Impact of global climate change on temperature seasonal and annual of Arak city in the 2040s

Jalalaldin Shahbaz, Zaniar Fatehi, K. Chapi
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Abstract

Introduction: Global warming is the most important challenge facing man in the 21st century. Warmer weather will increase evapotranspiration, which will exacerbate droughts. One of the main causes of global warming is man himself. Humans have accelerated the Earth's climate change by producing large amounts of greenhouse gases. For this reason, information about changes in the earth's temperature in the next decades has always been considered. The results of the researchers show that climate change has obvious and significant effects on temperature and rainfall in different parts of Iran in the next decades. By predicting and estimating the extent of these effects, climate change impacts can be mitigated with adequate preparedness, low cost, and greater speed.Material and methods: In this study, the effect of climate change on the mean maximum and minimum annual and seasonal temperatures in Arak under the emission scenarios of RCP2.6, RCP4.5, RCP8.5 for the 2040s was investigated. To use the output of General Circulation Models at regional and local scales is that they are using downscaling models, are downscaled. In this study, Statistical Downscaling Model (SDSM) to downscale output of General Circulation Models CanESM2 were used. This model had an acceptable ability to simulate the average maximum and minimum seasonal and annual temperatures in the study area. Results and discussion: According to the obtained results, the mean maximum temperature in winter and spring will decrease under all three scenarios RCP2.6, RCP4.5, RCP8.5, which can indicate that the daily temperature will be cooler in these seasons. However, the mean maximum temperature will increase in summer and autumn, which may indicate that the daily temperature will be warmer in these seasons. The mean minimum temperature in winter and spring under all three scenarios RCP2.6, RCP4.5, RCP8.5 will decrease and increase in summer seasons. These results show that in the 2040s, the city of Arak has colder night temperatures in winter and spring and warmer temperatures in summer and spring. Due to the fact that warmer weather increases the demand for water and electricity, and because Arak is an industrial city with a dry climate, it can face serious challenges of water and electricity shortage in the future.Conclusion: According to the results obtained in this study, in the 2040s, Arak will have colder winters and springs, and warmer summers and autumns. The highest effect of climate change on the temperature of Arak is related to the average minimum temperature in autumn, which under the scenarios of RCP2.6, RCP4.5, RCP8.5, the average minimum temperature in autumn increased by 206.88, 196.37 and 192.27 percent, respectively. The mean annual maximum and minimum temperature under all three scenarios will increase in the 2040s. The highest increase in the mean annual maximum and minimum temperature is related to RCP8.5 and RCP2.6 scenarios, respectively, which they are equal to 4.14 and 4.38.
2040年代全球气候变化对阿拉克市气温季、年的影响
引言:全球变暖是21世纪人类面临的最重要的挑战。天气变暖会增加蒸散量,从而加剧干旱。全球变暖的主要原因之一是人类自身。人类制造了大量的温室气体,加速了地球的气候变化。由于这个原因,关于未来几十年地球温度变化的信息一直被考虑。研究人员的结果表明,气候变化对未来几十年伊朗不同地区的温度和降雨有明显而显著的影响。通过预测和估计这些影响的程度,可以通过充分的准备、低成本和更快的速度减轻气候变化的影响。材料与方法:研究了20世纪40年代RCP2.6、RCP4.5、RCP8.5排放情景下气候变化对阿拉克地区年、季平均最高、最低气温的影响。在区域和地方尺度上使用一般环流模式的输出就是他们正在使用缩小尺度的模式。本研究采用统计降尺度模型(SDSM)对CanESM2环流模型的输出进行降尺度处理。该模型模拟研究区平均最高和最低季节和年平均气温的能力尚可。结果与讨论:在RCP2.6、RCP4.5、RCP8.5三种情景下,冬季和春季的平均最高气温均呈下降趋势,表明这三个季节的日气温将变冷。然而,夏季和秋季的平均最高气温会上升,这可能表明这两个季节的日气温会变暖。RCP2.6、RCP4.5、RCP8.5三种情景下冬、春平均最低气温在夏季均呈先降低后升高的趋势。结果表明,20世纪40年代阿拉克市冬季和春季夜间气温较低,夏季和春季气温较暖。由于气候变暖增加了对水和电力的需求,并且由于阿拉克是一个气候干燥的工业城市,未来可能面临严重的水和电力短缺挑战。结论:根据本研究得出的结果,到2040年代,阿拉克地区的冬春将变冷,夏秋将变暖。气候变化对新疆秋季平均最低气温的影响最大,在RCP2.6、RCP4.5、RCP8.5情景下,秋季平均最低气温分别上升了206.88%、196.37%和192.27%。在这三种情景下的年平均最高和最低温度将在21世纪40年代上升。年平均最高气温和最低气温增幅最大的情景分别与RCP8.5和RCP2.6情景有关,分别为4.14和4.38。
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