Abstract
Satellite based remote sensing technology has proven to be an effectual tool in analysis of drainage networks, study of surface morphological features and their correlation with groundwater management prospect at basin level. The present study highlights the effectiveness and advantage of remote sensing and GIS-based analysis for quantitative and qualitative assessment of flood plain region of lower Kosi river basin based on morphometric analysis. In this study, ASTER DEM is used to extract the vital hydrological parameters of lower Kosi river basin in ARC GIS software. Morphometric parameters, e.g., stream order, stream length, bifurcation ratio, drainage density, drainage frequency, drainage texture, form factor, circularity ratio, elongation ratio, etc., have been calculated for the Kosi basin and their hydrological inferences were discussed. Most of the morphometric parameters such as bifurcation ratio, drainage density, drainage frequency, drainage texture concluded that basin has good prospect for water management program for various purposes and also generated data base that can provide scientific information for site selection of water-harvesting structures and flood management activities in the basin. Land use land cover (LULC) of the basin were also prepared from Landsat data of 2005, 2010 and 2015 to assess the change in dynamic of the basin and these layers are very noteworthy for further watershed prioritization.
Highlights
River basins are the fundamental units of the fluvial landscape and a great amount of study has emphasized on their geometric physiognomies including the relationship of the stream networks and quantifiable explanation of hydrological parameters (Abrahams 1984; Huggett and Cheesman 2002)
To comprehend the drainage characteristics of the basin area, its morphometry influences on the hydrology was very well studied because these parameters directly affects the size of the extents of peak and mean runoff, whereby the maximum flood discharge per unit area is inversely associated to size (Chorley et al 1957)
The results achieved in this study proposes that morphometric attributes defining basin geometry as well as shape, length of stream, stream network topology and topography dissection can be well retrieved from ASTER-DEM and accomplished to generate data on stream number and basin relief
Summary
River basins are the fundamental units of the fluvial landscape and a great amount of study has emphasized on their geometric physiognomies including the relationship of the stream networks and quantifiable explanation of hydrological parameters (Abrahams 1984; Huggett and Cheesman 2002). Hydrological parameters are utmost substantial methodical tools for water resource management and valuation in a river basin. Its studies are vital in semi-arid and arid areas of India for protecting the inadequate water resources, because at. Very important and innovative research work on the river morphometry has been completed by Horton
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