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Volume 29 Issue 5

Sep.  2012

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Article >  ADVANCES IN ATMOSPHERIC SCIENCES  > 2012 >  29(5): 993-1005

Progresses in the Atmospheric Electricity Researches in China during 2006--2010

  • 1.

    Key Laboratory of Middle Atmosphere and Global Environment Observation, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029


doi: 10.1007/s00376-011-1195-0

  • Atmospheric electricity is composed of a wide range of electric phenomena in the troposphere, stratosphere, and even lower ionosphere. Research progress on atmospheric electricity in the past 5 years in China are briefly reviewed here. This research area has been greatly expanded through rocket-triggered lightning experiments and the increased use of high spatio-temporal resolution techniques for the detection and location of lightning. The main results described in this review are summarized in the following five aspects: (1) processes and parameters inferred from rocket-triggered lightning, (2) lightning physics and effects (observations and theoretical study), (3) lightning activities associated with different thunderstorms, (4) charge structure of thunderstorms (observations and simulation), and (5) the VHF/UHF lightning location techniques and discharge channel mapping.
  • [1] QIE Xiushu, ZHANG Yijun, YUAN Tie, ZHANG Qilin, ZHANG Tinglong, ZHU Baoyou, LU Weitao, MA Ming, YANG Jing, ZHOU Yunjun, FENG Guili, 2015: A Review of Atmospheric Electricity Research in China, ADVANCES IN ATMOSPHERIC SCIENCES, 32, 169-191.  doi: 10.1007/s00376-014-0003-z
    [2] Weitao LYU, Dong ZHENG, Yang ZHANG, Wen YAO, Rubin JIANG, Shanfeng YUAN, Dongxia LIU, Fanchao LYU, Baoyou ZHU, Gaopeng LU, Qilin ZHANG, Yongbo TAN, Xuejuan WANG, Yakun LIU, Shaodong CHEN, Lyuwen CHEN, Qingyong LI, Yijun ZHANG, 2023: A Review of Atmospheric Electricity Research in China from 2019 to 2022, ADVANCES IN ATMOSPHERIC SCIENCES, 40, 1457-1484.  doi: 10.1007/s00376-023-2280-x
    [3] Tianxue ZHENG, Yongbo TAN, Yiru WANG, 2021: Numerical Simulation to Evaluate the Effects of Upward Lightning Discharges on Thunderstorm Electrical Parameters, ADVANCES IN ATMOSPHERIC SCIENCES, 38, 446-459.  doi: 10.1007/s00376-020-0154-z
    [4] Abhay SRIVASTAVA, Dongxia LIU, Chen XU, Shanfeng YUAN, Dongfang WANG, Ogunsua BABALOLA, Zhuling SUN, Zhixiong CHEN, Hongbo ZHANG, 2022: Lightning Nowcasting with an Algorithm of Thunderstorm Tracking Based on Lightning Location Data over the Beijing Area, ADVANCES IN ATMOSPHERIC SCIENCES, 39, 178-188.  doi: 10.1007/s00376-021-0398-2
    [5] Huaming ZHANG, Yijun ZHANG, Weitao LYU, Yang ZHANG, Qi QI, Yanfeng FAN, 2019: Analysis of the Spectral Characteristics of Triggered Lightning, ADVANCES IN ATMOSPHERIC SCIENCES, 36, 1265-1272.  doi: 10.1007/s00376-019-9006-0
    [6] Dong ZHENG, Yijun ZHANG, Qing MENG, Luwen CHEN, Jianru DAN, 2016: Climatology of Lightning Activity in South China and Its Relationships to Precipitation and Convective Available Potential Energy, ADVANCES IN ATMOSPHERIC SCIENCES, 33, 365-376.  doi: 10.1007/s00376-015-5124-5
    [7] WANG Yanhui, ZHANG Guangshu, ZHANG Tong, LI Yajun, WU Bin, and ZHANG Tinglong, 2013: Interaction between adjacent lightning discharges in clouds, ADVANCES IN ATMOSPHERIC SCIENCES, 30, 1106-1116.  doi: 10.1007/s00376-012-2008-9
    [8] Zou Yousuo, 1989: Conditions for Producing and Maintaining Plasma Ball Lightning in the Atmosphere, ADVANCES IN ATMOSPHERIC SCIENCES, 6, 62-74.  doi: 10.1007/BF02656918
    [9] Fengxia GUO, Xiaoyu JU, Min BAO, Ganyi LU, Zupei LIU, Yawen LI, Yijun MU, 2017: Relationship between Lightning Activity and Tropospheric Nitrogen Dioxide and the Estimation of Lightning-produced Nitrogen Oxides over China, ADVANCES IN ATMOSPHERIC SCIENCES, 34, 235-245.  doi: 10.1007/s00376-016-6087-x
    [10] Qi LI, Fengxia GUO, Xiaoyu JU, Ze LIU, Mingjun GAN, Kun ZHANG, Binbin CAI, 2023: Estimation of Lightning-Generated NOx in the Mainland of China Based on Cloud-to-Ground Lightning Location Data, ADVANCES IN ATMOSPHERIC SCIENCES, 40, 129-143.  doi: 10.1007/s00376-022-1329-6
