1980-2020年登陆中国热带气旋强降水事件特征分析OA
Analysis of characteristics of heavy rainfall events induced by landfalling tropical cyclones in China from 1980 to 2020
[目的]中国是受热带气旋强降水影响最严重的国家之一,每年都有数百亿经济损失,厘清热带气旋强降水事件的变化特征对防洪减灾具有重要意义.[方法]使用利用中国气象局1 185个气象站点逐时降水资料和热带气旋最佳路径数据集,采用绝对阈值法定义强降水事件,应用线性回归法对1980-2020年登陆中国热带气旋引发的小时尺度强降水事件特征进行分析,其中分别对强降水事件时空分布特征以及不同历时(短历时1~6h,中历时7~12h,长历时>12h)强降水事件频次-强度-持续时间的年际变化趋势展开研究.[结果]结果显示:(1)登陆热带气旋强降水事件主要发生在中国海南岛与东南沿海地区,向内陆、北方递减;强降水事件强度整体呈上升趋势;强降水事件持续时间从南向北、沿海向内陆递减,海南是持续时间最高(6.22 h/a)的地区;频次、强度与持续时间增长的地区主要分布在华南沿海、长江下游沿海与山东.(2)不同历时登陆热带气旋强降水事件中,长历时事件频次比重(39.75%)最高并且与短历时事件比重均保持上涨趋势,两者降水强度都在增强,但长历时事件持续时间继续上升,而短历时与中历时事件却在减短.[结论]1980-2020年,登陆热带气旋强降水事件降水强度不断增加,事件持续时间不断延长,对中国部分地区的经济社会发展和生态环境安全产生深远影响;长历时登陆热带气旋强降水事件的频次、强度、持续时间皆在增长,这对中国沿海及内陆地区的强降水灾害防御构成挑战.
[Objective]China is one of the countries most severely affected by heavy rainfall from tropical cyclones,incurring annual economic losses amounting to hundreds of billions of yuan.Understanding the variation characteristics of these events is crucial for flood prevention and disaster mitigation efforts.[Methods]Based on hourly rainfall data from 1 185 meteorological stations in China and the best track dataset of tropical cyclones,heavy rainfall events were defined using an absolute threshold method.Linear regression was employed to analyze the characteristics of hourly-scale heavy rainfall events induced by landfalling tropical cyclones in China from 1980 to 2020.The analysis focused on the spatiotemporal distribution of these events and the interannual variation trends in frequency,intensity,and duration of events with different durations(short-duration:1~6 h,medium-duration:7~12 h,and long-duration:>12 h).[Results](1)Heavy rainfall events induced by landfalling tropical cyclones mainly occurred in Hainan Island and the southeastern coastal areas of China,with their intensity weakening toward inland and northern areas.The overall intensity of such events showed an increasing trend.The duration of heavy rainfall events tended to decrease from south to north and from coastal to inland areas,with Hainan exhibiting the longest duration(6.22h/a).Areas with increasing trends in event frequency,intensity,and duration were mainly located along the southern coast,the lower reaches of the Yangtze River,and Shandong Province.(2)In rainfall events induced by landfalling tropical cyclones with different durations,long-duration events accounted for the highest proportion(39.75%)and showed an increasing trend in frequency along with short-duration events.The rainfall intensity of both types was increasing,but the duration of long-duration events continued to rise,while that of short-and medium-duration events was decreasing.[Conclusion]From 1980 to 2020,the intensity of heavy rainfall events induced by landfalling tropical cyclones has increased,and event durations have been prolonged,exerting profound impacts on the socioeconomic development and ecological security in some regions of China.The increasing frequency,intensity,and duration of long-duration heavy rainfall events pose significant challenges for disaster prevention in both coastal and inland areas of the country.
季劼;王艳君;姜彤;翟建青;桑文文;吴海兰
南京信息工程大学灾害风险管理研究院/地理科学学院,江苏南京 210044南京信息工程大学灾害风险管理研究院/地理科学学院,江苏南京 210044南京信息工程大学灾害风险管理研究院/地理科学学院,江苏南京 210044||江苏第二师范学院江苏省气候风险模拟与城乡智慧治理重点建设实验室,江苏南京 210013||江苏第二师范学院地理科学学院,江苏南京 210013南京信息工程大学灾害风险管理研究院/地理科学学院,江苏南京 210044||中国气象局国家气候中心,北京 100081南京信息工程大学灾害风险管理研究院/地理科学学院,江苏南京 210044南京信息工程大学灾害风险管理研究院/地理科学学院,江苏南京 210044
天文与地球科学
登陆热带气旋降水事件时空分布变化趋势持续时间降水强度影响因素
landfalling tropical cyclonerainfall eventspatiotemporal distributiontemporal trenddurationprecipitation intensityinfluencing factors
《水利水电技术(中英文)》 2026 (3)
79-90,12
General Program of National Natural Science Foundation of China(42271081,42071024)Innovation and Development Project of the China Meteorological Administration:(CXFZ2024J037)国家自然科学基金面上项目(42271081,42071024)中国气象局创新发展专项(CXFZ2024J037)
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