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Sustainability in the Development of Water Systems Management
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The concept of sustainability has been intensively used over the last decades since Brundtland´s report was published in 1987. This concept, due to its transversal, horizontal and interdisciplinary nature, can be used in many disciplines, scenarios, spatio-temporal dimensions and different circumstances. The intensive development in recent years of analytical techniques and tools based on disciplines such as artificial intelligence, machine learning, data mining, information theory and the Internet of Things, among others, has meant we are very well-placed for analysing the sustainability of water systems in a multiperspective way. Water systems management requires the most advanced approaches and tools for rigorously addressing all the dimensions involved in the sustainability of its development. Consequently, addressing the sustainability of water systems management may comprise physical (natural processes), chemical, socioeconomic, legal, institutional, infrastructure (engineering), political and cultural aspects, among others. This Special Issue welcomes general and specific contributions that address the sustainability of water systems management considering its development. Special interest will be given to those contributions that consider tradeoffs and/or integration between some of the aspects or disciplines that drive the sustainability of water systems in the context of their management and development.
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Keywords
- aquatic factors
- aquifer management
- artificial neural network (ANN)
- Artificial Neural Networks
- barbate river basin
- Bayesian networks
- biocalcarenites
- causal reasoning
- chemical oxygen demand (COD)
- citizen surveys
- Climate Change
- compound parameter
- concrete arch-dams
- Contamination
- deformation scenarios
- economic efficiency of industrial water use (ECEIW)
- environmental efficiency of industrial water use (ENEIW)
- geomorphometric parameters
- geospatial distribution
- GHGs
- GIS
- global non-radial directional distance function model (GNDDF)
- green use efficiency of industrial water (GUEIW)
- Groundwater
- History of engineering & technology
- Integrated Water Resources Management
- Irrigation
- multi-models
- Nitrogen
- Pollution
- predictive methods
- prioritization
- random forest
- Remote sensing
- rivers’ sustainability
- runoff
- runoff fractions
- Safety management
- South Korean urban industry
- spectral imaging
- stability scenarios
- sub-Saharan Africa
- sulfate
- suspended solids
- sustainability assessment
- Technology, engineering, agriculture
- Technology: general issues
- temporal dependence
- transition management
- unauthorized use
- uncertainty
- unmanned aerial vehicle
- wastewater treatment plant (WWTP)
- Water Governance
- water management
- Water quality
- water resource
- water safety plan
- water temperature
Links
DOI: 10.3390/books978-3-03943-203-5Editions