Seasonal Variations of Observed Raindrop Size Distribution in East China

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英文篇名：Seasonal Variations of Observed Raindrop Size Distribution in East China 作者：Long ; WEN ; Kun ; ZHAO ; Mengyao ; WANG ; Guifu ; ZHANG 英文作者：Long WEN;Kun ZHAO;Mengyao WANG;Guifu ZHANG;Key Laboratory of Mesoscale Severe Weather of Ministry of Education and School of Atmospheric Sciences,Nanjing University;State Key Laboratory of Severe Weather and Joint Center for Atmospheric Radar Research of China Meteorological Administration and Nanjing University,Chinese Academy of Meteorological Sciences;Xichang Satellite Launch Center;School of Meteorology and Center for Analysis and Prediction of Storms,University of Oklahoma; 英文关键词：raindrop size distribution;;precipitation microphysics;;disdrometer;;seasonal variation;;East China 中文刊名：Advances in Atmospheric Sciences 英文刊名：大气科学进展(英文版) 机构：Key Laboratory of Mesoscale Severe Weather of Ministry of Education and School of Atmospheric Sciences,Nanjing University;State Key Laboratory of Severe Weather and Joint Center for Atmospheric Radar Research of China Meteorological Administration and Nanjing University,Chinese Academy of Meteorological Sciences;Xichang Satellite Launch Center;School of Meteorology and Center for Analysis and Prediction of Storms,University of Oklahoma; 出版日期：2019-03-05 出版单位：Advances in Atmospheric Sciences 年：2019 期：04 基金：primarily supported by the National Key Research and Development Program of China(Grant No.2017YFC1501703);; the National Natural Science Foundation of China(Grant Nos.41875053,41475015 and 41322032);; the National Fundamental Research 973 Program of China(Grant Nos.2013CB430101 and 2015CB452800);; collected by a National 973 Project(Grant No.2013CB430101) 语种：英文; 页：10-26 页数：17 CN：11-1925/O4 ISSN：0256-1530 分类号：P412;P426.6

摘要

Seasonal variations of rainfall microphysics in East China are investigated using data from the observations of a twodimensional video disdrometer and a vertically pointing micro rain radar. The precipitation and rain drop size distribution(DSD) characteristics are revealed for different rain types and seasons. Summer rainfall is dominated by convective rain,while during the other seasons the contribution of stratiform rain to rainfall amount is equal to or even larger than that of convective rain. The mean mass-weighted diameter versus the generalized intercept parameter pairs of convective rain are plotted roughly around the "maritime" cluster, indicating a maritime nature of convective precipitation throughout the year in East China. The localized rainfall estimators, i.e., rainfall kinetic energy–rain rate, shape–slope, and radar reflectivity–rain rate relations are further derived. DSD variability is believed to be a major source of diversity of the aforementioned derived estimators. These newly derived relations would certainly improve the accuracy of rainfall kinetic energy estimation, DSD retrieval, and quantitative precipitation estimation in this specific region.
        Seasonal variations of rainfall microphysics in East China are investigated using data from the observations of a twodimensional video disdrometer and a vertically pointing micro rain radar. The precipitation and rain drop size distribution(DSD) characteristics are revealed for different rain types and seasons. Summer rainfall is dominated by convective rain,while during the other seasons the contribution of stratiform rain to rainfall amount is equal to or even larger than that of convective rain. The mean mass-weighted diameter versus the generalized intercept parameter pairs of convective rain are plotted roughly around the "maritime" cluster, indicating a maritime nature of convective precipitation throughout the year in East China. The localized rainfall estimators, i.e., rainfall kinetic energy–rain rate, shape–slope, and radar reflectivity–rain rate relations are further derived. DSD variability is believed to be a major source of diversity of the aforementioned derived estimators. These newly derived relations would certainly improve the accuracy of rainfall kinetic energy estimation, DSD retrieval, and quantitative precipitation estimation in this specific region.

引文

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