1st Edition
Space-time Variation of Hydrological Processes and Water Resources in Rwanda Focus on the Migina Catchment
Presenting the hydrological research carried out in the Migina catchment (260 km2), Southern Rwanda with the objective to explore the hydrological trends and climate linkages for catchments in Rwanda (26,338 km2), and to contribute to the understanding of dominant hydrological process interactions. Different Hydro-meteorological instrumentations have been installed for several months in the Migina catchment and measurements have been carried out. The trend analysis is based on Mann-Kendall (MK) test and Pettitt test on times series data varying from 30 to 56 years before 2000. The hydrometric data and modern tracer methods is used for hydrograph separation and show that subsurface runoff is dominating the total discharge even during rainy seasons at Cyihene-Kansi and Migina sub-catchments, respectively. Further, a semi-distributed conceptual hydrological model HEC-HMS is applied for assessing the spatio-temporal variation of water resources in the Migina catchment. The model results are compared with tracer based hydrograph separation results in terms of the runoff components. The model performed reasonably well in simulating the total flow volume, peak flow and timing as well as the portion of direct runoff and baseflow.
CHAPTER 1 INTRODUCTION
1.1. Background
1.2. Water resources in Rwanda
1.3. Hydroclimatic data availability in Rwanda
1.4. Data collection and management in Rwanda
1.5. Data reporting and sharing systems
1.6. Space-time variation of hydrological process
1.7. Hydrological modelling
1.8. Problem statement and objectives
1.9. Thesis outline
CHAPTER 2 METHODS AND MATERIALS
2.1. Introduction
2.2. Study area
2.3. Instrumentation
CHAPTER 3 STREAMFLOW TRENDS AND CLIMATE LINKAGES
3.1. Introduction
3.2. Data and methods
3.3. Results
3.4. Discussion of results
3.5. Conclusions
CHAPTER 4 IDENTIFICATION OF RUNOFF GENERATION PROCESSES USING HYDROMETRIC AND TRACER METHODS
4.1 Introduction
4.2 Data and methods
4.3 Results
4.4 Discussion
4.5 Conclusions
CHAPTER 5 PREDICTION OF RIVER PEAK DISCHARGE IN AN AGRICULTURAL CATCHMENT IN RWANDA
5.1. Introduction
5.2. Data collection and processing techniques
5.3. Results and discussions
5.4. Concluding remarks
CHAPTER 6 ASSESSMENT OF WATER RESOURCES AVAILABILITY IN A MESO-SCALE CATCHMENT USING CATCHMENT MODELLING AND THE RESULTS OF TRACER STUDIES
6.1. Introduction
6.2. Data and methods
6.3. Results and discussions
6.4. Concluding remarks
CHAPTER 7 CONCLUSIONS AND RECOMMENDATIONS
7.1. Summary of the main conclusions
7.2. Recommendations
Biography
Omar Munyaneza
