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Adaptive Catchment Management and Reservoir Operation

Adaptive Catchment Management and Reservoir Operation

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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.

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Keywords

  • ?-constrained method
  • accompanying progressive optimality algorithm
  • adaptive management
  • aftereffect
  • back propagation neural network
  • bitterling
  • cascade reservoirs
  • catchment modelling
  • Climate Change
  • CMIP3
  • CMIP5
  • CO2
  • CORDEX-Africa
  • costs and benefits
  • coupling model
  • dam
  • design and operation of the multipurpose reservoir
  • differential evolution algorithm
  • direct policy search
  • Discharge
  • Dokan Dam
  • downscaling
  • drinking water resources
  • dynamic programming with progressive optimality algorithm (DP-POA)
  • El Niño/Southern Oscillation
  • energy
  • environmental flow
  • Environmental Fluid Dynamics Code (EFDC) model
  • flood control
  • floodplain vertical shape index
  • flow regime
  • flushing efficiency
  • Game theory
  • general regression neural network
  • genetic algorithm
  • heating impact
  • HEC-ResPRM
  • hedging policy
  • Heihe River Basin
  • Heilongjiang
  • hydrology
  • hydropower stations
  • Indian Monsoon
  • integrated management
  • integrated supply system modeling
  • integrated surface water-groundwater model
  • inverted siphon
  • Irrigation
  • Jingjiang River Reach
  • Kappa distribution
  • Kurobe River
  • land and water resources
  • Langcang-Mekong River
  • lentic habitats
  • long distance water diversion
  • Markov chain
  • Miyun Reservoir
  • modeling
  • multi-agent of river basin
  • multi-objective model
  • multi-objective optimization NSGA II
  • multi-stage stochastic optimization
  • mussel
  • Narew River
  • natural flow regime
  • NPP
  • NSGA-II
  • Numerical Simulation
  • Nutrient Uptake
  • optimal flood control operation
  • optimal scheduling
  • optimization
  • parameter relation
  • parameterization
  • partial gauged basin
  • power function
  • protection zone
  • ratio curve
  • Real-time control
  • Reliability
  • reservoir
  • reservoir flushing
  • reservoir operation
  • reservoir simulation model
  • Reservoirs
  • resilience and robustness
  • reverse regulation
  • runoff
  • runoff response
  • scenario analysis
  • sea surface temperatures
  • seasonal rainfall
  • sediment flushing efficiency
  • sediment flushing of empty storage
  • sediment load
  • sediment management
  • sediment regime
  • sensitivity analysis
  • shaft spillway pipe
  • shortage ratio: Vulnerability
  • Siemianówka
  • simulation
  • South-to-North Water Transfer Project
  • stochastic dynamic programming
  • stochastic linear programming
  • suspended sediment concentration
  • SWAT
  • SWAT model
  • system dynamics
  • TB-MPC
  • Tekeze basin
  • the Huangshi Reservoir
  • the Jingjiang River Reach
  • the upper Yangtze River Basin
  • the Yangtze River
  • tropical reservoir
  • two-dimensional bed evolution model
  • uncertainty
  • ungauged basin
  • upper Chao Phraya River Basin
  • vertical profiles of concentration
  • vulnerability
  • water deficit
  • water energy
  • water environmental capacity (WEC)
  • water resources allocation
  • Yangtze River

Links

DOI: 10.3390/books978-3-03897-739-1

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