Hydrogeologic framework of the Deccan terrain of the Koyna River basin, Indiar

The Koyna River basin in India drew the attention of geoscientists after an earthquake (magnitude 7) in 1967. Since then, detailed geological, tectonic, and seismic investigations of this river basin have been carried out by several workers. However, very little study has been done on its hydrogeolo...

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Published in:Hydrogeology journal 2001-06, Vol.9 (3), p.243
Main Authors: Naik, Pradeep K, Awasthi, Arun K, Anand, A, Mohan, Prakash C
Format: Article
Language:English
Subjects:
Alluvium
Aquifers
Artificial recharge
Basalt
Calcium
Consumptive use
Earthquakes
Geochemistry
Geology
Groundwater
Groundwater recharge
Hydrogeology
Hydrology
Laterites
Magnesium
Plateaus
River basins
Rivers
Seismic activity
Sodium
Specific yield
Transmissivity
Unconfined aquifers
Water resources
Water resources management
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Summary:The Koyna River basin in India drew the attention of geoscientists after an earthquake (magnitude 7) in 1967. Since then, detailed geological, tectonic, and seismic investigations of this river basin have been carried out by several workers. However, very little study has been done on its hydrogeological framework. The present work aims at filling this gap. Basalts, laterites, alluvium, soils, and talus deposits form shallow unconfined aquifers, with transmissivity of 27-135 m^sup 2^/d and a regional specific yield of 0.012. In shallow basaltic aquifers, the lower part of the highly weathered and highly jointed horizon above, and the poorly weathered and highly jointed horizon below, form the most potential zone for groundwater occurrence. Well yields in the deeper basaltic aquifers are directly related to the occurrence of lineaments, whereas at a shallower level they are related to geomorphic features. Spring discharges are highly dependent on their source aquifers and areas of recharge. They have a mean winter discharge of 46 m^sup 3^/d and a summer discharge of 28 m^sup 3^/d. Chemically, groundwaters are dominated by alkaline earths (Ca^sup 2+^, Mg^sup 2+^) and weak acids (HCO3 ^sup -^, CO3 ^sup -^); they are calcium-bicarbonate type (53%) and calcium-magnesium-bicarbonate type (27%) at shallower levels; and calcium-magnesium-bicarbonate type (29%), sodium-bicarbonate type (24%), calcium-bicarbonate type (19%), and calcium-magnesium-sodium-bicarbonate type (19%) in deeper aquifers. The Koyna River basin is characterized by both scarcity and abundance of groundwater. In the water-scarce areas in the dissected plateaus, artificial recharge of aquifers through construction of several recharge structures at suitable locations is highly recommended. In the water-abundant areas in the central valley, on the other hand, expanded consumptive use of water resources is encouraged.[PUBLICATION ABSTRACT]
ISSN:1431-2174
1435-0157
DOI:10.1007/s100400100123