Understanding Catchment Processes and Hydrological Modelling in the Abay/Upper Blue Nile Basin, Ethiopia...

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Sirak Tekleab Gebrekristos

Understanding Catchment Processes and Hydrological Modelling in the Abay/Upper Blue Nile Basin, Ethiopia

Sirak Tekleab Gebrekristos

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English

CRC Press
27 September 2018

Landscape art & architecture; Hydrology & the hydrosphere

Series: IHE Delft PhD Thesis Series

The Abay / Upper Blue Nile basin contributes the largest share of discharge to the river Nile. However, the basin exhibits large spatio-temporal variability in rainfall and runoff. Moreover, human activities also impact hydrological processes through intensive agriculture, overgrazing and deforestation, which substantially affect the basin hydrology. Thus, understanding hydrological processes and hydro-climatic variables at various spatio-temporal scales is essential for sustainable management of water resources in the region.

This research investigates the hydrology of the basin in depth using a range of methods at various spatio-temporal scales. The methods include long-term trend analysis of hydroclimatic variables, hydrologic responses analysis of land cover change, stable isotope techniques and process based rainfallrunoff modelling. A combination of field investigations with new measurements of precipitation, water levels and stable isotopes as well as existing hydro-climatic data offered gaining new insights about runoff generation processes in headwater catchments. The use of rainfall-runoff modelling in two meso-scale catchments of the Abay basin depict that a single model structure in a lumped way for the entire Abay basin cannot represent all the dominant hydrological processes. The results of the different approaches demonstrated the potential of the methods to better understand the basin hydrology in a data scarce region.

By: Sirak Tekleab Gebrekristos
Imprint: CRC Press
Country of Publication: United Kingdom
Dimensions: Height: 246mm, Width: 174mm,
Weight: 453g
ISBN: 9781138373303
ISBN 10: 1138373303
Series: IHE Delft PhD Thesis Series
Pages: 188
Publication Date: 27 September 2018
Audience: College/higher education , Further / Higher Education
Format: Hardback
Publisher's Status: Active

1. Introduction 2. Study Area; the Abay/Upper Blue Nile Basin 3. Hydro-climatic Trends in the Abay/Upper Blue Nile Basin 4. Water Balance Modelling of the Upper Blue Nile Catchments Using a Top-down Approach 5. Hydrologic Responses to Land Cover Change: the Case of Jedeb Meso-scale Catchment, Abay/Upper Blue Nile Basin 6. Characterisation of Stable Isotopes to Identify Residence Times and Runoff Components in Two Meso-scale Catchments in the Abay/Upper Blue Nile Catchments 7. Catchment Modelling Through the Use of Stable Isotope Data and Field Observations in the Chemoga and Jedeb Meso-scale Catchments, Abay/Upper Blue Nile Basin, Ethiopia 8. Conclusions and Recommendations

Mr. Sirak Tekleab Gebrekristos is a lecturer at Hawassa University, Institute of Technology, Ethiopia. By profession he is a catchment hydrologist with an engineering background working extensively on planning and designing of water resources development projects. He has been involved in designing small scale irrigation development projects in Ethiopia. From 2008 to 2014, he has worked as PhD research fellow at UNESCO-IHE/TU-Delft, The Netherlands. During the course of his PhD, he studied the Abay/Upper Blue Nile basin hydrology at various spatio-temporal scales using a combination of different methods. Moreover, he has supervised MSc students and served as a reviewer for different international journals. Furthermore, he attended the course requirement for the Research School SENSE (Socio-economic and Natural Sciences of the Environment). Mr. Sirak published several articles in peer reviewed journals and presented his research outputs at different international conferences. His research interests include catchment processes understanding through modelling, stable isotopes for hydrological application, stochastic modelling, remote sensing application to water resources, water system analysis, surface water-groundwater interactions, climate change and water resources management.