Browsing by Author "Essel Benedicta"

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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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    Mechanisms Underlying Nutrient Interaction of Compost and Mineral Fertilizer Application in Maize (Zea mays L.) Cropping System in Ghana
    (Frontiers in Soil Science, 2021) Essel Benedicta
    Mechanisms underlying interactive effects of nutrient inputs on crop yields are poorly understood especially throughout sub-Saharan Africa. This research thus sought to evaluate the possible mechanisms causing the interaction effects from compost and mineral fertilizer and quantify the relative contribution(s) of the mechanisms to added benefits in grain yield. The research involved a 3-year field experiment followed by a greenhouse incubation study. Both field and incubation experiments were 5 × 5 factorial arranged in Randomized Complete Block Design and Completely Randomized Design (CRD) with three replications, respectively. The factors considered were five levels of mineral fertilizer (0, 25, 50, 75, and 100% of 90:60:70 kg ha−1 N:P2O5:K2O) and compost (0, 25, 50, 75, and 100% of 5 Mg ha−1 compost). The mechanisms evaluated were nutrient synchrony, priming, general soil fertility improvement (GFI), and balanced ratio of nutrients. The conjoint application of compost and mineral fertilizer significantly (p ≤ 0.05) influenced grain yields of maize, with 50%RRMF + 100%RRCo producing the highest average grain yields in 2015 and 2017 with relative average grain yield increases of 167 and 98% over the control (no application), respectively. The conjoint application of nutrients resulted in synergistic and antagonistic interactions. Synergistic interactions were observed in the first 2 years of the study, followed by antagonistic interactions in the third year. Three principal components cumulatively explained 86% of the variation among the mechanisms. The mechanisms which contributed most to the added benefits were priming effect, balanced nutrient ratio, and nutrient synchrony