Seasonal Variations of Observed Raindrop Size Distribution in East China

被引:0
作者
Long Wen
Kun Zhao
Mengyao Wang
Guifu Zhang
机构
[1] Nanjing University,Key Laboratory of Mesoscale Severe Weather of Ministry of Education and School of Atmospheric Sciences
[2] Chinese Academy of Meteorological Sciences,State Key Laboratory of Severe Weather and Joint Center for Atmospheric Radar Research of China Meteorological Administration and Nanjing University
[3] Xichang Satellite Launch Center,School of Meteorology and Center for Analysis and Prediction of Storms
[4] University of Oklahoma,undefined
来源
Advances in Atmospheric Sciences | 2019年 / 36卷
关键词
raindrop size distribution; precipitation microphysics; disdrometer; seasonal variation; East China; 雨滴谱分布; 降水微物理; 雨滴谱仪; 季节变化; 中国东部地区;
D O I
暂无
中图分类号
学科分类号
摘要
Seasonal variations of rainfall microphysics in East China are investigated using data from the observations of a two-dimensional 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.
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页码:346 / 362
页数:16
相关论文
共 256 条
  • [1] Brandes E. A.(2002)Experiments in rainfall estimation with a polarimetric radar in a subtropical environment J. Appl. Meteor. 41 674-685
  • [2] Zhang G. F.(2007)A statistical and physical description of hydrometeor distributions in Colorado snowstorms using a video disdrometer Journal of Applied Meteorology and Climatology 46 634-650
  • [3] Vivekanandan J.(2003)Raindrop size distribution in different climatic regimes from disdrometer and dualpolarized radar analysis J. Atmos. Sci. 60 354-365
  • [4] Brandes E. A.(2006)Rainfall estimation from C-band polarimetric radar in Okinawa, Japan: Comparisons with 2D-Video disdrometer and 400MHz wind profiler J. Meteor. Soc. Japan 84 705-724
  • [5] Ikeda K.(2008)Analysis of video disdrometer and polarimetric radar data to characterize rain microphysics in Oklahoma Journal of Applied Meteorology and Climatology 47 2238-2255
  • [6] Zhang G. F.(2016)Estimating rain fall erosivity by aggregated drop size distributions Hydrological Processes 30 2119-2128
  • [7] Schönhuber M.(2015)Storminess and geo-hydrological events affecting small coastal basins in a terraced Mediterranean environment Science of the Total Environment 532 208-219
  • [8] Rasmussen R. M.(2013)Raindrop size distributions and their association with characteristics of clouds and precipitation during monsoon and post-monsoon periods over a tropical Indian station Atmos. Res. 124 181-189
  • [9] Bringi V. N.(2013)Microphysical characteristics of clouds and precipitation during pre-monsoon and monsoon period over a tropical Indian station Journal of Atmospheric and Solar-Terrestrial Physics 94 28-33
  • [10] Chandrasekar V.(2009)Characteristics of the raindrop size distribution and drop shape relation in typhoon systems in the western Pacific from the 2D video disdrometer and NCU C-band polarimetric radar J. Atmos. Oceanic Technol. 26 1973-1993
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