Seifu A. Tilahun scite author profile

Seifu A. Tilahun

5Publications

25Citation Statements Received

20Citation Statements Given

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Bahir Dar University, Texas A&M University

Publications

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Morphological dynamics of gully systems in the sub-humid Ethiopian Highlands: The Debre Mawi watershed

Zegeye¹,

Langendoen²,

Stoof³

et al. 2016

Preprint

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Abstract. Gully expansion in the Ethiopian highlands dissects vital agricultural lands with the eroded materials adversely impacting downstream resources, for example as they accumulate in reservoirs. While gully expansion and rehabilitation have been more extensively researched in the semi-arid region of Ethiopia, few studies have been conducted in the (sub) humid region. For that reason, we assessed the severity of gully erosion and identified gully-forming processes in 13 selected permanent gullies in the sub-humid Debre Mawi watershed, 30 km south of Lake Tana, Ethiopia. In addition, the rate of expansion of the entire drainage network in the watershed was determined using 50 cm resolution aerial imagery flown in 2005 and 2013. More than 0.7 million tons (or 155 t ha−1 yr−1) of soil was lost during this period due to actively expanding gullies. The net gully area in the entire watershed increased more than 4-fold from 4.5 ha in 2005 to 20.4 ha in 2013 (> 3 % of the watershed area), indicating the growing severity of gully erosion and hence land degradation in the watershed. Soil losses were caused by upslope migrating gully heads through a combination of gully head collapse and removal of the failed material by runoff. Collapse of gully banks and retreat of headcuts was most severe in locations where elevated groundwater tables saturated gully head and bank soils, destabilizing the soils by decreasing their shear strength. Elevated groundwater tables were thereby the most important cause of gully expansion. Additional factors that strongly relate to bank collapse were the height of the gully head and the size of the drainage area. Soil physical properties (e.g., texture and bulk density) only had minor effects. Conservation practices that address the most important controlling factors are principally the most effective ways of protecting gully development and expansion. These consist of lowering water table elevation and regrading the gully head and sidewall to reduce the occurrence of gravity-induced mass failures. Planting suitable vegetation on the gully face and around the boundary can also decrease the risk of bank failure by reducing pore-water pressures and reinforcing the soil. Best management practices affecting the runoff contributing catchment may decrease the overland runoff-induced gully head erosion.

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Quantifying flow rate using stage-discharge rating curve and Scs runoff equation on upland watershed of Lake Tana Sub Basin, Ethiopia

Kumlachew

Tilahun

Cherie

et al. 2023

Sustain. Water Resour. Manag.

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Yield, water productivity and nutrient balances under different water management technologies of irrigated wheat in Ethiopia

Enyew

Belay

Schmitter³

et al. 2022

PLOS Water

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Development of irrigation technologies and agricultural water management systems holds significant potential to improve productivity and reduce vulnerability to climate change. Our study dealt with the behavior of irrigation water productivity, partial nutrient balance and grain yield of wheat under the application of different irrigation water management technologies in the Koga irrigation scheme in Ethiopia. For our analysis, we considered three nutrient fluxes entering and leaving farmers’ fields. Our experimental design had three irrigation blocks with three different irrigation water management practices (wetting front detector, Chameleon soil moisture sensor and farmers’ practice as control) on three farm plots replicated in each block. To calculate irrigation water productivity and grain yield of wheat, the amount of irrigation water applied and the agronomic attributes of wheat yield were recorded during the irrigation period. Further, three input and output variables were considered to determine the partial nutrient balances of nitrogen (N), phosphorus (P) and potassium (K). The results showed that the amount of irrigation water used was 33% and 22% less with a wetting front detector and Chameleon sensors, respectively, compared to the farmers’ practice. The wetting front detector (WFD) and Chameleon sensor (CHS) treatments gave a 20% and 15.8% grain yield increment, respectively, compared to the farmers’ practice plot. The partial nutrient balances of N and K were negative for the wetting front detector and chameleon sensor practices while it was positive for P in the control (farmers’ practice) treatment. We conclude that irrigation water management with appropriate technologies can improve yield, water productivity and the nutrient utilization. However, further research needs to be conducted on the suitability of irrigation management technologies to achieve full nutrient balance.

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Supplementary material to "Morphological dynamics of gully systems in the sub-humid Ethiopian Highlands: The Debre Mawi watershed"

Zegeye¹,

Langendoen²,

Stoof³

et al. 2016

Preprint

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Correction to: Dynamics of Eutrophication and Its Linkage to Water Hyacinth on Lake Tana, Upper Blue Nile, Ethiopia: Understanding Land-Lake Interaction and Process

Dersseh¹,

Ateka²,

Zimale³

et al. 2020

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Seifu A. Tilahun

Morphological dynamics of gully systems in the sub-humid Ethiopian Highlands: The Debre Mawi watershed

Quantifying flow rate using stage-discharge rating curve and Scs runoff equation on upland watershed of Lake Tana Sub Basin, Ethiopia

Yield, water productivity and nutrient balances under different water management technologies of irrigated wheat in Ethiopia

Supplementary material to "Morphological dynamics of gully systems in the sub-humid Ethiopian Highlands: The Debre Mawi watershed"

Correction to: Dynamics of Eutrophication and Its Linkage to Water Hyacinth on Lake Tana, Upper Blue Nile, Ethiopia: Understanding Land-Lake Interaction and Process

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Seifu A. Tilahun

Morphological dynamics of gully systems in the sub-humid Ethiopian Highlands: The Debre Mawi watershed

Quantifying flow rate using stage-discharge rating curve and Scs runoff equation on upland watershed of Lake Tana Sub Basin, Ethiopia

Yield, water productivity and nutrient balances under different water management technologies of irrigated wheat in Ethiopia

Supplementary material to &quot;Morphological dynamics of gully systems in the sub-humid Ethiopian Highlands: The Debre Mawi watershed&quot;

Correction to: Dynamics of Eutrophication and Its Linkage to Water Hyacinth on Lake Tana, Upper Blue Nile, Ethiopia: Understanding Land-Lake Interaction and Process

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Supplementary material to "Morphological dynamics of gully systems in the sub-humid Ethiopian Highlands: The Debre Mawi watershed"