摘要
The long-term trends in the occurrence frequency of pre-summer daytime and nocturnal extreme hourly rainfall(EXHR) during 1988-2018 in Hong Kong and their spatial distributions are examined and analyzed. Despite a significant increasing trend observed in the occurrence frequency of pre-summer EXHRs during the investigated period,the increase in daytime and nocturnal EXHRs show distinct spatial patterns. Nocturnal EXHRs show uniform increasing trends over the entire Hong Kong. However, the increase in daytime EXHRs is concentrated over the northern or eastern areas of Hong Kong, indicating a downstream shift of pre-summer EXHRs in Hong Kong with regard to the prevailing southwesterly monsoonal flows in south China. The clustering of weather types associated with daytime and nocturnal EXHRs further reveals that the increase in EXHRs over Hong Kong are mainly contributed by the increase of the events associated with southwesterly monsoonal flows with relatively high speeds. During the past few decades, the southwesterly monsoonal flows at coastal south China have undergone a substantial weakening due to the increased surface roughness induced by the urbanization over the Guangdong-Hong Kong-Macao Greater Bay Area since 1990s,leading to enhanced low-level convergence and thus significant increase in EXHRs at coastal south China. Meanwhile,daytime sea-wind circulation at coastal south China is markedly enhanced during the investigated period, which is the main reason for the northward shift of daytime EXHRs in Hong Kong. In addition, the blocked southwesterly monsoonal flows at coastal south China are detoured eastward, leading to stronger convergence and increase in EXHRs at eastern coast of Hong Kong, especially during daytime, when the easterly sea winds prevail at the region.
作者
苏琳
李俊鲁
黄伟健
冯志雄
SU Lin;LI Jun-lu;Wai Kin WONG;Jimmy C.H.FUNG(School of Atmospheric Sciences,Sun Yat-sen University,and Southern Marine Science and Engineering Guangdong Laboratory(Zhuhai),Zhuhai,Guangdong 519082 China;Key Laboratory of Tropical Atmospheric-Ocean System,Ministry of Education,Zhuhai,Guangdong 519082 China;Earth,Ocean,Atmosphere Sciences Thrust,The Hong Kong University of Science and Technology(Guangzhou):Guangzhou 511453 China;Hong Kong Observatory,Hong Kong Special Administrative Region(SAR),China;Division of Environment and Sustainability,The Hong Kong University of Science and Technology,Hong Kong SAR,China;Department of Mathematics,The Hong Kong University of Science and Technology,Hong Kong SAR,China)
基金
Guangdong Major Project of Basic and Applied Basic Research(2020B0301030004)
Hong Kong Research Grant Council(Aoe/E-603/18)。
