Evaluating impacts of climate variability on smallholder livelihoods and adaptation practices in the western Shewa Zone, Oromia, Ethiopia

IF 3.3 Q2 ENVIRONMENTAL SCIENCES Frontiers in Climate Pub Date : 2023-09-22 DOI:10.3389/fclim.2023.1237144
Lelisa Hordofa, Tamiru Yazew
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引用次数: 1

Abstract

Introduction The objective of this research was to assess the trends and variability in the BakoTibe district as well as raise awareness among rural farmers. Methods The sample of homes included 141 out of 29 participants, all from families headed by a female. The Mann-Kendall trend test and the Sen-slope estimator were used to assess the trend of annual minimum and maximum temperatures and seasonal precipitation for the study areas. Results and discussion The year, summer, and spring climate variability results were examined, and the CV of spring precipitation was found to be 34.8%, indicating high variability of rainfall. Spring precipitation was more unstable than summer precipitation. Statistically, total annual precipitation, the summer season, and the autumn season all showed positive or no significant trends, while spring and winter precipitation both showed a negative or decreasing trend. The probability of 7, 10, 15, and 20-day dry spells in June, July, August, and September during the main rainy season (summer) was zero. The chance of a 20-day dry spell occurrence was highest from March 1 (61 days) to April 23 (115 days), lowest from April 23 (130 days) to June, July, August, and September 20 (265 days), and highest after the end of September. The dry period lasted 15 days, beginning on March 1 (61 days), ending on May 8 (130 days), and returning to zero from May 8 (130 days) to June, July, August, and September 5 (250 days). The probability of a 10-day dry spell began in March (61) and ended on May 23 (145), with the 7-day dry spell ending on June 23 (160). In this study, annual precipitation and temperature values from 2010 to 2019 were examined. Precipitation and temperature have a positive and significant relationship with corn and teff. Approximately 65.2% of the population reported late precipitation, while 34.8% reported no late precipitation. A premature end to the rains affected the livelihoods of ~73% of those polled. Crop diversification, terracing, tree planting, irrigation cultivation for precocious crops, and non-agricultural activities have all been used to adapt to the effects of climate variability and change.
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评估气候变率对埃塞俄比亚奥罗米亚州西谢瓦地区小农生计和适应做法的影响
本研究的目的是评估BakoTibe地区的趋势和变异性,并提高农村农民的认识。方法29个家庭中有141个家庭为女性户主家庭。采用Mann-Kendall趋势检验和Sen-slope估计方法对研究区年最低、最高气温和季节降水的变化趋势进行了评估。结果与讨论对年、夏、春季气候变率结果进行了分析,春季降水的变异系数为34.8%,表明降水具有较高的变率。春季降水比夏季降水更不稳定。统计上,年总降水量、夏季和秋季降水量均呈正趋势或无显著趋势,春、冬季降水量均呈负趋势或减少趋势。主要雨季(夏季)6、7、8、9月出现7、10、15、20天干旱的概率为零。3月1日至4月23日发生20天干旱的概率最高(61天),4月23日至6、7、8、9月20日发生20天干旱的概率最低(130天),9月底以后发生20天干旱的概率最高。枯水期为15 d,从3月1日开始(61 d),到5月8日结束(130 d),从5月8日(130 d)至6、7、8、9月5日(250 d)归零。10天的干旱期开始于3月(61),结束于5月23日(145),7天的干旱期结束于6月23日(160)。本研究选取了2010 - 2019年的年降水量和年温度值。降水量和温度与玉米和苔麸产量呈显著正相关。大约65.2%的人口报告晚降水,34.8%的人口报告没有晚降水。降雨过早结束影响了约73%的受访者的生计。作物多样化、梯田、植树、早熟作物灌溉栽培和非农业活动都被用来适应气候变率和变化的影响。
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来源期刊
Frontiers in Climate
Frontiers in Climate Environmental Science-Environmental Science (miscellaneous)
CiteScore
4.50
自引率
0.00%
发文量
233
审稿时长
15 weeks
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