An integrative approach based on crop modeling and geospatial and statistical analysis to quantify and explain the maize (Zea mays) yield gap in Ghana

IF 2.1 Q3 SOIL SCIENCE Frontiers in soil science Pub Date : 2022-11-30 DOI:10.3389/fsoil.2022.1037222
Mohamed Boullouz, P. Bindraban, Isaac N. Kissiedu, Anselme K. K. Kouame, K. Devkota, W. Atakora
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引用次数: 3

Abstract

In Ghana, maize (Zea mays) is a crop crucial to achieving food and nutrition security. Maize consumption has increased exponentially over the past decades and contributes to 25% of the caloric consumption in the country. In order to assist in decision-making and guide investment in sustainable intensification of maize production, this study set out to identify the determinants of yield and to arrive at potential interventions for closing the maize yield gap. These were quantified using analytical approaches that combine a light use efficiency crop model (LINTUL-1) with statistical and geospatial analyses. Legacy data, auxiliary covariables, and maize fertilizer trials on eight experimental stations in Ghana were used in this study. Overall, the maize yield gap across the stations and trial treatments ranged from 17% to 98%. The variation in yield gap within a single station indicates a significant scope for closing the yield gap through site-specific nutrient management. Multiple linear regression models that explained 81% of the variability in maize yield gap identified soil organic matter, soil water-holding capacity, root zone depth, rainfall, sulfur fertilizer, and nitrogen fertilizer, in that order of importance, as the major determinants for closing the yield gap in the major agroecological zones of Ghana. The yield gap decreased by 1.4 t ha-1 with a 1% increase in soil organic matter. A 1 mm increase of the soil water-holding capacity reduced the yield gap by 1.06 t ha-1, while an increase in pH and in the application of potassium fertilizer widened the gap. These results suggest that both soil physical and chemical properties, together with weather data, should be taken into consideration to arrive at site-specific fertilizer recommendation and other agronomic practices.
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一种基于作物建模、地理空间和统计分析的综合方法,用于量化和解释加纳玉米产量差距
在加纳,玉米是实现粮食和营养安全的关键作物。在过去的几十年里,玉米的消费量呈指数级增长,占该国热量消费的25%。为了协助决策和指导对玉米生产可持续集约化的投资,本研究旨在确定产量的决定因素,并得出缩小玉米产量差距的潜在干预措施。使用将光利用效率作物模型(LINTUL-1)与统计和地理空间分析相结合的分析方法对其进行量化。本研究使用了加纳八个试验站的遗留数据、辅助协变量和玉米肥料试验。总体而言,各站和试验处理的玉米产量差距在17%至98%之间。单个站点内产量差距的变化表明,通过特定地点的营养管理来缩小产量差距的空间很大。多元线性回归模型解释了玉米产量差距81%的变异性,确定土壤有机质、土壤持水能力、根区深度、降雨量、硫肥和氮肥是缩小加纳主要农业生态区产量差距的主要决定因素。土壤有机质含量增加1%时,产量差距减小了1.4t ha-1。土壤持水量增加1mm可使产量差距缩小1.06 t ha-1,而pH值的增加和钾肥的施用则扩大了产量差距。这些结果表明,应考虑土壤的物理和化学性质,以及天气数据,以得出特定地点的肥料建议和其他农艺实践。
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