Wu, XunJeuland, MarcSadoff, ClaudiaWhittington, Dale2016-04-252016-04-252013-03Water Policyhttps://hdl.handle.net/10986/24121It 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.en-USCC BY-NC-ND 3.0 IGOWATER QUALITYWATER SHARINGSURFACE WATER SYSTEMWATER SUPPLIESFLOWCONFLUENCEINTERNATIONAL RIVER BASINSQUALITY OF WATERQUANTITY OF WATERDAMSINTERNATIONAL WATER RESOURCESMARGINAL COSTRIVER FLOWWATER USAGEWATER SYSTEMSAGRICULTURAL DEVELOPMENTHYDROLOGYWATER SUPPLYWATER RESOURCEGROUNDWATER RECHARGECATCHMENTSRIVER BASINSRESERVOIRSAVAILABILITY OF WATERSURFACE WATERFLOOD MANAGEMENTWATER ALLOCATIONSFLOOD PROTECTIONEVAPOTRANSPIRATIONHIGH LEVELSGASHYDROPOWER CAPACITYPHWATER RESOURCESWATER SYSTEMWATER STORAGEWASTEWATER TREATMENTWATER MANAGEMENTCLIMATIC CONDITIONSLARGE DAMSWATER REQUIREMENTSCROP PRODUCTIONSEEPAGERIPARIAN COUNTRIESINTERNATIONAL WATERPOWER GENERATIONAUGMENTATIONINDUSTRIAL WATERRIVER SYSTEMFLOODSBASINSCONSTRUCTIONWATER USEWATERWATER RESOURCES MANAGEMENTDRAINAGEFLOW REGULATIONPOLLUTIONRIVER WATERSERVICE PROVISIONRESEARCHFARMINGIRRIGATION WATERFARMERSIRRIGATION CANALSNATURAL RESOURCESRUNOFFFISHINGWASTEWATERSTORAGE CAPACITYWATER TRANSFERECOSYSTEMLEADGROUNDWATER USECLIMATE CHANGERIVER CHANNELHYDROPOWER DEVELOPMENTWATER USESDOWNSTREAM USERSDIVERSIONRIVER BASINEVAPORATION LOSSESWATER DEMANDWATER TRANSFERSFLOOD DAMAGEWATER POLICYSYSTEMSCANALSFLOOD RISKCUBIC METERSDRIP IRRIGATIONHYDROPOWER PRODUCTIONRIVERSCOMPETITION FOR WATERWATER RESOURCES PLANNINGSURFACE WATER IRRIGATIONRECHARGEWATER RESOURCES DEVELOPMENTWATER WITHDRAWALSSURFACE WATER DEMANDSWATER AVAILABILITYFLOW AUGMENTATIONPUMPINGIRRIGATION SYSTEMSDOWNSTREAM FLOWSENGINEERINGIRRIGATIONSTATISTICSGROUNDWATERMETERSWATER USERSWATER PARTNERSHIPFLOOD CONTROLGLOBAL WATER PARTNERSHIPPOLLUTION CONTROLEVAPORATIONWATERSRIPARIANENVIRONMENTAL FLOWSMUNICIPAL WATERSMALL DAMSCHANNELJournal ArticleIWA Publishing10.1596/24121