Analyzing the contribution of gully erosion to land degradation in the upper Blue Nile basin, Ethiopia

Analyzing the contribution of gully erosion to land degradation in the upper Blue Nile basin, Ethiopia

Soil erosion has become a worldwide problem that threatens the environment and the future of economic and social development. The purpose of this study is to investigate the contribution of steep slopes and gullies to erosion in high precipitation tropical areas of the Ethiopian highlands. A trapezo...

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Veröffentlicht in:Journal of environmental management 2023-10, Vol.344, p.118378-118378, Article 118378
Hauptverfasser: Yibeltal, Mesenbet, Tsunekawa, Atsushi, Haregeweyn, Nigussie, Adgo, Enyew, Meshesha, Derege Tsegaye, Zegeye, Assefa D., Andualem, Tesfa Gebrie, Oh, Se Jin, Lee, Jong Cheol, Kang, Min Woo, Lee, Sang Soo
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Ethiopia
Hysteresis
Runoff
Sediment yield
Tropical humid area
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container_start_page 118378
container_title Journal of environmental management
container_volume 344
creator Yibeltal, Mesenbet
Tsunekawa, Atsushi
Haregeweyn, Nigussie
Adgo, Enyew
Meshesha, Derege Tsegaye
Zegeye, Assefa D.
Andualem, Tesfa Gebrie
Oh, Se Jin
Lee, Jong Cheol
Kang, Min Woo
Lee, Sang Soo
description Soil erosion has become a worldwide problem that threatens the environment and the future of economic and social development. The purpose of this study is to investigate the contribution of steep slopes and gullies to erosion in high precipitation tropical areas of the Ethiopian highlands. A trapezoidal weir was installed at the head and tail of the gully to monitor the discharge and sediment concentration from 2017 to 2020. Sediment yield and runoff are heavily influenced by the amount and timing of precipitation. The coefficients of variation for total sediment loads ranged from 65.1 to 96.1% at the head and 17.1–78.1% at the tail; the lowest coefficients were found in 2018 and the highest in 2020. Furthermore, 85% of the sediment at the tail comes from the gully, according to the four-year sediment budget. Further, a hysteretic analysis of suspended sediment concentration and runoff revealed that hilly sediment sources are limited (clockwise), then sediment can be transported through the gully via bank failures (counterclockwise). Study findings contributed to a classification of runoff patterns and an investigation of suspended sediment dynamics. In the gully tail, sediment yield was higher than in the head, suggesting gully sediment contributed more to sediment yield than large upland catchments. As a result of the study, we have been able to develop practical recommendations for managing gully erosion in the future. •In northwest Ethiopia, gully erosion is the main cause of land degradation.•Gully erosion accounted for more than 85% of the total soil loss.•In four years of runoff and sediment data, different hysteretic loop types were identified.•Sediment yields varied consistently with measurement years.•Identifying sediment source areas can assist with gully management.
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Study findings contributed to a classification of runoff patterns and an investigation of suspended sediment dynamics. In the gully tail, sediment yield was higher than in the head, suggesting gully sediment contributed more to sediment yield than large upland catchments. 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Study findings contributed to a classification of runoff patterns and an investigation of suspended sediment dynamics. In the gully tail, sediment yield was higher than in the head, suggesting gully sediment contributed more to sediment yield than large upland catchments. 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subjects Ethiopia
Hysteresis
Runoff
Sediment yield
Tropical humid area
title Analyzing the contribution of gully erosion to land degradation in the upper Blue Nile basin, Ethiopia
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