Study of riverine wetlands of Bakulahi River in the interfluvial zone of Ganga and Sai Rivers, Uttar Pradesh, India

Hydrogeomorphological features such as paleochannels, oxbow-lakes, meander scars, etc., are the remnants of ancient flowing rivers which scrolled and shifted to successively new courses due to various geomorphological, tectonic and climatological factors and are presently buried with younger fluvial...

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Veröffentlicht in:	Environmental earth sciences 2024-04, Vol.83 (8), p.242-242, Article 242
Hauptverfasser:	Maddheshiya, Sandeep Kumar, Jha, Medha, Tignath, Sanjay, Singh, Nikhilesh
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Sprache:	eng
Schlagworte:	Biogeosciences Deforestation Digital Elevation Models Earth and Environmental Science Earth Sciences electrical resistance Electrical resistivity Elevation energy Environmental Science and Engineering Floodplains Fluvial sedimentation Fluvial sediments Geochemistry Geology Geomorphology Hydrogeomorphology Hydrology/Water Resources India Lakes Landsat Landsat satellites Original Article oxbow lakes Radar Radar data Remote sensing riparian areas Rivers Satellite imagery Sediment sediment contamination Sediment load Sediments surveys Tectonics Terrestrial Pollution topography Villages Wetlands
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creator	Maddheshiya, Sandeep Kumar Jha, Medha Tignath, Sanjay Singh, Nikhilesh
description	Hydrogeomorphological features such as paleochannels, oxbow-lakes, meander scars, etc., are the remnants of ancient flowing rivers which scrolled and shifted to successively new courses due to various geomorphological, tectonic and climatological factors and are presently buried with younger fluvial sediments. A series of aligned hydrogeomorphological features in the interfluvial zone of the Ganga and Sai Rivers exist in the upper reaches of the currently existing Bakulahi River. Their continuity and correlation with the Bakulahi River remained unexplored as yet. The present paper aims to identify, delineate, and hydrogeomorphologically reconstruct these features in the Ganga and Sai Rivers’ interfluve and find out their association with the currently existing Bakulahi River. Remote sensing data (Landsat-8, Sentinel, and Shuttle Radar Topography Mission- Digital Elevation Models) were used to identify and delineate these paleochannels. Spatial cross-sectional profiles were generated through the Digital Elevation Model data to know the paleochannel’s longitudinal and transverse forms and dimensions. The delineated paleochannels in the satellite image were cross-verified with the electrical resistivity survey and the sedimentological analysis, which confirmed the existence of paleochannels of the Bakulahi River. The study reveals that all the hydrogeomorphological features in the interfluvial zone of the Ganga and Sai Rivers are an integral part of the currently existing Bakulahi River and concludes that the Bakulahi River was flowing from near Gouria Kalan village, Unnao district, and finally met with the Sai River at Khajurni village in Pratapgarh district. The river dynamics changed with time, possibly owing to multiple factors such as changes in energy state, sediment load, extensive deforestation, neo-tectonism, etc., which caused the loss of the continuity of the Bakulahi River. Eventually, the relics of the Bakulahi River remained as disconnected riverine wetlands at present. This study is a matter of wide concern of global interest in the diminishing riverine wetlands of flood plains.
