埃塞俄比亚中部地区时空气候变异性及其对粮食安全的影响

IF 2.7 Q2 MULTIDISCIPLINARY SCIENCES
Abate Feyissa Senbeta , Walelign Worku , Sebastian Gayler
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引用次数: 0

摘要

在埃塞俄比亚等国,气候变化和多变性给依赖降雨的农业造成了重大损失,因此,对气候参数的时空分布和气象干旱进行重点研究意义重大。本研究利用埃塞俄比亚国家气象研究所提供的增强型国家气候服务(ENACTS)数据集(空间分辨率约为 4 千米乘 4 千米,时间跨度为 38 年(1981-2018 年))研究埃塞俄比亚中部地区的气候趋势、时空变异性和气象干旱。分析中使用了变异系数(CV)、标准化降雨异常(SRA)、标准化降水指数(SPI)、Mann-Kendall 趋势检验和森氏斜率。研究结果表明,贝尔格降雨量(又称 "小雨")在研究区域内的时空变化很大,区域平均 CV 为 29%,像素级 CV 为 63% 至 93%。与前二十年(1981-1999 年)相比,2000-2019 年贝尔格平均降水量减少了 15%。全年、Belg 和 Bega 季节的最高气温明显升高。SPI 和 SRA 显示,在 Kiremt(又称 "大雨",时间跨度为 6 月至 9 月)和 Belg 季节,每隔 2.9 年就会发生一次干旱。贝尔格季节的降雨负异常值不断增加,CV 值较高,平均最高气温显著升高,这对粮食安全和消除贫困而言令人担忧。6 月(播种期)和 11 月(收获期)降雨量的显著增加也损害了主要耕种季节的作物产量。因此,为实现全球可持续发展目标(SDGs)和非洲联盟《2063 年议程》,制定适当的适应战略和政策,发展具有气候抗御能力的农业至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spatiotemporal climate variability and food security implications in the Central Ethiopia Region

Studies focusing on the spatiotemporal distribution of climatic parameters and meteorological drought are of paramount significance for countries like Ethiopia, where climate change and variability cause major losses to rain-dependent agriculture. In this study, the National Meteorology Institute of Ethiopia provided an Enhanced National Climate Services (ENACTS) dataset at a spatial resolution of approximately 4 km by 4 km over 38 years (1981–2018) was used to study climate trends, spatiotemporal variability, and meteorological drought in the Central Ethiopia Region. Coefficient of variation (CV), Standardized Rainfall Anomaly (SRA), Standardized Precipitation Index (SPI), Mann-Kendall trend test, and Sen's slope were used for the analysis. The findings suggest that Belg rainfall (also known as "small-rain") varied greatly in space and time over the study area, with area-averaged CV of 29 % and pixel-level CVs ranging from 63 to 93 %. The average precipitation during Belg experienced a 15 % decrease from 2000 to 2019 compared to the preceding two decades, from 1981 to 1999. The maximum temperature has increased significantly during the Annual, Belg, and Bega seasons. The SPI and SRA showed that there have been multiple drought episodes with rising negative rainfall anomalies, with a drought occurring every 2.9 years during the Kiremt (also called "big rain", spanning from June to September) and Belg seasons. The growing negative rainfall anomaly, high CV, and highly significant increase in mean maximum temperature during the Belg season is concerning for food security and poverty eradication. The notable rise in rainfall during the June (sowing period) and November (harvesting period) also hurts crop production during the main cropping season. Thus, developing appropriate adaptation strategies and policies oriented toward climate-resilient agriculture is crucial to meet the global sustainable development goals (SDGs) and Africa Union's Agenda 2063.

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来源期刊
Scientific African
Scientific African Multidisciplinary-Multidisciplinary
CiteScore
5.60
自引率
3.40%
发文量
332
审稿时长
10 weeks
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