Browsing by Author "Ewusi-Mensah Nana"

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    Combined use of millet glume-derived compost and mineral fertilizer enhances soil microbial biomass and pearl millet yields in a low-input millet cropping system in Niger
    (Taylor & Francis, 2019) Issoufa Bachir Bounou; Ibrahim Ali; Abaidoo R. C; Ewusi-Mensah Nana
    A two-year field experiment was conducted in Niger to explore the effects of integrated use of millet glume-derived compost (MGD-Compost) and NP fertilizer on soil microbial biomass carbon (Cmic), nitrogen (Nmic) and millet yields. Three compost rates (3000 kg ha−11500 kg ha−1 and 0 kg ha−1) and three NP fertilizer rates (100%, 50% and 0% of recommended NP fertilizer) were arranged in a factorial experiment organized in a randomized com plete block design with three replications. Combined application of com post and NP fertilizer induced a synergistic effect on Cmic and Nmic. Compost application increased millet grain yield from 59% to 91% compared to control. Combined application of compost and NP fertilizer increased millet grain yields from 57% to 70% in 2013 and from 36% to 82% in 2014 compared to sole application of mineral fertilizer. Agronomic efficiency (AE) of nitrogen values increased by 3.7 and 2.3 times than those of sole NP fertilizer application in 2013 and 2014, respectively. Phosphorus AE was 1.6 times higher than that of the sole application of NP fertilizer. These findings indicate that integrated application of MGD-Compost and NP fertilizer enhances soil microbial biomass content and increases millet grain yield in a low-input cropping system.
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    Effectiveness of combined application of Kodjari phosphate rock, water soluble phosphorus fertilizer and manure in a Ferric Lixisol in the centre west of Burkina Faso
    (Taylor & Francis, 2017) Soma Dohan Mariam; Kiba Delwendé Innocent; Gnankambary Zacharia; Ewusi-Mensah Nana; Sanou Minata; Nacro Hassan Bismarck; Lompo Francois; Sedogo Michel Papaoba; Abaidoo R. C
    Increasing soil phosphorus and organic matter content for crop produc tion while reducing the cost of production are required to facilitate the achievement of green revolution in Africa. Field and pot experiments were laid out during 2012 and 2013 to assess the effects of combined application of Kodjari phosphate rock (PR) and water soluble phosphorus on sorghum yields, P uptake and Lixisol characteristics in the centre west of Burkina Faso. Five P fertilizers treatments (zero P, 100% TSP (triple super phosphate), 100% PR, 50% PR + 50% TSP, 75% PR + 25% TSP) and two cow manure treatments (zero, 5 t ha−1) were tested. In field experi ment, 50% PR + 50% TSP was as effective as 100% TSP in increasing sorghum yield above the control by 30% in 2012 and 50% in 2013 and Puptake by 30% in both years. Manure had an additive effect on phos phorus fertilizers in increasing sorghum yields and P uptake. In pot experiment, increases of Ca uptake, soil pH and microbial P were observed with the application of 50% PR + 50% TSP. Our results suggest that formulation of fertilizer combining phosphate rock and mineral P would improve sorghum yields and income of smallholders.
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    Efficacy of Selected Crop Residues and Rock Phosphate in Improving the Quality of Cattle Manure
    (Taylor & Francis, 2021) Essel Benedicta; Abaidoo R. C; Opoku Andrews; Ewusi-Mensah Nana
    Cattle manure (CM) is noted for its poor nutrient quality especially in Ghana where most cattle are fed on a free range. There is therefore a need to improve its quality since it is a vital nutrient resource for smallholder farmers. An experiment was thus carried out by composting cocoa pod husk (CPH), palm kernel cake (PKC) and rock phosphate (RP) to investigate their effec tiveness for use as nutrient sources for improving the fertilizer value of cattle manure (CM). Four compost ratios (CM + PKC (3:1), CM + CPH (3:1), CM + RP (3:1) and CM + PKC + CPH + RP (3:1:1:1)) were formulated and replicated three times in Randomized Complete Block Design (RCBD). The findings showed that, addition of CPH, PKC and RP to CM improved the fertilizer value of cattle manure. The CM + PKC + CPH + RP (3:1:1:1) compost increased the nitrogen (N), phosphorus (P) and potassium (K) contents of cattle manure by 73%, 145% and 50%, respectively and was therefore considered the most effective in enhancing the nutrient value of cattle manure. This compost was thus evaluated through field application to maize. The study also revealed that increasing the application rate of compost increased maize grain yields. Hence, cocoa pod husk, palm kernel cake and rock phosphate can be exploited for use as important resources for improving the fertilizer value of cattle manure.
