Relationships between the Structure of Convective Clouds and Lightning Frequency Derived from Radiophysical Measurements

Sinkevich A. A.; Mikhailovskii Yu P.; Matrosov S. Yu; Popov V. B.; Snegurov V. S.; Snegurov A. V; Dovgalyuk Yu A.; Veremei N. E.

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Relationships between the Structure of Convective Clouds and Lightning Frequency Derived from Radiophysical Measurements

机译：对流云的结构与放射物理测量得出的雷电频率之间的关系

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The results of simultaneous radar, radiometric, and lightning location measurements are analyzed to reveal interrelations between the characteristics of electric discharges and the parameters of a cumulonimbus cloud developing near Saint Petersburg. The dependences of the cloud electric activity on the radar characteristics as well as on the parameters derived from the Meteosat SEVIRI radiometer measurements are considered. It is found that lightning frequency highly correlates with the volume of supercooled cloud regions with high values of reflectivity. An increase in the lightning frequency occurs about 20 minutes after the moment when supercooled cloud volumes with reflectivity above 35-55 dBZ reach the maximum values. The maximum precipitation flux precedes the maximum lightning frequency.

机译：分析了同时进行的雷达，辐射测量和闪电位置测量的结果，以揭示放电特性与圣彼得堡附近形成的积雨云参数之间的相互关系。考虑了云电活动对雷达特性的依赖以及从Meteosat SEVIRI辐射计测量得出的参数。发现闪电频率与具有高反射率值的过冷云区域的体积高度相关。当反射率高于35-55 dBZ的过冷云体积达到最大值后约20分钟，闪电频率就会增加。最大降水通量先于最大雷电频率。

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来源
《Russian meteorology and hydrology 》 |2019年第6期| 394-403| 共10页
作者
Sinkevich A. A.; Mikhailovskii Yu P.; Matrosov S. Yu; Popov V. B.; Snegurov V. S.; Snegurov A. V; Dovgalyuk Yu A.; Veremei N. E.;
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作者单位

Voeikov Main Geophys Observ Ul Karbysheva 7 St Petersburg 194021 Russia;

Univ Colorado 216 UCB Boulder CO 80309 USA;

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正文语种 eng
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Cumulonimbus cloud; cloud micro- and macrostructure; electric activity; lightning frequency; radar; radiometric; and lightning location measurements;

机译：积雨云;云的微观和宏观结构;电活动雷电频率雷达;辐射度和闪电位置测量;

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1. The relationship between total cloud lightning behavior and radar-derived thunderstorm structure [J] . Metzger E., Nuss W.A. Weather and forecasting . 2013 ,第1期

机译：全云闪电行为与雷达雷暴结构的关系
2. A global lightning parameterization based on statistical relationships among environmental factors, aerosols, and convective clouds in the TRMM climatology [J] . Douglas C. Stolz, Steven A. Rutledge, Jeffrey R. Pierce, Journal of Geophysical Research, D. Atmospheres: JGR . 2017 ,第14期

机译：基于TRMM气候学中的环境因素，气溶胶和对流云之间的统计关系的全球闪电参数化
3. Relationships between lightning and properties of convective cloud clusters [J] . Futyan JM, Del Genio AD Geophysical Research Letters . 2007 ,第15期

机译：对流云团闪电与物性的关系
4. Footprint size and cloud-clearing error relationships derived from NAST-Ⅰtop of the atmosphere radiance measurements [C] . Gail. E. Bingham, Steven A. Arnesen, Gregory W. Cantwell, Conference on Remote Sensing of Clouds and the Atmosphere . 2004

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5. Understanding the relationships between lightning, cloud microphysics, and airborne radar-derived storm structure during Hurricane Karl (2010). [D] . Reinhart, Brad J. 2012

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7. Understanding the Relationships between Lightning, Cloud Microphysics, and Airborne Radar-Derived Storm Structure during Hurricane Karl (2010) [O] . Brad Reinhart, Henry Fuelberg, Richard Blakeslee, 2012

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Relationships between the Structure of Convective Clouds and Lightning Frequency Derived from Radiophysical Measurements

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