Earth, ocean, space
Exact sciences and technology
Faults
floodplains
Gangetic plains
Geologic maps, cartography
gravel
Gravel progradation
highlands
hills
Interfluves
luminescence
Marine and continental quaternary
multispectral imagery
Neotectonics
piedmont
Piedmonts
Rivers
soil
streams
subsidence
Surficial geology
tectonics
Tectonics. Structural geology. Plate tectonics
Terminal fans
Terminals
terraces
Terrain
Thrust
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Summary:Using multispectral scanning (MSS) images and digital elevation models (DEMs), 26 terrain morphological units were delineated in the study area between the Rapti and Kosi Rivers in the Gangetic plains. Based on the degree of soil development and the infrared stimulated luminescence chronology, these terrain morphological units have been grouped into six members of a morphostratigraphic sequence with ages ≤ 1.65, 1.65–5.3, 5.3–7.5, 7.5–8.5, 8.5–10, and > 10 Ka. Integrated use of geomorphic markers including different drainage patterns identified from MSS images, significant breaks in topographic profiles, terminal fans, and artifact terrain features (e.g., ‘cliffs’ and ‘significant breaks in slopes’) in DEMs/digital terrain models (DTMs) with highly exaggerated vertical dimensions were made to infer and map 20 nascent faults in the region between the Ghaghara and Kosi Rivers in the flat Gangetic plains. The three major tectonic blocks are; the upland Ghaghara–Rapti block of the Upper Gangetic Plain, and the Rapti–Gandak and Gandak–Kosi blocks of the Middle Gangetic Plain, marked by high rates of subsidence and sedimentation. The Ghaghara–Rapti block bounded by the incised Ghaghara and Rapti rivers is an upland region and is primarily overlain by > 10 Ka old soils. Subsequent activity along the NE-SW trending transverse normal faults led to deposition of young terminal fans. Southward tilt of the Ghaghara–Rapti block generated two E–W trending terraces on the left bank of the Ghaghara River. Southwestward tilting of the upper part of the Ghaghara–Rapti block led to development of the widest Old Ghaghara Plain and Rapti Floodplain in the SW direction. Northeastward tilting of the Rapti–Gandak block shifted the Gandak River from west to east over a distance of 80 km during the period from 10 to 8.5 Ka. Further compression from the SW caused development of four extensional normal faults. The activity of three faults between 5.7 and 1.0 Ka generated four terminal alluvial fans on this block. The Gandak–Kosi block is marked by a set of seven thrust splays off the Himalayan Frontal Thrust (HFT) in the footwall. Activity of these thrust splays in the foothill region caused progradation of the gravel piedmont and thus developed the widest piedmont zone (124 km) in the Gangetic plains. This is the first report of gravel piedmont progradation from a modern environment and role of thrust splays in such a progradation. In the southernmost part of this block, the continu
ISSN:0169-555X
1872-695X
DOI:10.1016/j.geomorph.2011.01.001