1. Biohydrology of low flows in the humid Ethiopian highlands: The Gilgel Abay catchment
- Author
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Debebe L. Yilak, Adugnaw Tadesse, Seifu A. Tilahun, Tammo S. Steenhuis, Azalu A. Gessesse, Fasikaw A. Zimale, Temesgen Enku, Mamaru A. Moges, Meseret B. Addisie, and Mengiste Abate
- Subjects
Hydrology ,geography ,Irrigation ,education.field_of_study ,geography.geographical_feature_category ,Watershed ,Ecology ,Population ,Drainage basin ,Cell Biology ,Plant Science ,Biochemistry ,Eucalyptus ,Hydrology (agriculture) ,Genetics ,Environmental science ,Animal Science and Zoology ,Deterministic analysis ,Water quality ,education ,Molecular Biology ,Ecology, Evolution, Behavior and Systematics - Abstract
In Ethiopia the population is rapidly expanding. As a consequence the landscape is rapidly changing. Eucalyptus plantations are increasing and irrigation projects are implemented. The hydrological effects of the changing landscape on river (low) flows have not been well documented and therefore the amount of water available in the future might be over optimistic. The objective of this paper is to establish how low flows have been impacted by new developments in irrigation and by landscape change. For this paper, we choose the Gilgel Abay in the headwaters of the upper Blue Nile basin, since it has both good quality discharge data and it is located in the Tana Beles growth corridor. Numerical and statistical means were used to analyze the 25 years of available low flow data. We found a statistically significant decreasing trend (P < 0.00001) of low flow in the Gilgel Abay. From 1980’s to 1990’s the low flow decreased by 25% and from 1990’s to 2000’s the low flow was reduced by 46%. The deterministic analysis with the Parameter Efficient Distributed (PED) model supported the statistical findings and indicated that in the middle of the nineteen nineties, after irrigation projects and eucalyptus plantations increased greatly, the low flows decreased more rapidly.
- Published
- 2014