Water Resources Management in the Ganges Basin

The most difficult water resources management challenge in the Ganges Basin is the imbalance between water demand and seasonal availability. More than 80 % of the annual flow in the Ganges River occurs during the 4-month monsoon, resulting in widespread flooding. During the rest of the year, irrigation, navigation, and ecosystems suffer because of water scarcity. Storage of monsoonal flow for utilization during the dry season is one approach to mitigating these problems. Three conjunctive use management strategies involving subsurface water storage are evaluated in this study: Ganges Water Machine (GWM), Pumping Along Canals (PAC), and Distributed Pumping and Recharge (DPR). Numerical models are used to determine the efficacy of these strategies. Results for the Indian State of Uttar Pradesh (UP) indicate that these strategies create seasonal subsurface storage from 6 to 37 % of the yearly average monsoonal flow in the Ganges exiting UP over the considered range of conditions. This has clear implications for flood reduction, and each strategy has the potential to provide irrigation water and to reduce soil waterlogging. However, GWM and PAC require significant public investment in infrastructure and management, as well as major shifts in existing water use practices; these also involve spatially-concentrated pumping, which may induce land subsidence. DPR also requires investment and management, but the distributed pumping is less costly and can be more easily implemented via adaptation of existing water use practices in the basin.

Bibliographic Details

Main Authors:	Khan, Mahfuzur R., Voss, Clifford I., Yu, Winston, Michael, Holly A.
Format:	Journal Article biblioteca
Language:	English en_US
Published:	Springer 2014-03
Subjects:	FLOODING, DEEP WELLS, RIVER ECOSYSTEMS, GROUNDWATER STORAGE, CALIBRATION, HYDROGEOLOGY, FLOW, CANAL WATER, DAMS, AGRICULTURAL PRODUCTION, PUMPS, WATER CRISIS, BANK FILTRATION, RIVER FLOW, AGRICULTURAL DEVELOPMENT, AQUIFER, WATER SUPPLY, WATER RESOURCE, GROUNDWATER RECHARGE, RIVER BASINS, DOMESTIC WATER, RESERVOIRS, LEAKAGE RATE, SURFACE WATER, GLOBAL WATER CRISIS, FLOOD MANAGEMENT, CHANNELS, DAM CONSTRUCTION, WATER TOWERS, WATER TABLE, GROUNDWATER PUMPING, WATER RESOURCES, WATER PUMPING, WATER STORAGE, ADVERSE ENVIRONMENTAL IMPACTS, WATER MANAGEMENT, SEEPAGE, CONDUCTIVITY, FLOODS, BASINS, SEDIMENTS, CONSTRUCTION, WATER USE, WATER, MANAGING WATER RESOURCES, WATER RESOURCES MANAGEMENT, RAINFALL, SCIENCES, POLLUTION, WATER USE PATTERNS, WATER SCARCITY, RESEARCH, GROUNDWATER IRRIGATION, AQUIFERS, IRRIGATION WATER, FARMERS, CHEMISTRY, ANNUAL RAINFALL, RUNOFF, SUBSURFACE WATER, TRANSBOUNDARY WATERS, ENVIRONMENTAL ENGINEERING, PERMEABILITY, INTEGRATED WATER MANAGEMENT, GROUNDWATER WITHDRAWAL, PUMPING RATES, BASIN, WATER TABLES, LEAKAGE, SPECIFIC YIELD, ECOSYSTEM, UNSATURATED ZONE, SUB-BASIN, SUBSIDENCE, GROUNDWATER USE, WATER RESERVOIRS, CLIMATE CHANGE, CANAL SYSTEMS, DOWNSTREAM USERS, DIVERSION, RIVER BASIN, LOWER WATER TABLE, CONJUNCTIVE USE, WATER DEMAND, WATER TABLE DEPTH, ENVIRONMENTAL IMPACTS, WATER POLICY, SURFACE SEDIMENTS, CANALS, PUMPING RATE, CATCHMENT, DRY SEASON, RIVERS, INTENSIVE GROUNDWATER ABSTRACTION, RECHARGE, STRATIFICATION, RIVER CONDITIONS, GROUNDWATER ABSTRACTION, WELLS, DOMESTIC WATER SUPPLY, WATER AVAILABILITY, ARTIFICIAL RECHARGE, PUMPING, SALINITY, WATER NEEDS, ENGINEERING, MANGROVE, IRRIGATION, NITROGEN, GROUNDWATER, RAINFALL DISTRIBUTION, WATER USERS, WATER-SUPPLY SYSTEM, CONSERVATION, IRRIGATION WATER SUPPLY, WATER LOSS, WATER CHEMISTRY, WATERS, PUMPING WELLS, TUBE WELLS, AVAILABLE WATER,
Online Access:	http://documents.worldbank.org/curated/en/2016/03/26044370/water-resources-management-ganges-basin-comparison-three-strategies-conjunctive-use-groundwater-surface-water https://hdl.handle.net/10986/24093
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