Interdependence in Water Resource Development in the Ganges : An Economic Analysis

It is often argued that the true benefits of water resource development in international river basins are undermined by a lack of consideration of interdependence in water resource planning. Yet it has not been adequately recognized in the water resources planning literature that overestimation of interdependence may also contribute to lack of progress in cooperation in many systems. This paper examines the nature and degree of economic interdependence in new and existing water storage projects in the Ganges River basin based on analysis conducted using the Ganges Economic Optimization Model. We find that constructing large dams on the upstream tributaries of the Ganges would have much more limited effects on controlling downstream floods than is thought and that the benefits of low-flow augmentation delivered by storage infrastructures are currently low. A better understanding of actual and prospective effects of interdependence not only changes the calculus of the benefits and costs of different scenarios of infrastructure development, but might also allow riparian countries to move closer to benefit sharing positions that are mutually acceptable.

Bibliographic Details

Main Authors:	Wu, Xun, Jeuland, Marc, Sadoff, Claudia, Whittington, Dale
Format:	Journal Article biblioteca
Language:	English en_US
Published:	IWA Publishing 2013-03
Subjects:	WATER QUALITY, WATER SHARING, SURFACE WATER SYSTEM, WATER SUPPLIES, FLOW, CONFLUENCE, INTERNATIONAL RIVER BASINS, QUALITY OF WATER, QUANTITY OF WATER, DAMS, INTERNATIONAL WATER RESOURCES, MARGINAL COST, RIVER FLOW, WATER USAGE, WATER SYSTEMS, AGRICULTURAL DEVELOPMENT, HYDROLOGY, WATER SUPPLY, WATER RESOURCE, GROUNDWATER RECHARGE, CATCHMENTS, RIVER BASINS, RESERVOIRS, AVAILABILITY OF WATER, SURFACE WATER, FLOOD MANAGEMENT, WATER ALLOCATIONS, FLOOD PROTECTION, EVAPOTRANSPIRATION, HIGH LEVELS, GAS, HYDROPOWER CAPACITY, PH, WATER RESOURCES, WATER SYSTEM, WATER STORAGE, WASTEWATER TREATMENT, WATER MANAGEMENT, CLIMATIC CONDITIONS, LARGE DAMS, WATER REQUIREMENTS, CROP PRODUCTION, SEEPAGE, RIPARIAN COUNTRIES, INTERNATIONAL WATER, POWER GENERATION, AUGMENTATION, INDUSTRIAL WATER, RIVER SYSTEM, FLOODS, BASINS, CONSTRUCTION, WATER USE, WATER, WATER RESOURCES MANAGEMENT, DRAINAGE, FLOW REGULATION, POLLUTION, RIVER WATER, SERVICE PROVISION, RESEARCH, FARMING, IRRIGATION WATER, FARMERS, IRRIGATION CANALS, NATURAL RESOURCES, RUNOFF, FISHING, WASTEWATER, STORAGE CAPACITY, WATER TRANSFER, ECOSYSTEM, LEAD, GROUNDWATER USE, CLIMATE CHANGE, RIVER CHANNEL, HYDROPOWER DEVELOPMENT, WATER USES, DOWNSTREAM USERS, DIVERSION, RIVER BASIN, EVAPORATION LOSSES, WATER DEMAND, WATER TRANSFERS, FLOOD DAMAGE, WATER POLICY, SYSTEMS, CANALS, FLOOD RISK, CUBIC METERS, DRIP IRRIGATION, HYDROPOWER PRODUCTION, RIVERS, COMPETITION FOR WATER, WATER RESOURCES PLANNING, SURFACE WATER IRRIGATION, RECHARGE, WATER RESOURCES DEVELOPMENT, WATER WITHDRAWALS, SURFACE WATER DEMANDS, WATER AVAILABILITY, FLOW AUGMENTATION, PUMPING, IRRIGATION SYSTEMS, DOWNSTREAM FLOWS, ENGINEERING, IRRIGATION, STATISTICS, GROUNDWATER, METERS, WATER USERS, WATER PARTNERSHIP, FLOOD CONTROL, GLOBAL WATER PARTNERSHIP, POLLUTION CONTROL, EVAPORATION, WATERS, RIPARIAN, ENVIRONMENTAL FLOWS, MUNICIPAL WATER, SMALL DAMS, CHANNEL,
Online Access:	http://documents.worldbank.org/curated/en/2016/03/26048699/interdependence-water-resource-development-ganges-economic-analysis http://hdl.handle.net/10986/24121
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