以果树为基础的农林业与单一种植在应对气候变化挑战方面的比较分析:埃塞俄比亚索菲地区的证据

Daba Bogale, Solomon Estifanos, Z. Asfaw
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摘要

摘要 气候变化的影响给非洲的农业部门带来了沉重打击。埃塞俄比亚等国的主要收入来源是生计农业,而生计农业严重依赖降雨。因此,制定针对具体情况的适应方法对于减少气候变化的不利影响至关重要。本研究在埃塞俄比亚哈拉里地区州的索菲区进行,旨在比较以果树为基础的农林业和单一种植业在应对气候变化挑战方面的贡献。研究采用多阶段随机抽样的方法,选择了两个村落和 102 个户主。土壤和生物量测量用于收集土壤样本和生物量样本。研究结果表明,在生计策略方面,农林业小农户和单一种植业小农户应对气候变化挑战的方式存在显著差异,农林业小农户的抗灾能力更强。据估计,农林业的碳储量积累为 453.32 毫克/公顷-1,而单一种植业的碳储量积累为 124.7 毫克/公顷-1,在单一种植业的土地上没有发现树木。研究结果表明,土壤有机碳的平均值与农林用地之间的碳储量积累具有显著的统计学意义。总的来说,面对气候变化问题,农林系统对小农生计以及社会经济系统的贡献要大得多。将小农户纳入农林系统以实现生计的长期可持续性需要资源、培训和研究等形式的支持。面对气候变化的威胁,地方、地区和国家政府以及金融机构和其他农业信贷提供者必须支持小农户。
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Comparative Analysis of Fruit Tree–Based Agroforestry and Monoculture in Tackling Climate Change Challenges: Evidence from Sofi District, Ethiopia
Abstract The effects of climate change have hit the agriculture sector in Africa hard. Making adjustments to adapt to the changing environment is critical for countries like Ethiopia, whose primary source of income is subsistence agriculture, which is heavily reliant on rainfall. As a result, establishing context-specific adaptation approaches is crucial for reducing the adverse effects of climate change. This study was conducted at Sofi district, Harari Regional State, Ethiopia, to compare the contribution of fruit tree–based agroforestry and monoculture in tackling climate change challenges. To choose two kebeles and 102 household heads, multistage random sampling was used. Soil and biomass measurements were used to collect soil samples and biomass samples. According to the findings of the study, there are significant differences in how agroforestry and monoculture smallholder farmers deal with climate change challenges in terms of livelihood strategies, with agroforestry smallholders being more resilient. Carbon stock accumulation was estimated to be 453.32 mg ha−1 in agroforestry and 124.7 mg ha−1 in monoculture, where no trees were found on monoculture land. The findings of the study demonstrated that carbon stock accumulation was statistically significant between the mean of soil organic carbon agroforestry land use. Agroforestry systems, in general, contribute significantly more to smallholder livelihoods, as well as the socioeconomic system, in the face of climate change concerns. Incorporating smallholders into an agroforestry system for long-term livelihood sustainability requires support in the form of resources, training, and research. In the face of climate change threats, local, regional, and national governments, as well as financial institutions and other agricultural credit providers, must support smallholders.
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