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Sustainable water management : new perspectives, design, and practices /
This book takes a new and critical look at the underlying factors that affect the management of water resources, and its content is guided by three important visions. With the "theory" vision, the existing knowledge system for IWRM is reorganized in order to supplement new theories related...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Singapore :
Springer,
2016.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Preface: A New Horizon of Sustainable Water Management; Contents; Part I: New Perspectives; Chapter 1: New Perspectives: Reconsideration ofÏWRM fromẗheÈViewpoint ofÈDesign Science; 1.1 Introduction; 1.2 Water Crisis andẄater Security; 1.2.1 Aspects ofẗheÈContemporary Water Issues; 1.2.2 Public Awareness ofẗheẄater Crisis; 1.2.3 Water Environmental Security; 1.2.4 Water Security forÈDisaster; 1.3 Possibility ofẗheÈResurrection ofÏWRM; 1.3.1 Background ofÏWRM; 1.3.2 The Definition ofÏWRM; 1.3.3 The Limits ofẗheÏWRM; 1.4 Development ofÏWRM Toward aÈSustainable Society.
- 1.4.1 Construction ofäÈSustainable Society1.4.2 Origin ofẗheÈSustainable Society; 1.4.3 Objectives ofäÈSustainable Society; 1.4.4 Local andÈGlobal Sustainability; 1.4.5 Water Sustainability; 1.5 Evaluation ofẄater Resources Development Projects; 1.5.1 Objective ofẗheẄater Resources Development Projects; 1.5.2 Sustainability Evaluation ofẗheẄater Resources Development Project; 1.6 New Perspectives ofÏWRM; 1.6.1 New Trends ofÏWRM; 1.6.2 Sustainable Development Goals andẄater; 1.6.3 New Paradigm ofÏWRM; 1.7 Conclusion: Possibility ofÈPolicy Science asÈDesign Science; References.
- Part II: Design: Designing Water Resources Management with Collaborative Activities of MultistakeholdersChapter 2: Participatory Approaches toËnvironmental Management: Future Design forẄater Resources Management; 2.1 Introduction; 2.2 Integration andẗheÈSupporting Stationarity Principle; 2.3 Deadlock onẗheÏntegration Principle: TheÈCase ofẗheÈDiscontinued Niu Dam Plan inÈJapan; 2.4 Conclusion; References; Chapter 3: Environmental Assessment inÈCollaboration withÈLocal Residents; 3.1 Introduction; 3.2 Conceptual Approaches; 3.3 Description ofẗheÈSaba Watershed.
- 3.3.1 Geography andÈPopulation3.3.2 Land Use andÈSoil Types; 3.3.3 Rivers andÏrrigation; 3.3.4 Subak andÈPaddy Fields; 3.4 Climate Conditions inẄatershed Scale; 3.5 Climate Conditions inẗheÈField Scale; 3.6 Water Balance inẗheÈField Scale; 3.7 Drought Pattern; 3.8 Irrigation Water Requirement; 3.9 Conclusion; References; Chapter 4: Local-Level Water Conservation Assessment in the Upstream Watershed Based on Land-Use Scenarios; 4.1 Introduction; 4.2 Targeted Region andËxperimental Details; 4.2.1 The Saba River Watershed andẗheÜpstream Sub-watersheds.
- 4.2.2 Meteorological andḦydrological Measurements4.3 Hydrological Traits inẗheÈTwo Sub-watersheds inẗheÜpstream Saba River Watershed; 4.3.1 Water Balance inẗheÈTwo Upstream Sub-watersheds; 4.3.2 Comparison ofÏntake Rates BetweenÈLand Uses: Coffee Plantation, Clove Plantation, andÈNatural Forest; 4.4 Application ofäÈDistributed Model forËstimating Discharge inẗheÈTitab Sub-watershed; 4.4.1 Basic Concept ofẗheÏCHARM/PWRI Distributed Hydrological Model; 4.4.2 Spatial Data Preparation; 4.4.3 Parameter forẗheÈModel inẗheÈTitab Sub-watershed.