广州沿海特大暴雨过程的微物理结构——偏振雷达观测分析

IF 2.2 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Asia-Pacific Journal of Atmospheric Sciences Pub Date : 2022-08-12 DOI:10.1007/s13143-022-00289-y
Hong Wang, Jinfang Yin, Naigeng Wu, Weiyu Ding
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引用次数: 2

摘要

2017年5月6日至7日,在弱天气强迫下,中国广州发生了一次破纪录的夜间降雨事件(16小时543毫米)。利用s波段偏振雷达资料研究了这次暴雨的演变过程和微物理结构。暴雨集中在两个核心,一个是花都区上空,风暴于午夜在城市和山区之间开始,另一个是黄埔和增城区上空,其特征是局地触发的风暴与来自花都的风暴合并。两个强降水区在水平极化(ZH)量级反射系数强、质心积雨云结构低、差反射率(ZDR)柱形等方面具有一定的相似性。但它们之间也可以看到明显的差异。与HD相比,ZC降水强度更大,降水持续时间更长,累积降雨量更大。此外,ZC的ZDR值也相对较低,约为0.2 dB,比差相(KDP)较高,约为~ 0.35°km−1,说明ZC的中等大小雨滴数量较多,含水量较高。雷达反演的雨滴粒径分布(即质量加权直径、对数归一化截距和液态水含量)表明,在ZC上空的风暴中,小粒径颗粒和高颗粒数浓度更为明显。结合反演的DSDs,合并过程给ZC带来了更多中等大小的雨滴,并且增加了雨滴通过雨水增加云水而增长的可能性,从而导致降水增强。此外,强KDP可能是极端降水强度的一个很好的指标。
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Microphysical Structures of an Extreme Rainfall Event Over the Coastal Metropolitan City of Guangzhou, China: Observation Analysis with Polarimetric Radar

A record-breaking nocturnal rainfall event (543 mm in 16-h) under weak synoptic forcing occurred in the metropolitan city of Guangzhou, China, during 6–7 May 2017. The evolution and microphysical structures of this torrential rainfall event are investigated using S-band polarimetric radar datasets. The torrential rainfall concentrated in two cores: one over Huadu District (HD) in which the storms were initiated between urban areas and mountains at mid-night, and the other over Huangpu and Zengcheng District (ZC) which was characterized by locally triggered storms merging with the storms from HD. The two heavy precipitation regions show some similarities, including strong reflectivity factor for horizontal polarizations (ZH) magnitude, low centroid cumulonimbus structures, and column shape of differential reflectivity (ZDR). But obvious differences can also be viewed between them. Compared to HD, ZC has higher precipitation intensity, longer precipitation duration, and larger accumulated rainfall. Besides, ZC also has a relatively lower ZDR value of ~ 0.2 dB and a higher specific differential phase (KDP) of approximately ~ 0.35° km−1, which indicates the larger population of medium-sized rain droplet and higher water content in ZC. The radar-retrieved drop size distributions (DSDs) (i.e., mass-weighted diameter, logarithmic normalized intercept, and liquid water content) show that small size particles and high particle number concentration are more obvious in the storm over ZC. Combined with the retrieved DSDs, the merger process brings more medium-sized raindrops to ZC, and increases the possibility of raindrop growth via the accretion of cloud water by rain, which leads to enhancement of precipitation. In addition, strong KDP may be a good indicator of intensity for extreme precipitation.

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来源期刊
Asia-Pacific Journal of Atmospheric Sciences
Asia-Pacific Journal of Atmospheric Sciences 地学-气象与大气科学
CiteScore
5.50
自引率
4.30%
发文量
34
审稿时长
>12 weeks
期刊介绍: The Asia-Pacific Journal of Atmospheric Sciences (APJAS) is an international journal of the Korean Meteorological Society (KMS), published fully in English. It has started from 2008 by succeeding the KMS'' former journal, the Journal of the Korean Meteorological Society (JKMS), which published a total of 47 volumes as of 2011, in its time-honored tradition since 1965. Since 2008, the APJAS is included in the journal list of Thomson Reuters’ SCIE (Science Citation Index Expanded) and also in SCOPUS, the Elsevier Bibliographic Database, indicating the increased awareness and quality of the journal.
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