06564nam 2201837z- 450 991034667840332120231214132958.03-03897-739-X(CKB)4920000000094883(oapen)https://directory.doabooks.org/handle/20.500.12854/40111(EXLCZ)99492000000009488320202102d2019 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdaptive Catchment Management and Reservoir OperationMDPI - Multidisciplinary Digital Publishing Institute20191 electronic resource (498 p.)3-03897-738-1 River catchments and reservoirs play a central role in water security, food supply, flood risk management, hydropower generation, and ecosystem services; however, they are now under increasing pressure from population growth, economic activities, and changing climate means and extremes in many parts of the world. Adaptive management of river catchments and reservoirs requires an in-depth understanding of the impacts of future uncertainties and thus the development of robust, sustainable solutions to meet the needs of various stakeholders and the environment. To tackle the huge challenges in moving towards adaptive catchment management, this book presents the latest developments in cutting-edge knowledge, novel methodologies, innovative management strategies, and case studies, focusing on the following themes: reservoir dynamics and impact analysis of dam construction, optimal reservoir operation, climate change impacts on hydrological processes and water management, and integrated catchment management.downscalingsuspended sediment concentrationmodelingSouth-to-North Water Transfer Projectsensitivity analysissimulationprotection zonereservoirsmusselsediment regimeresilience and robustnessoptimal flood control operationmulti-objective modeloptimizationscenario analysisfloodplain vertical shape indexaftereffectlentic habitatsenergystochastic linear programming?-constrained methodTekeze basinrunoffcascade reservoirscosts and benefitssediment flushing efficiencyvulnerabilityHeihe River BasinTB-MPCheating impactflushing efficiencysystem dynamicsIndian Monsoonshaft spillway pipeintegrated supply system modelingseasonal rainfallsediment managementdesign and operation of the multipurpose reservoirKappa distributionCO2reliabilityuncertaintyYangtze RiverMarkov chainthe Yangtze RiverEnvironmental Fluid Dynamics Code (EFDC) modelland and water resourcesintegrated surface water-groundwater modelHeilongjiangKurobe Riverflow regimenumerical simulationlong distance water diversiontropical reservoirmulti-stage stochastic optimizationdirect policy searchinverted siphonenvironmental flowparameterizationaccompanying progressive optimality algorithmintegrated managementhydropower stationsdifferential evolution algorithmsediment flushing of empty storageback propagation neural networkNSGA-IItwo-dimensional bed evolution modelreal-time controlupper Chao Phraya River BasinCMIP5genetic algorithmdamirrigationCMIP3water energydischargethe Jingjiang River Reachwater environmental capacity (WEC)climate changeshortage ratio: Vulnerabilityoptimal schedulinghydrologySiemianówkaungauged basingame theorypower functionSWATDokan Damnatural flow regimebitterlingreservoir flushingvertical profiles of concentrationratio curvepartial gauged basinsediment loadadaptive managementwater deficitthe upper Yangtze River BasinMiyun Reservoirparameter relationstochastic dynamic programmingNPPrunoff responseNarew Rivercoupling modelLangcang-Mekong Riverdrinking water resourcesthe Huangshi Reservoirreverse regulationnutrient uptakewater resources allocationmulti-agent of river basinHEC-ResPRMdynamic programming with progressive optimality algorithm (DP-POA)reservoir operationsea surface temperaturesreservoir simulation modelSWAT modelEl Niño/Southern OscillationCORDEX-Africahedging policymulti-objective optimization NSGA IIreservoirgeneral regression neural networkflood controlJingjiang River Reachcatchment modellingNi Guanghengauth1287660Zhang ChiauthFu GuangtaoauthBOOK9910346678403321Adaptive Catchment Management and Reservoir Operation3020268UNINA