Pub Date : 2018-07-20DOI: 10.15580/gjsspn.2018.2.051518072
Mosissa Fekadu
This review paper tries to put together soil acidity management research based evidences generated recently. In the context of agricultural problem soils, acid soils are soils in which acidity dominates the problems related to agricultural land use. Soil acidity problems are increasing in the highland areas of Ethiopia. Application of lime coupled with fertilizer improves the productivity of crops in acid affected soils. In Nedjo condition, lime level 5 t ha -1 with 69 kg ha -1 phosphorus gave best yield (1346.2 kg ha -1 ) and (1635.5 kg ha -1 ) of finger millet and teff respectively. Similarly, yield of faba bean was obtained by applications of 16 .5 (t ha -1 ) and 13(t ha -1 ) of lime along with 30 kg ha -1 P fertilizer at Bedi and Emdibir respectively. Application of 16.5 t ha -1 lime with 30 P (kg ha -1 ) gave 212% yield increment over the control that has no lime but 30 P (kg ha -1 ). Integrated reclamation approach centring lime-fertilizer and soil nutrients interaction is vital to establish cost effective and sustainable nutrient management of this soil. 50% FYM + 50% NP + 50% lime treatment gave significant yield and yield component of teff at Nedjo testing site, this result showed that proper knowledge and enhanced use of integrated soil fertility management technologies such as combined use of organic and inorganic fertilizers in the presence of a soil- conditioner lime are vital in improving and sustaining crop production. From an experiment conducted to evaluate the effectiveness of limes produced at different locations in Ethiopia no statistical yield difference was observed, and this implies that both lime produced at Senkele (Oromia region) and Dejen (Amhara region) can successfully answer their regional lime needs. When Senkele lime, Dejen lime and Ca(OH)2 from Ghion gas factory were compared with Awash calcite and Awash dolomite, these two Awash products were greatly preferred. The reason might be mainly from the material they are processed and as well the technology under which they were crushed. Research results revealed that in CASCAPE (Capacity building for scaling up of evidence–based best practices in agricultural production in Ethiopia) South, application of 1800 kg ha -1 lime with recommended fertilizer rate gave the highest yield (1367 kg ha -1 ) with a 150% yield advantage over the control. In Amhara, yield showed significant variation among treatments where both lime-applied treatments (2050 kg ha -1 lime and 1925 kg ha -1 lime) gave grain yields of 3648 kg ha -1 and 3643 kg ha -1 , respectively. This was over 50% yield advantage over the control. Keywords: soil acidity, nitosol, lime, pH, phosphorus, exchangeable acidity
{"title":"Progress of Soil Acidity Management Research in Ethiopia","authors":"Mosissa Fekadu","doi":"10.15580/gjsspn.2018.2.051518072","DOIUrl":"https://doi.org/10.15580/gjsspn.2018.2.051518072","url":null,"abstract":"This review paper tries to put together soil acidity management research based evidences generated recently. In the context of agricultural problem soils, acid soils are soils in which acidity dominates the problems related to agricultural land use. Soil acidity problems are increasing in the highland areas of Ethiopia. Application of lime coupled with fertilizer improves the productivity of crops in acid affected soils. In Nedjo condition, lime level 5 t ha -1 with 69 kg ha -1 phosphorus gave best yield (1346.2 kg ha -1 ) and (1635.5 kg ha -1 ) of finger millet and teff respectively. Similarly, yield of faba bean was obtained by applications of 16 .5 (t ha -1 ) and 13(t ha -1 ) of lime along with 30 kg ha -1 P fertilizer at Bedi and Emdibir respectively. Application of 16.5 t ha -1 lime with 30 P (kg ha -1 ) gave 212% yield increment over the control that has no lime but 30 P (kg ha -1 ). Integrated reclamation approach centring lime-fertilizer and soil nutrients interaction is vital to establish cost effective and sustainable nutrient management of this soil. 50% FYM + 50% NP + 50% lime treatment gave significant yield and yield component of teff at Nedjo testing site, this result showed that proper knowledge and enhanced use of integrated soil fertility management technologies such as combined use of organic and inorganic fertilizers in the presence of a soil- conditioner lime are vital in improving and sustaining crop production. From an experiment conducted to evaluate the effectiveness of limes produced at different locations in Ethiopia no statistical yield difference was observed, and this implies that both lime produced at Senkele (Oromia region) and Dejen (Amhara region) can successfully answer their regional lime needs. When Senkele lime, Dejen lime and Ca(OH)2 from Ghion gas factory were compared with Awash calcite and Awash dolomite, these two Awash products were greatly preferred. The reason might be mainly from the material they are processed and as well the technology under which they were crushed. Research results revealed that in CASCAPE (Capacity building for scaling up of evidence–based best practices in agricultural production in Ethiopia) South, application of 1800 kg ha -1 lime with recommended fertilizer rate gave the highest yield (1367 kg ha -1 ) with a 150% yield advantage over the control. In Amhara, yield showed significant variation among treatments where both lime-applied treatments (2050 kg ha -1 lime and 1925 kg ha -1 lime) gave grain yields of 3648 kg ha -1 and 3643 kg ha -1 , respectively. This was over 50% yield advantage over the control. Keywords: soil acidity, nitosol, lime, pH, phosphorus, exchangeable acidity","PeriodicalId":344235,"journal":{"name":"Greener Journal of Soil Science and Plant Nutrition","volume":"22 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2018-07-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"122436889","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2018-07-20DOI: 10.15580/GJSSPN.2018.2.022018026
G. Dereje, D. Alemu, Bekele Anbessa, Tigist Adisu
DOI: 10.15580/GJSSPN.2018.2.022018026 Soil test based phosphorous (P) calibration study was conducted on Soybean on Nitisols of farmers’ fields in Assosa Zone. The experiment was arranged in a randomized complete block design with six levels of phosphorous fertilizer (0, 5, 10, 15, 20 and 25 kg ha -1 ) with three replications. The results revealed substantial responses of Soybean to phosphorus fertilizer rates on plant height, pod numbers per plant and seed yield. Seed yield increased significantly from 1761 to 2300 kg ha -1
基于土壤试验的磷(P)定标研究在阿索萨地区农户农田土壤中进行大豆磷(P)定标研究。试验采用完全随机区组设计,施磷肥6个水平(0、5、10、15、20和25 kg ha -1), 3个重复。结果表明,施磷量对大豆株高、单株荚果数和籽粒产量有显著影响。种子产量从1761公斤增加到2300公斤
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