Assefa Adane scite author profile

Assefa Adane

4Publications

4Citation Statements Received

19Citation Statements Given

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Effects of Treatment Application Rates (FYM and Gypsum) and Pore Volume Leaching Water on Exchangeable Sodium and Saturated Hydraulic Conductivity of Saline Sodic Soils of Babile District, Eastern Lowlands of Ethiopia

Adane¹

2015

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Incubation and laboratory experiments were conducted to evaluate the effect of FYM, gypsum and pore volume (PV) of water on ESP and Ksat of saline sodic soils. Factorial combination of three rates of FYM (0, 20 and 30 ton ha -1 ), four rat of gypsum (0, 50, 75, 100 and 125% GR) and three PV of water (1.0, 2.0, 3.0 and 4.0) were applied into the soil in complete randomized design with three replications. The soils were incubated using a plastic pot for a week followed by leaching with various PV of water. The data obtained subjected to analysis of variance. Results indicated that sole application of gypsum at different rates and their combination with FYM significantly decreased the ESP of the soil compared to FYM and the control. However, larger exchangeable Na released and then decreased the soil ESP with the use of combined FYM and gypsum treatments than sole application of gypsum for every increment in applied PV of leaching water. Similarly, the Ksat of soils was higher in combined than sole application of FYM and gypsum for all applied fixed PV of leaching water. On the other hand, increasing sole application of FYM and gypsum increased the Ksat of soil and the numerical values were significantly (P < 0.05) higher than the control but lower than the different combinations. Though, the Ksat of soil increased with increasing rates of applied FYM and gypsum; these values showed decreasing trend as PV of leaching water increased. In general, the interaction effects of different levels of FYM, gypsum and PV of water were significant (P < 0.05) in improving the ESP and Ksat of the saline sodic soils of Bisidimo. In conclusion, among the various treatments considered, combinations of 20 tons FYM ha -1 with gypsum (50, 75 and 100% GR) rates and leaching up to three PV of water are adequate to reclaim saline sodic soil to permissible limit and then theses combinations are recommended for resource poor farmers. The experiment was laid down in a completely randomized design with two replicates.

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Effect of <i>Eucalyptus camaldulensis</i> stand Conversion into Crop Production on Growth and Yield of Maize: the case of Koga Watershed Areas in northwestern Ethiopia

Tadele¹,

Adane²,

Teketay³

2014

mejs

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Determinants to Performance of Multipurpose Agricultural Cooperatives (MPACs): A Case of Gondar Zuria District, North Gondar, Ethiopia

Adane¹,

Melak²,

Mekuria³

2020

IJEBO

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Response of Maize to FYM, Gypsum and Pore Volume of Leaching Water in Saline Sodic Soil of Bisidimo, Babile District, Eastern Lowlands of Ethiopia

Adane¹

2015

AFF

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A green house experiment was conducted during Oct-Dec2012 to evaluate the efficiency of selected treatment combinations of FYM, gypsum and pore volume (PV) of leaching water on growth parameters (number of leaves, plant height, leaf area, fresh and dry biomass) of maize (Zea mays L.) crop. Treatments included the combinations of the two rates (0 and 20 t ha -1 ) of FYM, four rates of gypsum (0, 50, 75 and 100% gypsum requirement, GR) and three (1.0, 2.0 and 3.0) PV of leaching water arranged in complete randomized design with three replications. The results indicated that growth parameters of maize showed significant (p < 0.005) response to combined application of treatments. Similarly, the responses of growth parameters to combined application of gypsum and PV of water were also significant. Maximum growth parameters were observed in the plots that received 20 t FYM ha -1 + 100% GR + 3.0 PV of water compared to other combinations. Results also indicated that increasing the GR by 25% showed consistent improvement in crop growth parameters across each PV of leaching water. Analysis of the post harvest soils showed that soils received combined applications of treatments decreased pH, ECe and SAR of saline sodic soils. However, significantly (p < 0.01) higher decrease in pH, ECe and SAR were recorded in the combined application of 20 t FYM ha -1 + 100% GR + 3.0 PV of water. Combination of 20 t FYM ha -1 + 50% GR + 3.0 PV of leaching water reduced pH, ECe and SAR by 7.5, 23.5 and 10.0% over the control, respectively. This combination is deemed suitable for improving soil properties to agriculturally permissible limits and for optimal maize crop production. Hence, this combination can be recommended for the production of economically optimal maize crop production in saline sodic soil of Baile low lands.

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Assefa Adane

Effects of Treatment Application Rates (FYM and Gypsum) and Pore Volume Leaching Water on Exchangeable Sodium and Saturated Hydraulic Conductivity of Saline Sodic Soils of Babile District, Eastern Lowlands of Ethiopia

Effect of <i>Eucalyptus camaldulensis</i> stand Conversion into Crop Production on Growth and Yield of Maize: the case of Koga Watershed Areas in northwestern Ethiopia

Determinants to Performance of Multipurpose Agricultural Cooperatives (MPACs): A Case of Gondar Zuria District, North Gondar, Ethiopia

Response of Maize to FYM, Gypsum and Pore Volume of Leaching Water in Saline Sodic Soil of Bisidimo, Babile District, Eastern Lowlands of Ethiopia

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