关键词: 雷达回波, 地闪密度, 对比分析, TBB

Abstract: Based on the dataset of the hourly FY-2C infrared TBB, the radar reflectivity from 6 radar sites, and the cloud-to-ground (CG) lightning from Hong Kong, the distribution and spatio-temporal variations of deep convection over Guangdong and adjacent areas from May to June of 2008 are analyzed. The relationship between mesoscale convective systems and heavy precipitation, the differences of TBB, radar reflectivity and CG lightning data, are emphatically compared. The results show that the characteristics of deep convection over Guangdong and adjacent areas during this period are as follows: 1) The activity of deep convection denoted by TBB, radar reflectivity and CG lightning, respectively, obviously correspond to the persisting heavy rain events, and the statistical characteristics of these three data types reveal that the third period of precipitation is the severest, but the distribution of CG lightning density is remarkably different from that of TBB and radar reflectivity. 2) The peaks of deep convection denoted by these three data types in one day are almost consistent with the precipitation peak. 3) The diurnal variations of deep convection show that the convection over land differed from that over sea, which developed earlier than the former. However, the convection over coastal areas is the most frequent. 4) The CG lightning distribution can largely reveal the convection with smaller scale and shorter lifetime, radar reflectivity and TBB distribution can, to a great extent, reflect the convection with larger scale and longer lifetime.

Key words: radar reflectivity, CG lightning density, contrast analysis , TBB