Variation of Lightning and Convective Rain Fraction in Mesoscale Convective Systems of the MJO

Virts Katrina S.; Houze Robert A. Jr.

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Variation of Lightning and Convective Rain Fraction in Mesoscale Convective Systems of the MJO

机译：MJO中尺度对流系统中闪电和对流雨分数的变化

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Characteristics of mesoscale convective systems (MCSs) in regions affected by the Madden-Julian oscillation (MJO) are investigated using a database of MCSs observed by the Moderate Resolution Imaging Spectroradiometer (MODIS) and the Advanced Microwave Scanning Radiometer for Earth Observing System (AMSR-E). Lightning occurrence detected by the World-Wide Lightning Location Network (WWLLN) is composited in a framework centered on the MCSs. During MJO active periods, MCSs are more numerous and larger, as the convective features persist and attain greater horizontal scales. Anomalies of the lifted index, derived from the European Centre for Medium-Range Weather Forecasts (ECMWF) interim reanalysis (ERA-Interim) fields, indicate that MCS environments are more stable during MJO active periods.

机译：使用由中等分辨率成像光谱仪（MODIS）和先进的地球观测系统微波扫描辐射仪（MCSR-）观测的MCS数据库，研究了受Madden-Julian振荡（MJO）影响的区域的中尺度对流系统（MCS）的特征。 E）。由全球闪电定位网络（WWLLN）检测到的闪电事件是在以MCS为中心的框架中合成的。在MJO活动期，由于对流特征持续存在并获得更大的水平尺度，MCS越来越多，规模也更大。从欧洲中型天气预报中心（ECMWF）临时重新分析（ERA-Interim）字段得出的提升指数异常表明，在MJO活动期，MCS环境更加稳定。

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《Journal of the Atmospheric Sciences》 |2015年第5期|共13页
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Virts Katrina S.; Houze Robert A. Jr.;
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中图分类大气科学（气象学）;
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1. Variation of Lightning and Convective Rain Fraction in Mesoscale Convective Systems of the MJO [J] . Virts Katrina S., Houze Robert A. Jr. Journal of the Atmospheric Sciences . 2015,第5期

机译：MJO中尺度对流系统中闪电和对流雨分数的变化
2. A Comparison of WSR-88D Reflectivities, SSM/I Brightness Temperatures, and Lightning for Mesoscale Convective Systems in Texas. Part I: Radar Reflectivity and Lightning [J] . E. RICHARD TORACINTA, KAREN I. MOHR, EDWARD J. ZIPSER, Journal of Applied Meteorology . 1996,第6期

机译：德州中尺度对流系统的WSR-88D反射率，SSM / I亮度温度和闪电的比较。第一部分：雷达反射率和闪电
3. A Comparison of WSR-88D Reflectivities, SSM/I Brightness Temperatures, and Lightning for Mesoscale Convective Systems in Texas. Part II: SSM/I Brightness Temperatures and Lightning [J] . KAREN I. MOHR, E. RICHARD TORACINTA, EDWARD J. ZIPSER, Journal of Applied Meteorology . 1996,第6期

机译：德州中尺度对流系统的WSR-88D反射率，SSM / I亮度温度和闪电的比较。第二部分：SSM / I亮度温度和闪电
4. The Nature of Mesoscale Convective Systems Active and Suppressed Phases of the MJO: Insights from Aircraft during the DYNAMO Project [C] . David P.Jorgensen, Bradley Nick Guy, Shuyi Chen The 9th conference on meso-scale convective systems and high-impact weather in East Asia . 2013

机译：MJO中尺度对流系统活动阶段和受抑制阶段的性质：DYNAMO项目期间飞机的见解
5. An observational study of electrical structure in convective regions of mesoscale convective systems. [D] . Stolzenburg, Maribeth. 1996

机译：中尺度对流系统对流区电子结构的观测研究。
6. Dry soils can intensify mesoscale convective systems [O] . Cornelia Klein, Christopher M. Taylor 2020

机译：干燥的土壤可以加剧Mesoscale对流系统
7. Cloud-to-ground lightning and Mesoscale Convective Systems [O] . Mattos Enrique V., Machado Luiz A.T. 2011

机译：云对地闪电和中尺度对流系统
8. Parameterization of convective clouds mesoscale convective systems, and convective-generated cirrus. Final report, September 15, 1990--October 31, 1993. [R] . Cotton, W. R. 1993

机译：对流云的参数化中尺度对流系统和对流产生的卷云。最终报告，1990年9月15日 - 1993年10月31日。

Variation of Lightning and Convective Rain Fraction in Mesoscale Convective Systems of the MJO

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