Abstract
Volcanic highlands supply water to 40% of the world’s population. Soil degradation threatens this water supply. Studies on geohydrology that affect the effectiveness of land and water management (LWM) practices in reducing soil degradations are limited. To aid in the effectiveness of LWM practices, we conducted a field experiment in the Gomit watershed in the semihumid Ethiopian Highlands on the interaction of hydrogeology and LWM practices. We found that in a watershed with strongly faulted tertiary basalt, 30% of the rainfall was drained through faults to another basin. Consequently, the discharge at the outlet was less than half of that of other watersheds with quaternary basalts. Despite the high sediment concentration, i.e., around 15 g L−1, in the Gomit watershed, the sediment yield of less than 4 Mg ha−1 a−1 was below average for the agricultural watershed in Ethiopia because of the low runoff response. While some faults facilitated drainage, others acted as a barrier. Groundwater stored behind the barriers was used as a municipal potable water source. Since the effectiveness of LWM practices depends on the amount of erosion that can be prevented, considerations of country-wide prioritizing of investments in land and water management practices should include the geology of the watersheds.
Highlights
Mountainous volcanic highlands are complex hydrological systems that provide water to 40%of the world’s population in lower-lying areas [1,2,3,4]
In Ethiopia alone, 100 million people are living in the highlands
In addition acacia trees were associated with the faults (b)
Summary
Mountainous volcanic highlands are complex hydrological systems that provide water to 40%. Of the world’s population in lower-lying areas [1,2,3,4]. The Blue Nile, originating in the Ethiopian Highlands, is essential for the survival and well-being of the 130 million people living in. Sudan and Egypt [5]. Another example is the drainage basin of the Amazon river that starts in the. While maintaining a water supply for low-lying areas is important, the highlands themselves support the livelihood of millions of people. In Ethiopia alone, 100 million people are living in the highlands. Despite the critical role of mountainous volcanic highlands, a good understanding of their hydrology is lacking [6]. The water resources engineering practices that were developed in
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