Arsenic mobility in fluvial environment of the Ganga Plain,northern India |
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| Authors: | Munendra Singh Amit Kumar Singh Swati Nupur Srivastava Sandeep Singh A K Chowdhary |
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| Institution: | (1) Centre of Advanced Study in Geology, University of Lucknow, Lucknow, 226 007, India;(2) Department of Earth Science, Indian Institute of Technology, Roorkee, 247 667, India;(3) Institute Instrumentation Centre, Indian Institute of Technology, Roorkee, 247 667, India |
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| Abstract: | In the northern part of the Indian sub-continent, the Gomati River (a tributary of the Ganga River) was selected to study
the dynamics of Arsenic (As) mobilization in fluvial environment of the Ganga Plain. It is a 900-km-long, groundwater-fed,
low-gradient, alluvial river characterized by monsoon-controlled peaked discharge. Thirty-six water samples were collected
from the river and its tributaries at low discharge during winter and summer seasons and were analysed by ICP-MS. Dissolved
As and Fe concentrations were found in the range of 1.29–9.62 and 47.84–431.92 μg/L, respectively. Arsenic concentration in
the Gomati River water has been detected higher than in its tributaries water and characteristically increases in downstream,
attributed to the downstream increasing of Fe2O3 content, sedimentary organic carbon and silt-clay content in the river sediments. Significant correlation of determination
(r
2 = 0.68) was also observed between As and Fe concentrations in the river water. Arsenic concentrations in the river water
are likely to follow the seasonal temperature variation and reach the level of World Health Organization’s permissible limit
(10 μg/L) for drinking water in summer season. The Gomati River longitudinally develops reducing conditions after the monsoon
season that mobilize As into the river water. First, dissolved As enters into pore-water of the river bed sediments by the
reductive dissolution of Fe-oxides/hydroxides due to microbial degradation of sedimentary organic matter. Thereafter, it moves
upward as well as down slope into the river water column. Anthropogenically induced biogeochemical processes and tropical
climatic condition have been considered the responsible factors that favour the release of As in the fluvial environment of
the Ganga Plain. The present study can be considered as an environmental alarm for future as groundwater resources of the
Ganga–Brahmaputra Delta are seriously affecting the human–environment relationship at present. |
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