Biological Systems Engineering

 

The assessment of water resources in ungauged catchments in Rwanda

O.P. Abimbola, UNESCO-IHE Institute & University of Nebraska- Lincoln
J. Wenninger, UNESCO-IHE & Delft University
R. Venneker, UNESCO-IHE
A.R. Mittelstet, University of Nebraska-Lincoln

Document Type Article

2017 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license

Abstract

Study region: Rwanda is a landlocked country in Africa with precipitation ranging from 800 mm yr−1 in the east to 1500 mm yr−1 in high-altitude regions in the north and west. Study focus: Streamflow estimation is an important task that is required in water resource assessments due to its importance in planning, decision-making and economic development. In this study, streamflow characteristics of ungauged catchments in Rwanda were calculated using a regionalization approach based on climate similarity and stepwise multiple-regression analysis. One climatic homogeneous region was identified and datasets of nine gauged stations and general available catchment characteristics were used to develop non-transformed and log-transformed regression models. New hydrological insights for the region: Results of this study show that climate, physiography and land cover strongly influence the hydrology of catchments in Rwanda. Using leave-one-out cross validation, the log-transformed models were found to predict the flow parameters more suitably. These models can be used for estimating the flow parameters in ungauged catchments in Rwanda and the methodology can be applied in any other region, as long as sufficient and good quality streamflow data is available.