Groundwater resources assessment of the Koyna River basin, India

The Western Ghats (hills) region of the Indian peninsula in western India receives heavy precipitation (4,000-6,000 mm/year), but the headwater basins that coalesce runoff from these hills retain very small quantities of water due to the steep topography. However, the narrow valleys in these hills s...

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Bibliographic Details
Published in:Hydrogeology journal 2003-10, Vol.11 (5), p.582-594
Main Authors: Naik, P K, Awasthi, A K
Format: Article
Language:English
Subjects:
Agricultural production
Base flow
Dry season
Geology
Groundwater
Groundwater management
Groundwater potential
Groundwater recharge
Hills
Hydrogeology
Irrigation water
Return flow
River basins
Rivers
Safe yield
Specific yield
Spring
Surface water
Water resources
Water table
Water tanks
Waterlogging
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Summary:The Western Ghats (hills) region of the Indian peninsula in western India receives heavy precipitation (4,000-6,000 mm/year), but the headwater basins that coalesce runoff from these hills retain very small quantities of water due to the steep topography. However, the narrow valleys in these hills support agriculture based on surface water irrigation, and several medium to large irrigation projects have already been constructed with well-defined canal networks. These developments have boosted agricultural productivity in the region, but at the same time they are causing an economic disparity between the command areas (irrigated by these canals) and non-command areas. Water-logging problems are also occurring in low-lying areas. While these problems are mainly due to poor groundwater management strategies in the region, the groundwater resources in these headwater basins should be properly assessed and suitable measures taken for uniform groundwater development. As a first step in this direction, groundwater resources have been assessed as a case study for the lower Koyna River basin, a head water basin on the east of the main ridge of the Western Ghats. Regional specific yield (0.012) and groundwater recharge have been estimated on the basis of water table fluctuation method. Groundwater recharge amounting to 57 MCM (million m^sup 3^) in a year takes place in the region through vertical percolation of rainwater (31 MCM), return flow of water applied for irrigation (23 MCM), and recharge due to surface water tanks (3 MCM). Recharge to deeper aquifers has been estimated at 1 MCM during dry seasons (November-May). Safe yield has been estimated at 58 MCM annually which includes the present groundwater draft by wells for domestic, stock, and irrigational needs estimated at 16.50 MCM per year and the natural losses from the groundwater system which are mostly baseflow and spring discharges amounting to 38 MCM (35 MCM baseflow + 3 MCM spring flow) per year, out of which 7 MCM is already being directly pumped from the tributaries of the Koyna River for irrigational needs. Thus, there remains a balance of only 3.5 MCM of groundwater for further groundwater development. Assuming that at least 25% (7 MCM) of the unutilized baseflow (28 MCM) can be brought to fruitful use, about 10.5 MCM (7+3.5 MCM) of groundwater can be used in the existing hydrogeological environment through about 500 additional wells.[PUBLICATION ABSTRACT]
ISSN:1431-2174
1435-0157
DOI:10.1007/s10040-003-0273-5