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    On-farm evaluation and determination of sources of variability of soybean response to Bradyrhizobium inoculation and phosphorus fertilizer in northern Ghana
    (Elsevier, 2018) Ulzen Jacob; Abaidoo R. C; Ewusi-Mensah Nana; Masso Cargele; 0000-0002-1235-2252
    Soybean yields on smallholder farms in sub-Sahara Africa (SSA) are far below the potential yield thus creating a huge yield gap. Interventions are thus needed to bridge this yield gap and ascertain the factors influencing the yield variation. This study evaluated the on farm response of soybean to rhizobia inoculation and or mineral P fertilizer in Northern and Upper West regions of Ghana in a single non-replicate trial using four treatments: no input (control), TSP fertilizer (P), rhizobia inoculant (I) and TSP plus inoculant (P + I). In addition, the study sought to develop a robust approach for determining responsiveness and non-responsiveness using agronomic and economic indices. The results showed that the average grain yield of plots that received P or I were higher than control plots. Higher grain yield responses were however, obtained by the plots that received combined application of P and Bradyrhizobium inoculant. Grain yield response in the Northern region was higher than in the Upper West region. Response to P and or I were highly variable within and between locations. The cumu lative rainfall and some soil factors including soil nitrogen, phosphorus, soil type, organic carbon, pH and texture explained about 42–79% of these variations in soybean grain yield. The agronomic approach for determining responsive and non-responsiveness revealed that 17–40 % and 6–17% of the locations within the Northern and Upper West regions, respectively were responsive to P fertilization and/ or Bradyrhizobium inoculation. However, the economic approach indicated that 64–75% and 14–24% of the locations within the Northern and Upper West regions, respectively were responsive to P fertilization and Bradyrhizobium inoculation. The results imply that rhizobia inoculation is an effective strategy for increasing soybean yield and improving livelihood of smallholder farmers.
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    Organic Manure Improves Soybean Response to Rhizobia Inoculant and P-Fertilizer in Northern Ghana
    (Frontiers in Agronomy,, 2020) Ulzen Jacob; Abaidoo R. C; Ewusi-Mensah Nana; Osei Ophelia; Masso Cargele; Opoku Andrews
    Inherently low concentrations of soil nutrients and erratic rainfall pattern in sub-Sahara Africa limit soybean response to rhizobia inoculant and P-fertilizer. The study was conducted to: (i) improve soybean response to rhizobia inoculation and P-fertilizer through the addition of organic manure; (ii) enhance rain water use efficiency and (iii) determine the economic viability of combined application of the three factors in soybean cropping systems in the Northern region of Ghana. A factorial experiment with two levels of rhizobia inoculant, two levels of Phosphorus, two different kinds organic manure [fertisoil (a commercially prepared compost from urban waste, rice husks, of poultry manure and shea butter waste) and cattle manure] and a control arranged in randomized complete block design with three replications was established on farmers’ fields. The combined application of rhizobia inoculant, P-fertilizer, and organic manure markedly increased nodulation, shoot biomass, haulms, harvest index (HI), P agronomic efficiency (P-AE), and rain water use efficiency (RUE) compared to the control. The combined application of rhizobia inoculant, P-fertilizer, and fertisoil increased grain yield by four-folds whereas the combined application of rhizobia inoculant, P-fertilizer, and cattle manure increased grain yield by three- folds. Harvest index, P-AE, and RUE were relatively higher with the fertisoil treatment combinations than with the cattle manure combinations and the control treatment. The application of rhizobia inoculant, P-fertilizer in combination with fertisoil was profitable with VCR of 2 as compared to the combination of cattle manure which had a VCR of 0.40. The results showed that fertisoil offers a better option of improving soybean response to rhizobia inoculant and P-fertilizer; and has the potential to enhance rain water use efficiency. However, the long term benefit must be quantified.