Influence of farmers’ socio-economic characteristics on nutrient flow and implications for system sustainability in smallholdings: a review

IF 2.1 Q3 SOIL SCIENCE Frontiers in soil science Pub Date : 2023-04-14 DOI:10.3389/fsoil.2023.1112629
L. Mhoro, Akida I. Meya, N. Amuri, P. Ndakidemi, Kelvin Marck Mtei, Karoli Nicholas Njau
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Abstract

The rise in global human population, coupled with the effects of climate change, has increased the demand for arable land. Soil fertility has been the most affected, among other things. Many approaches to soil fertility management have been proposed by studies in Sub-Saharan Africa (SSA); however, the question of sustainability remains. Nutrient monitoring (NUTMON), which combines biophysical and socio-economic features for soil fertility management, gives an in-situ soil fertility status of a given land use system, which ultimately provides guidance in proposing appropriate soil management techniques in a given land use system. In this review, the Preferred Reporting Items for Systematic Review and Meta-Analysis (PRISMA) approach was deployed for a systematic search of the literature materials. The review evaluated various studies on nutrient monitoring in SSA soils in order to understand the socioeconomic attributes and their influence on farming systems, as well as nutrient flow and balances. The review identified two dominant smallholder farming systems in SSA: mixed crop-livestock and mixed crop farming systems. Also, this review revealed that most nutrient balance studies in SSA have been done in mixed crop and livestock farming systems. However, regardless of the farming systems, the overall mean nutrient balances in all studies, particularly those of nitrogen (N) and potassium (K), were negative, indicating significant nutrient mining. The review further revealed a vast range of biophysical soil fertility management technologies; however, their adoption has been limited by socio-economic aspects including land ownership, gender, financial position, literacy level, and access to inputs. Therefore, in view of this situation, integrating biophysical and socioeconomic disciplines could address the problem of soil nutrient depletion holistically, thus decreasing the existing negative nutrient balances in the SSA region.
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农民的社会经济特征对养分流动的影响及其对小农户系统可持续性的影响:综述
全球人口的增加,加上气候变化的影响,增加了对耕地的需求。除其他外,土壤肥力受到的影响最大。撒哈拉以南非洲的研究提出了许多土壤肥力管理方法;然而,可持续性问题依然存在。养分监测(NUTMON)结合了土壤肥力管理的生物物理和社会经济特征,提供了特定土地利用系统的原位土壤肥力状况,最终为在特定土地利用体系中提出适当的土壤管理技术提供了指导。在这篇综述中,系统综述和荟萃分析的首选报告项目(PRISMA)方法被用于文献材料的系统搜索。该综述评估了SSA土壤养分监测的各种研究,以了解其社会经济特征及其对农业系统的影响,以及养分流动和平衡。审查确定了SSA中两种主要的小农户农业系统:混合作物畜牧业和混合作物农业系统。此外,这篇综述显示,SSA中的大多数营养平衡研究都是在混合作物和畜牧养殖系统中进行的。然而,无论农业系统如何,所有研究中的总体平均养分平衡,特别是氮(N)和钾(K)的平均养分平衡都是负的,这表明养分开采量很大。审查进一步揭示了广泛的生物物理土壤肥力管理技术;然而,它们的采用受到社会经济方面的限制,包括土地所有权、性别、财务状况、识字水平和获得投入的机会。因此,鉴于这种情况,整合生物物理和社会经济学科可以全面解决土壤养分耗竭问题,从而减少SSA地区现有的负养分平衡。
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