Enhancing climate resilience in northern Ghana: A stochastic dominance analysis of risk-efficient climate-smart technologies for smallholder farmers

IF 4.7 2区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
David Ahiamadia, Thiagarajah Ramilan, Peter R. Tozer
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引用次数: 0

Abstract

Northern Ghana is a semi-arid region characterised by a unimodal rainfall pattern, and hot and dry weather conditions. Heavy reliance on rain-fed agriculture and the lack of resources for irrigation, makes smallholder farmers in the region increasingly vulnerable to climate-related crop failures. In recent years, climate-smart technologies (CSTs) such as changing planting dates (PD), compartmental bunding (CB), mulching (M), and transplanting (TP) have been recommended to minimise yield losses. However, there is limited information on the most risk-efficient CSTs for crops cultivated in the region. This study used a stochastic dominance approach to identify the most risk-efficient CSTs for maize, rice, and sorghum. The stochastic modelling process employed the Aqua-crop model to simulate climate-related yield variability using Ghana climate data, and gross margin variability with crop budgets from literature sources. From the study's findings, changing planting date from April to May was the most risk-efficient choice for maize and sorghum under farmers' and recommended practices. In contrast, transplanting was the most risk-efficient technology for rice farming in the study area. The study also highlights the importance of considering the risk-averse nature of smallholder farmers when selecting CSTs. By identifying the most risk-efficient CSTs, the study can help improve the resilience of smallholder farmers. These findings have important implications for the development and adoption of CSTs in northern Ghana.

提高加纳北部的气候适应能力:对小农气候智能技术风险效率的随机优势分析
加纳北部属于半干旱地区,降雨模式单一,气候炎热干燥。对雨水灌溉农业的严重依赖和灌溉资源的缺乏,使该地区的小农越来越容易遭受与气候相关的作物歉收。近年来,人们建议采用气候智能技术(CST),如改变种植日期(PD)、分区捆绑(CB)、覆盖(M)和移栽(TP),以最大限度地减少产量损失。然而,关于该地区种植的作物中风险效率最高的 CST 的信息却很有限。本研究采用随机优势法来确定玉米、水稻和高粱风险效率最高的 CST。随机建模过程采用 Aqua-crop 模型,利用加纳气候数据模拟与气候相关的产量变化,并利用文献资料中的作物预算模拟毛利率变化。研究结果表明,根据农民和推荐的做法,将播种日期从 4 月改为 5 月是玉米和高粱风险效率最高的选择。相比之下,插秧是研究地区水稻种植风险效率最高的技术。这项研究还强调了在选择国家技术服务时考虑小农规避风险特性的重要性。通过确定风险效率最高的国家技术服务,该研究有助于提高小农的抗风险能力。这些发现对加纳北部发展和采用集体扶持技术具有重要意义。
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来源期刊
Environmental Development
Environmental Development Social Sciences-Geography, Planning and Development
CiteScore
8.40
自引率
1.90%
发文量
62
审稿时长
74 days
期刊介绍: Environmental Development provides a future oriented, pro-active, authoritative source of information and learning for researchers, postgraduate students, policymakers, and managers, and bridges the gap between fundamental research and the application in management and policy practices. It stimulates the exchange and coupling of traditional scientific knowledge on the environment, with the experiential knowledge among decision makers and other stakeholders and also connects natural sciences and social and behavioral sciences. Environmental Development includes and promotes scientific work from the non-western world, and also strengthens the collaboration between the developed and developing world. Further it links environmental research to broader issues of economic and social-cultural developments, and is intended to shorten the delays between research and publication, while ensuring thorough peer review. Environmental Development also creates a forum for transnational communication, discussion and global action. Environmental Development is open to a broad range of disciplines and authors. The journal welcomes, in particular, contributions from a younger generation of researchers, and papers expanding the frontiers of environmental sciences, pointing at new directions and innovative answers. All submissions to Environmental Development are reviewed using the general criteria of quality, originality, precision, importance of topic and insights, clarity of exposition, which are in keeping with the journal''s aims and scope.
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