FY-4A LMI Observed Lightning Activity in Super Typhoon Mangkhut(2018)in Comparison with WWLLN Data
作者:Wenjuan ZHANG,Wen HUI,Weitao LYU,Dongjie CAO,Pengfei LI,Dong ZHENG,Xiang FANG,Yijun ZHANG
摘要:Using lightning observations from the Fengyun-4A Lightning Mapping Imager(FY-4A LMI),best-track data from the Shanghai Typhoon Institute,bright temperature(TBB)data from Himawari-8 satellite,and composite reflectivity(CR)data from the South China radar network,we investigate the spatiotemporal distribution of lightning activity and convective evolution during the landfall of Super Typhoon Mangkhut,the strongest landing typhoon in China in2018.Three stages of active total lightning are observed,and differences of lightning characteristics between the inner core and the outer rainbands are present.The onset of inner-core lightning outbreak is about 4 h ahead of the maximum intensity of the storm,providing indicative information on the change of typhoon intensity.Lightning rates in the outer rainbands increase rapidly 12 h before the landfall,and lightning activity is mainly confined in the outer rainbands after the landfall.A good correlation in hourly variation is shown between lightning rates from the LMI and TBBs from the satellite.The averaged TBB within the inner core reaches its minimum(–80℃)when the innercore lightning outbreak occurs,indicating the occurrence and enhancement of deep convection there.Lightning locations observed by the LMI has a good spatial correspondence with regions of low TBBs and high CRs,revealing the monitoring capability of the LMI to lightning activity and deep convection in landing typhoons.Comparisons between the World Wide Lightning Location Network(WWLLN)and the LMI reveal that the spatial distribution,temporal evolution,and radial pattern of lightning activity in Mangkhut observed by the two systems are consistent.Furthermore,due to the detection capability of total lightning,the LMI has advantages in revealing the higher ratio of intra-cloud lightning within the inner core in typhoon.The continuous and real-time observation ofFY-4ALMI provides an unprecedented platform for monitoring total lightning and deep convection in landing typhoons in China,which will promote the ge
发文机构:State Key Laboratory of Severe Weather Key Laboratory of Radiometric Calibration and Validation for Environmental Satellites Ecological and Meteorological Center of Heilongjiang Province Institute of Atmospheric Science
关键词:FY-4ALMILIGHTNINGCONVECTIONLANDINGTYPHOONWWLLNMangkhut
分类号: P44[天文地球—大气科学及气象学]
CSCD- Major Scientific Achievements of the First China–Japan Cooperative GAME/HUBEX Experiment: A Historical Review
- Identifying and Quantifying Pixel-Level Uncertainty among Major Satellite Derived Global Land Cover Products
- A Multivariable Approach for Estimating Soil Moisture from Microwave Radiation Imager(MWRI)
- Spatial Distribution and Temporal Trend Characteristics of Agro-Climatic Resources and Extreme Climate Events during the Soybean Growing Season in Northeast China from 1981 to 2017
- Bias Analysis and Correction of Ground Surface Temperature Observations across China
- Research Progress on Estimation of the Atmospheric Boundary Layer Height
- Joint Effect of East Asia-Pacific and Eurasian Teleconnections on the Summer Precipitation in North Asia
- Increasing Trend of Summertime Synoptic Wave Train Activity over the Western North Pacific since 1950
- Spatiotemporal Drought Assessment over Sahelian Countries from 1985 to 2015
- Climate Sensitivity and Feedbacks of BCC-CSM to Idealized CO2 Forcing from CMIP5 to CMIP6