孟加拉国西南部地区气候极值的趋势和空间异质性

Tasnima Shirin, T. Saha, M. Rahaman, Md. Arif Chowdhury, Ehsanul Bari, T. Das, M. M. Rahman
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引用次数: 0

摘要

本研究试图调查孟加拉国西南部地区的气候变化,重点关注极端温度和降水。分析了分布在研究区域的六个气象站的温度和降水的长期日记录。在95%置信区间下,共计算了20个年度指数,并用Mann–Kendal检验和Sen斜率估计对趋势进行了验证。此外,还应用单因素方差分析和Tukey–Kramer事后检验来验证气象站之间气候指数的空间异质性。调查结果显示,库尔纳是受影响最严重的地区,12个气候指数发生了重大变化。Jessore和Faridpur紧随Khulna之后,分别在10个和9个指数上发生了显著变化。在这些指标中,TN10p(低于第10个百分位值的每日最低温度事件的频率)、TX10p(超过第10个百分点值的每日最高温度事件的次数)、CSDI(寒流持续时间指标)和CDD(连续干旱日)的显著变化是研究区域最常见的现象。六个台站中有五个台站的TN10p呈显著上升趋势。这表明该地区极端寒冷天气的频率总体上有所增加。库尔纳站显示了极端寒冷温度的零星证据,年最低温度(TNn)的最小值在统计上显著下降。此外,库尔纳的年最高气温最低值也出现了统计上的显著下降。该地区持续呈现出明显的冷期扩大趋势。同样,库尔纳、杰索尔和法里德布尔地区的极端温暖天气频率也在显著增加。因此,很明显,研究区域一直在经历极端温度。另一方面,只有库尔纳和杰索尔出现了明显的极端降水。这两个站点都显示出强降水事件和雨季(连续降水日)的增加趋势。方差分析结果表明,研究区域的气候指数具有显著的空间异质性。降水指数表现出比温度指数更高的空间异质性。在气象站中,Mongla和Ishwardi的离港量最大。这项研究可能有助于决策者、研究人员和学者采取适当的举措,减少孟加拉国沿海地区气候参数变化的影响。
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Trends and Spatial Heterogeneity of Climate Extremes in the Southwestern Region of Bangladesh
This study attempts to investigate the climatic variability in the southwestern area of Bangladesh focusing on temperature and precipitation extremes. Long-term daily records of temperature and precipitation from six weather stations spread over the study area were analyzed. A total of 20 yearly indices were calculated and testified for the trends with the Mann–Kendal test and Sen’s estimator of slope at a 95% confidence interval. Moreover, one-way ANOVA and Tukey–Kramer post-hoc tests were applied to verify the spatial heterogeneity of the climatic indices among the meteorological stations. Findings revealed that Khulna is the worst affected area with significant changes in 12 climatic indices. Jessore and Faridpur followed Khulna with significant changes in 10 and 9 indices, respectively. Among the indices, significant changes in TN10p (frequencies of daily minimum temperature event that falls below the 10th percentile value), TX10p (frequencies of daily maximum temperature event that falls beyond the 10th percentile value), CSDI (cold spell duration indicator), and CDD (consecutive dry day) are the most common phenomenon in the studied region. Five out of six stations have been experiencing significant increasing trends for TN10p. That indicates an overall increase of extreme cold day frequencies in the area. Khulna station showed shreds of evidence of extreme cold temperature instances with a statistically significant fall in the minimum value of the yearly minimum temperatures (TNn). Besides, Khulna also experienced a statistically significant fall in the minimum value of the yearly maximum temperatures. Consistently, the area showed a significant trend of wider cold spells. Similarly, the extremely warm day frequencies have also been increasing significantly for the Khulna, Jessore, and Faridpur areas. Therefore, it is evident that the studied area has been experiencing temperature extremes. On the other hand, precipitation extremes are apparent for only Khulna and Jessore. Both these stations showed increasing trends in heavy precipitation events and wet spells (consecutive precipitation days). ANOVA outcome suggests that the study area has significant spatial heterogeneity in climatic indices. Precipitation indices show high spatial heterogeneity than those of temperature. Among the meteorological stations, Mongla and Ishwardi show the maximum departure than those of others. This study may help policy-makers, researchers, and academicians to take proper initiatives to reduce the impacts of changing climatic parameters in the coastal areas of Bangladesh.
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