doi_str_mv	10.1007/s12665-024-11531-3
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The delineated paleochannels in the satellite image were cross-verified with the electrical resistivity survey and the sedimentological analysis, which confirmed the existence of paleochannels of the Bakulahi River. The study reveals that all the hydrogeomorphological features in the interfluvial zone of the Ganga and Sai Rivers are an integral part of the currently existing Bakulahi River and concludes that the Bakulahi River was flowing from near Gouria Kalan village, Unnao district, and finally met with the Sai River at Khajurni village in Pratapgarh district. The river dynamics changed with time, possibly owing to multiple factors such as changes in energy state, sediment load, extensive deforestation, neo-tectonism, etc., which caused the loss of the continuity of the Bakulahi River. Eventually, the relics of the Bakulahi River remained as disconnected riverine wetlands at present. 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A series of aligned hydrogeomorphological features in the interfluvial zone of the Ganga and Sai Rivers exist in the upper reaches of the currently existing Bakulahi River. Their continuity and correlation with the Bakulahi River remained unexplored as yet. The present paper aims to identify, delineate, and hydrogeomorphologically reconstruct these features in the Ganga and Sai Rivers’ interfluve and find out their association with the currently existing Bakulahi River. Remote sensing data (Landsat-8, Sentinel, and Shuttle Radar Topography Mission- Digital Elevation Models) were used to identify and delineate these paleochannels. Spatial cross-sectional profiles were generated through the Digital Elevation Model data to know the paleochannel’s longitudinal and transverse forms and dimensions. The delineated paleochannels in the satellite image were cross-verified with the electrical resistivity survey and the sedimentological analysis, which confirmed the existence of paleochannels of the Bakulahi River. The study reveals that all the hydrogeomorphological features in the interfluvial zone of the Ganga and Sai Rivers are an integral part of the currently existing Bakulahi River and concludes that the Bakulahi River was flowing from near Gouria Kalan village, Unnao district, and finally met with the Sai River at Khajurni village in Pratapgarh district. The river dynamics changed with time, possibly owing to multiple factors such as changes in energy state, sediment load, extensive deforestation, neo-tectonism, etc., which caused the loss of the continuity of the Bakulahi River. Eventually, the relics of the Bakulahi River remained as disconnected riverine wetlands at present. 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A series of aligned hydrogeomorphological features in the interfluvial zone of the Ganga and Sai Rivers exist in the upper reaches of the currently existing Bakulahi River. Their continuity and correlation with the Bakulahi River remained unexplored as yet. The present paper aims to identify, delineate, and hydrogeomorphologically reconstruct these features in the Ganga and Sai Rivers’ interfluve and find out their association with the currently existing Bakulahi River. Remote sensing data (Landsat-8, Sentinel, and Shuttle Radar Topography Mission- Digital Elevation Models) were used to identify and delineate these paleochannels. Spatial cross-sectional profiles were generated through the Digital Elevation Model data to know the paleochannel’s longitudinal and transverse forms and dimensions. The delineated paleochannels in the satellite image were cross-verified with the electrical resistivity survey and the sedimentological analysis, which confirmed the existence of paleochannels of the Bakulahi River. The study reveals that all the hydrogeomorphological features in the interfluvial zone of the Ganga and Sai Rivers are an integral part of the currently existing Bakulahi River and concludes that the Bakulahi River was flowing from near Gouria Kalan village, Unnao district, and finally met with the Sai River at Khajurni village in Pratapgarh district. The river dynamics changed with time, possibly owing to multiple factors such as changes in energy state, sediment load, extensive deforestation, neo-tectonism, etc., which caused the loss of the continuity of the Bakulahi River. Eventually, the relics of the Bakulahi River remained as disconnected riverine wetlands at present. This study is a matter of wide concern of global interest in the diminishing riverine wetlands of flood plains.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><doi>10.1007/s12665-024-11531-3</doi><tpages>1</tpages></addata></record>
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subjects	Biogeosciences Deforestation Digital Elevation Models Earth and Environmental Science Earth Sciences electrical resistance Electrical resistivity Elevation energy Environmental Science and Engineering Floodplains Fluvial sedimentation Fluvial sediments Geochemistry Geology Geomorphology Hydrogeomorphology Hydrology/Water Resources India Lakes Landsat Landsat satellites Original Article oxbow lakes Radar Radar data Remote sensing riparian areas Rivers Satellite imagery Sediment sediment contamination Sediment load Sediments surveys Tectonics Terrestrial Pollution topography Villages Wetlands
title	Study of riverine wetlands of Bakulahi River in the interfluvial zone of Ganga and Sai Rivers, Uttar Pradesh, India
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