On-Farm Experimentation with Improved Maize Seed and Soil Amendments in Southern Ghana: Productivity Effects in Small Holder Farms

IF 1.5 Q2 AGRONOMY

International Journal of Agronomy Pub Date : 2023-04-10 DOI:10.1155/2023/1882121

E. Marfo-Ahenkora, K. Taah, E. Owusu Danquah, E. Asare-Bediako

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Abstract

Maize production in Ghana is limited by several factors including inadequate use of improved varieties and poor soil fertility management. To contribute to addressing these challenges in maize production, two on-farm experiments were conducted each in the semi deciduous forest and coastal savannah agroecological zones (AEZs) of Ghana during the major and minor cropping seasons of 2017. The study adopted a 3 × 4 factorial arranged in an RCBD with four replications in the major season. The factors were three maize varieties (Omankwa, Obatanpa, and Ahomatea) and four soil amendments (goat manure at 5 t·ha−1; inorganic fertilizer (N-P2O5-K2O at 95-37.5–37.5 kg·ha−1); 50% goat manure (2.5 t·ha−1) + 50% inorganic fertilizer (N-P2O5-K2O at 47.5–18.75–18.75 kg·ha−1); and the control (no soil amendment)).To evaluate the residual implications of these soil amendments in the minor season, each plot used in the major season was further divided into two except for the control plot, resulting in a split plot design with factorial of 3 maize varieties × 7 soil amendments. The results revealed a significant interaction between maize variety and soil amendment in both seasons with the use of sole inorganic fertilizer resulting in significantly higher ( p < 0.05 ) grain yields for all varieties in both AEZs in the major cropping season. In the minor season, the combined treatment of 50% goat manure + 50% inorganic fertilizer resulted in higher grain yields for all the varieties in both AEZs with improved maize (Omankwa and Obatanpa) having significantly higher ( p < 0.05 ) grain yields (33–40%) than the landrace (Ahomatea). The significantly lower ( p < 0.05 ) performance of maize varieties on the residual plots in both AEZs suggests that there were minimal residual effects from the major season. Thus, in continuously cropped fields, the use of inorganic fertilizer + goat manure is required in addition to improved seeds for sustainable maize production.

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加纳南部改良玉米种子和土壤改良剂的农场试验:对小农场生产力的影响

加纳的玉米生产受到几个因素的限制，包括改良品种的使用不足和土壤肥力管理不善。为应对玉米生产中的这些挑战，研究人员于2017年主要种植季和次要种植季在加纳的半落叶林和沿海草原农业生态区(aez)分别开展了两项田间试验。该研究采用3 × 4因子排列在RCBD中，在主要季节有4个重复。影响因子为3个玉米品种(Omankwa、Obatanpa和Ahomatea)和4种土壤改良剂(5 t·ha - 1山羊粪肥;无机肥料(N-P2O5-K2O用量为95-37.5-37.5 kg·ha−1);50%羊粪(2.5 t·ha−1)+ 50%无机肥料(N-P2O5-K2O在47.5-18.75-18.75 kg·ha−1);对照(无土壤改良剂)。为了评价这些土壤改良剂在小季的剩余影响，除对照区外，将主季使用的每个样地进一步分成2个样地，采用3个玉米品种× 7个土壤改良剂的析因分割样地设计。结果表明，两季玉米品种与土壤改良剂之间存在显著的交互作用，单施无机肥显著提高了两季玉米品种的产量(p < 0.05)。在小季，50%羊粪+ 50%无机肥的组合处理使两个aez的所有品种籽粒产量都有所提高，其中改良玉米(Omankwa和Obatanpa)的籽粒产量(33-40%)显著高于地方品种(Ahomatea) (p < 0.05)。两个经济区的玉米品种在剩余地块上的生产性能显著降低(p < 0.05)，表明主季残留影响很小。因此，在连作田，除了改良种子外，还需要使用无机肥料+羊粪，以实现可持续的玉米生产。

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