Book contents
- Runoff Prediction in Ungauged Basins
- Runoff Prediction in Ungauged Basins
- Copyright page
- Contents
- Contributors
- Foreword
- Preface
- Abstract
- 1 Introduction
- 2 A synthesis framework for runoff prediction in ungauged basins
- 3 A data acquisition framework for runoff prediction in ungauged basins
- 4 Process realism: flow paths and storage
- 5 Prediction of annual runoff in ungauged basins
- 6 Prediction of seasonal runoff in ungauged basins
- 7 Prediction of flow duration curves in ungauged basins
- 8 Prediction of low flows in ungauged basins
- 9 Prediction of floods in ungauged basins
- 10 Prediction of runoff hydrographs in ungauged basins
- 11 PUB in practice: case studies
- 11.1 Predictions in Ungauged Basins in a societal context
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Methods
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Study area and data
- Method
- Results
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of study area
- Method
- Results
- Discussion
- 11.2 Hydrological insights from long-term runoff patterns across Krishna Basin, India
- 11.3 Predicting mean annual runoff across Huangshui Basin, China
- 11.4 An index approach to mapping annual runoff in a Siberian catchment, Russia
- 11.5 Predicting spatial patterns of inter-annual runoff variability in the Canadian Prairies
- 11.6 Seasonal flow prediction with uncertainty in South Africa and Lesotho
- 11.7 Setting environmental flow targets in north-east USA
- 11.8 Continuous simulation of low flows for hydropower development in Ontario, Canada
- 11.9 Estimating flow duration curves for hydropower development in central Italy
- 11.10 Implementing the EU flood directive in Austria
- 11.11 Revision of Australian Rainfall and Runoff for improved flood predictions
- 11.12 Understanding flow paths for hydrograph prediction in an Andean catchment, Chile
- 11.13 Frequency of runoff occurrence in ephemeral catchments in France
- 11.14 Overcoming data limitations for hydrograph prediction, Luangwa Basin, Zambia
- 11.15 Remotely sensed lake levels to assist runoff modelling in Ghana
- 11.16 Model enhancements for urban runoff predictions in the south-west USA
- 11.17 Runoff predictions to help meet Millennium Development Goals in Zimbabwe
- 11.18 Runoff predictions in support of the National Water Audit, Australia
- 11.19 Distributed runoff predictions in the Mekong River basin
- 11.20 Implementing the EU Water Framework Directive in Sweden
- 11.21 Summary of key points
- 12 Outcomes of synthesis
- 13 Recommendations
- Appendix Summary of studies used in the comparative assessments
- References
- Index
11.2 - Hydrological insights from long-term runoff patterns across Krishna Basin, India
from 11 - PUB in practice: case studies
Published online by Cambridge University Press: 05 April 2013
- Runoff Prediction in Ungauged Basins
- Runoff Prediction in Ungauged Basins
- Copyright page
- Contents
- Contributors
- Foreword
- Preface
- Abstract
- 1 Introduction
- 2 A synthesis framework for runoff prediction in ungauged basins
- 3 A data acquisition framework for runoff prediction in ungauged basins
- 4 Process realism: flow paths and storage
- 5 Prediction of annual runoff in ungauged basins
- 6 Prediction of seasonal runoff in ungauged basins
- 7 Prediction of flow duration curves in ungauged basins
- 8 Prediction of low flows in ungauged basins
- 9 Prediction of floods in ungauged basins
- 10 Prediction of runoff hydrographs in ungauged basins
- 11 PUB in practice: case studies
- 11.1 Predictions in Ungauged Basins in a societal context
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Methods
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Study area and data
- Method
- Results
- The issue from societal and hydrological perspectives
- Description of the study area
- Method
- Results
- Discussion
- The issue from societal and hydrological perspectives
- Description of study area
- Method
- Results
- Discussion
- 11.2 Hydrological insights from long-term runoff patterns across Krishna Basin, India
- 11.3 Predicting mean annual runoff across Huangshui Basin, China
- 11.4 An index approach to mapping annual runoff in a Siberian catchment, Russia
- 11.5 Predicting spatial patterns of inter-annual runoff variability in the Canadian Prairies
- 11.6 Seasonal flow prediction with uncertainty in South Africa and Lesotho
- 11.7 Setting environmental flow targets in north-east USA
- 11.8 Continuous simulation of low flows for hydropower development in Ontario, Canada
- 11.9 Estimating flow duration curves for hydropower development in central Italy
- 11.10 Implementing the EU flood directive in Austria
- 11.11 Revision of Australian Rainfall and Runoff for improved flood predictions
- 11.12 Understanding flow paths for hydrograph prediction in an Andean catchment, Chile
- 11.13 Frequency of runoff occurrence in ephemeral catchments in France
- 11.14 Overcoming data limitations for hydrograph prediction, Luangwa Basin, Zambia
- 11.15 Remotely sensed lake levels to assist runoff modelling in Ghana
- 11.16 Model enhancements for urban runoff predictions in the south-west USA
- 11.17 Runoff predictions to help meet Millennium Development Goals in Zimbabwe
- 11.18 Runoff predictions in support of the National Water Audit, Australia
- 11.19 Distributed runoff predictions in the Mekong River basin
- 11.20 Implementing the EU Water Framework Directive in Sweden
- 11.21 Summary of key points
- 12 Outcomes of synthesis
- 13 Recommendations
- Appendix Summary of studies used in the comparative assessments
- References
- Index
- Type
- Chapter
- Information
- Runoff Prediction in Ungauged BasinsSynthesis across Processes, Places and ScalesPublisher: Cambridge University PressPrint publication year: 2013
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