巴西圣保罗市区ABC Paulista对城市降水和温度的气候预测

IF 3.3 Q2 ENVIRONMENTAL SCIENCES
M. Valverde, Bianca Nunes Calado, Gabrielle Gomes Calado, L. Kuroki, Ricardo Brambila, A. R. Sousa
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引用次数: 0

摘要

城市越来越容易受到气候变化的影响,对极端可变性的适应能力较差。这项研究旨在评估圣保罗大都会区七个城市的气温和降水量的气候预测,这些城市与大ABC Paulista相对应。我们使用高分辨率模型Eta-HADGEM2_ES(CMIP5)、CNRM-CM6-1-HR(CMIP6)和TerraClimate数据库分别分析未来预测和具体变暖水平(SWL)。用观测数据验证模型数据,并消除偏差。生成了一个偏差校正因子,并将其用于不同排放情景的气候预测。结果表明,在21世纪末之前,在不同的排放情景下,ABC Paulista所有城市的最高(Tmax)和最低(Tmin)温度升高,模型和SWL(2和4°C)之间达成了共识。根据Eta-HADGEM2_ES的预测,在最近的未来(2020-2040年),南圣卡埃塔诺市(SCS)显示出与气候期(1985-2015年)有关的最高的Tmax年正异常,情景为RCP4.5(2.8°C)和RCP8.5(7.4°C),强调夏季和秋季是最热的。对于降水量,Eta-HADGEM2_ES和CNRM-CM6-1-HR之间就2020–2040年和2041–2070年所有情景和时间段的减少达成了共识。Diadema市(−78.4%)和SCS市(−78%)的RCP8.5在12月的降幅最大,SSP5-8.5在2020-2040年的12月,SCS的降幅为−30.9%。另一方面,TerraClimate在SWL4°C的Ribeirão Pires(+24.8%)和Santo André(+23.7%)冬季降雨量过大。这些结果表明,正如预测的那样,Tmax和Tmin的增加应该会影响极端高温事件的强度。此外,年度和季节性降雨量的减少并不意味着该地区导致洪水和山体滑坡的极端日常事件的减少。然而,它为人口的供应和需求留下了缺水的警报。ABC Paulista没有应对极端气候变化的适应计划。研究结果有助于制定适应计划的第一阶段,让人们第一次看到气候威胁,这种威胁应该在20世纪末之前加剧,影响到最脆弱的城市。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Climate projections of precipitation and temperature in cities from ABC Paulista, in the Metropolitan Region of São Paulo—Brazil
Cities are increasingly vulnerable to climate change's impacts and poorly adapted to extreme variability. This study aimed to evaluate climate projections of air temperature and precipitation in seven cities in the Metropolitan Region of São Paulo that correspond to the Greater ABC Paulista. We used high-resolution models Eta-HADGEM2_ES (CMIP5), CNRM-CM6-1-HR (CMIP6), and the TerraClimate database to analyze future projections and the specific warming levels (SWLs), respectively. Model data were validated with observed data and bias was removed. A bias correction factor was generated and used in the climate projections for the different emission scenarios. The results show a consensus between the models and the SWLs (2 and 4°C) for the increase in maximum (Tmax) and minimum (Tmin) temperatures for all municipalities in ABC Paulista in different emission scenarios until the end of the 21st century. For the nearest future (2020–2040), the city of São Caetano do Sul (SCS) shows the highest positive annual anomalies of Tmax concerning the climatological period (1985–2015), for the scenario RCP4.5 (2.8°C) and the RCP8.5 (7.4°C), according to projections from the Eta-HADGEM2_ES, highlighting summer and autumn as the hottest. For precipitation, there was a consensus between the Eta-HADGEM2_ES and the CNRM-CM6-1-HR for a reduction in all scenarios and time-slices 2020–2040 and 2041–2070. The municipalities of Diadema (−78.4%) and SCS (−78%) showed the most significant reductions in December for the RCP8.5, and for SSP5-8.5, SCS shows −30.9% in December for the 2020–2040 time-slice. On the other hand, TerraClimate presents excess rain for Ribeirão Pires (+24.8%) and Santo André (+23.7%) in winter for SWL4°C. These results suggest that an increase in Tmax and Tmin, as projected, should influence the intensity of extreme heat events. Furthermore, a reduction in annual and seasonal rainfall does not mean a decrease in the region's extreme daily events that cause floods and landslides. However, it leaves an alert of water scarcity for the supply and demand of the population. ABC Paulista does not have adaptation plans to face extreme climate change. The results can contribute to the first phase of creating an adaptation plan, giving a first view of the climate threat that should intensify until the end of the twentieth century affecting the most vulnerable municipalities.
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来源期刊
Frontiers in Climate
Frontiers in Climate Environmental Science-Environmental Science (miscellaneous)
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233
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