    [11] PAN Lunxiang, QIE Xiushu, WANG Dongfang, , 2014: Lightning Activity and Its Relation to the Intensity of Typhoons over the Northwest Pacific Ocean, ADVANCES IN ATMOSPHERIC SCIENCES, 31, 581-592.  doi: 10.1007/s00376-013-3115-y
    [12] Wanli LI, Xiushu QIE, Shenming FU, Debin SU, Yonghai SHEN, 2016: Simulation of Quasi-Linear Mesoscale Convective Systems in Northern China: Lightning Activities and Storm Structure, ADVANCES IN ATMOSPHERIC SCIENCES, 33, 85-100.  doi: 10.1007/s00376-015-4170-3
    [13] Dongxia LIU, Xiushu QIE, Yichen CHEN, Zhuling SUN, Shanfeng YUAN, 2020: Investigating Lightning Characteristics through a Supercell Storm by Comprehensive Coordinated Observations over North China, ADVANCES IN ATMOSPHERIC SCIENCES, 37, 861-872.  doi: 10.1007/s00376-020-9264-x
    [14] Anjing HUANG, Gaopeng LU, Hongbo ZHANG, Feifan LIU, Yanfeng FAN, Baoyou ZHU, Jing YANG, Zhichao WANG, 2018: Locating Parent Lightning Strokes of Sprites Observed over a Mesoscale Convective System in Shandong Province, China, ADVANCES IN ATMOSPHERIC SCIENCES, 35, 1396-1414.  doi: 10.1007/s00376-018-7306-4
    [15] Manman MA, Xiaogang HUANG, Jianfang FEI, Chi ZHANG, Chao LI, Xiaoping CHENG, 2022: Analysis of the Winter Cloud-to-Ground Lightning Activity and Its Synoptic Background in China during 2010–20, ADVANCES IN ATMOSPHERIC SCIENCES, 39, 985-998.  doi: 10.1007/s00376-021-1260-2
    [16] Yang LI, Yubao LIU, Rongfu SUN, Fengxia GUO, Xiaofeng XU, Haixiang XU, 2023: Convective Storm VIL and Lightning Nowcasting Using Satellite and Weather Radar Measurements Based on Multi-Task Learning Models, ADVANCES IN ATMOSPHERIC SCIENCES, 40, 887-899.  doi: 10.1007/s00376-022-2082-6
    [17] LIU Dongxia, QIE Xiushu, XIONG Yajun, FENG Guili, 2011: Evolution of the Total Lightning Activity in a Leading-Line and Trailing Stratiform Mesoscale Convective System over Beijing, ADVANCES IN ATMOSPHERIC SCIENCES, 28, 866-878.  doi: 10.1007/s00376-010-0001-8
    [18] Rong KONG, Ming XUE, Edward R. MANSELL, Chengsi LIU, Alexandre O. FIERRO, 2024: Assimilation of GOES-R Geostationary Lightning Mapper Flash Extent Density Data in GSI 3DVar, EnKF, and Hybrid En3DVar for the Analysis and Short-Term Forecast of a Supercell Storm Case, ADVANCES IN ATMOSPHERIC SCIENCES, 41, 263-277.  doi: 10.1007/s00376-023-2340-2
    [19] A. A. Bidokhti, T. Bani-Hashem, 2001: Structure of Thunderstorm Gust Fronts with Topographic Effects, ADVANCES IN ATMOSPHERIC SCIENCES, 18, 1161-1174.  doi: 10.1007/s00376-001-0030-4
    [20] Xiushu QIE, Yijun ZHANG, 2019: A Review of Atmospheric Electricity Research in China from 2011 to 2018, ADVANCES IN ATMOSPHERIC SCIENCES, 36, 994-1014.  doi: 10.1007/s00376-019-8195-x
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    • Manuscript History

    Manuscript received: 10 September 2012
    Manuscript revised: 10 September 2012
    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

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    Progresses in the Atmospheric Electricity Researches in China during 2006--2010

    • 1. Key Laboratory of Middle Atmosphere and Global Environment Observation, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029
    • Manuscript received: 2012-09-10
    • Manuscript revised: 2012-09-10

    Abstract: Atmospheric electricity is composed of a wide range of electric phenomena in the troposphere, stratosphere, and even lower ionosphere. Research progress on atmospheric electricity in the past 5 years in China are briefly reviewed here. This research area has been greatly expanded through rocket-triggered lightning experiments and the increased use of high spatio-temporal resolution techniques for the detection and location of lightning. The main results described in this review are summarized in the following five aspects: (1) processes and parameters inferred from rocket-triggered lightning, (2) lightning physics and effects (observations and theoretical study), (3) lightning activities associated with different thunderstorms, (4) charge structure of thunderstorms (observations and simulation), and (5) the VHF/UHF lightning location techniques and discharge channel mapping.

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