Research Article
Integrated Use of Biochar and Lime Enhances Soil Properties and Maize Yield in Acidic Soil of Jimma Zone, Southwestern Ethiopia
Issue:
Volume 13, Issue 1, March 2025
Pages:
1-8
Received:
18 December 2024
Accepted:
31 December 2024
Published:
16 January 2025
DOI:
10.11648/j.sjac.20251301.11
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Abstract: Due to continuous cultivation high soil acidity, low nutrient inputs and soil fertility depletion has been a major threat to maize crop production and productivity in Jimma area, Southwestern Ethiopia. Recently, biochar has emerged as a soil amendment to improve and maintain soil health and enhance soil carbon sequestration. Thus, the experiment was conducted in 2017/18 and 2018/19 cropping seasons with the objective of generating information on the effects of Bio-char and their interactions with lime and inorganic fertilizers on crop productivity and properties of acid soil at Kersa district, Jimma zone, Southwestern Ethiopia. Randomized Complete Block Design with three replications was used. The treatment design included: negative control (without any input), Recommended NP, Bio char at a rate of 10 t/ha (it is the recommended?), Bio char (10 t/ha) + Recommended NP, 50% Bio char (5 t/ha) + 50% Recommended NP, Bio char (10 t/ha) +Recommended lime (1.5 X EA), 50% Bio char +50% Recommended lime (1.5 X EA), Recommended NP + Recommended lime (1.5 X EA), and 50% Bio char + 50% Recommended NP + 50% Recommended lime. The biochar was applied one month before sowing and mixed thoroughly in the upper 15 cm soil depth. The lime (CaCO3) treatments were broadcasted by hand and mixed thoroughly with soils one month before planting of the test crop. During the second season, the lime and Biochar treatments were not applied. The recommended NPSB fertilizer was applied based on the recommendation for maize crop to plot that receive NPSB fertilizer. The result of the experiment revealed that application of biochar alone and biochar with lime increased soil pH, available p, total N, and OC and decreased exchangeable acidity. The maximum mean grain yield of 6831.8 kg/ha was recorded from Bio char + Recommended NP plots. However, the treatment with the highest MRR (marginal rate of return) of 2868% was 50% Bio char + 50% Rec. NP + 50% Rec. lime with net benefit of (63994 ETB ha-1).
Abstract: Due to continuous cultivation high soil acidity, low nutrient inputs and soil fertility depletion has been a major threat to maize crop production and productivity in Jimma area, Southwestern Ethiopia. Recently, biochar has emerged as a soil amendment to improve and maintain soil health and enhance soil carbon sequestration. Thus, the experiment wa...
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Research Article
Evaluation of Organic Liquid Fertilizer “ECO-GREEN” on the Yield and Yield Components of Food Barley at Sinana District, Bale Zone, Oromia, Southeastern Ethiopia
Tilahun Chibsa Birru*,
Daniel Abageja
Issue:
Volume 13, Issue 1, March 2025
Pages:
8-14
Received:
20 November 2024
Accepted:
23 December 2024
Published:
16 January 2025
DOI:
10.11648/j.sjac.20251301.12
Downloads:
Views:
Abstract: Organic fertilizers improve soil structure by enriching it, boosting productivity, and simultaneously preventing erosion. Nitrogen and phosphorus are key limiting nutrients in many soils. In the highland vertisols of Ethiopia, nutrient deficiencies, particularly of nitrogen and phosphorus, are common due to practices like monocropping and nutrient leaching. This study evaluates the effect of the organic liquid fertilizer "ECO-GREEN" on the yield and yield components of food barley in Sinana District, Bale Zone, Southeastern Ethiopia. The experiment, conducted during the 2018/2019 growing season, included six different levels of ECO-GREEN application (ranging from 0% to 5% of fertilizer diluted in water) and was carried out in three different locations: Robe Area, Jafera, and Sambitu. The results demonstrated that grain yield, plant height, spike length, seeds per spike, number of tillers, and biomass yield all significantly increased with the application of ECO-GREEN fertilizer, with the highest yield observed at 60 L/ha. However, higher fertilizer levels (80 L/ha and 100 L/ha) did not show further significant yield improvements. This study highlights the importance of optimal fertilizer application for improving barley production under the highland conditions of Ethiopia.
Abstract: Organic fertilizers improve soil structure by enriching it, boosting productivity, and simultaneously preventing erosion. Nitrogen and phosphorus are key limiting nutrients in many soils. In the highland vertisols of Ethiopia, nutrient deficiencies, particularly of nitrogen and phosphorus, are common due to practices like monocropping and nutrient ...
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Ewnetu Teshale
