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1.
Based on the CINRAD Doppler radar data in Guangzhou and the lightning data in 2004 by power suppliers of Guangdong, statistical study is done by overlaying lightning’s position on radar’s echo. The result shows the followings. The concentrated period in which more negative lightning occurred at the middle levels (2 – 14 km), where radar echo was moderate (12 – 45 dBz), rather than at the low levels with the weakest echoes or at high levels with the strongest echoes. At levels 3 – 11 km, where the radar echo was between 10 dBz and 35 dBz, the area of negative lightning was much larger in central Guangdong than in the rest of the province. At levels 0.5 – 7 km where the radar echoes were between 44 dBz and 51 dBz, the probability for a point to have negative lightning varies from 0.4 to 0.7.  相似文献   

2.
The polarimetric radar network in Jiangsu Province has just been operationalized since 2020. The first intense precipitation event observed by this polarimetric radar network and disdrometer occurred during August 28-29, 2020 and caused severe flooding and serious damage in eastern Jiangsu Province. The microphysics and kinetics for this heavy precipitation convective storm is diagnosed in this study, in order to promote the application of this polarimetric radar network. Drop size distribution (DSD) of this event is estimated from measurements of a ground disdrometer, and the corresponding three-dimensional atmospheric microphysical features are obtained from the multiple polarimetric radars. According to features of updraft and lighting, the evolution of the convective storm is divided into four stages: developing, mature with lightning, mature without lightning and dissipating. The DSD of this event is featured by a large number of raindrops and a considerable number of large raindrops. The microphysical characteristics are similar to those of warm-rain process, and ice-phase microphysical processes are active in the mature stages. The composite vertical structure of the convective storm indicates that deep ZDR and KDP columns coincide with strong updrafts during both mature stages. The hierarchical microphysical structure retrieved by the Hydrometeor Identification Algorithm (HID) shows that depositional growth has occurred above the melting level, and aggregation is the most widespread ice-phase process at the -10℃ level or higher. During negative lightning activity, the presence of strongest updrafts and a large amount of ice-phase graupel by riming between the 0℃ and -35℃ layers generate strong negative electric fields within the cloud. These convective storms are typical warm clouds with very high precipitation efficiency, which cause high concentration of raindrops, especially the presence of large raindrops within a short period of time. The ice-phase microphysical processes above the melting layer also play an important role in the triggering and enhancing of precipitation.  相似文献   

3.
This study investigates classification and diurnal variations of the precipitation echoes over the central Tibetan Plateau based on the observations collected from a C-band vertically-pointing frequency-modulated continuous-wave(C-FMCW)radar during the Third Tibetan Plateau Atmospheric Scientific Experiment(TIPEX-Ⅲ)2014-Intensive Observation Period(2014-IOP).The results show that 51.32%of the vertical profiles have valid echoes with reflectivity–10 dBZ,and 35.06% of the valid echo profiles produce precipitation at the ground(precipitation profiles);stratiform precipitation with an evident bright-band signature,weak convective precipitation,and strong convective precipitation account for 52.03%,42.98%,and 4.99% of the precipitation profiles,respectively.About 59.84% of the precipitation occurs in the afternoon to midnight,while 40.16% of the precipitation with weaker intensity is observed in the nocturnal hours and in the morning.Diurnal variation of occurrence frequency of precipitation shows a major peak during 2100–2200 LST(local solar time)with 59.02%being the stratiform precipitation;the secondary peak appears during 1300–1400 LST with 59.71% being the weak convective precipitation;the strong convective precipitation occurs mostly(81.83%)in the afternoon and evening with two peaks over 1200–1300 and 1700–1800 LST,respectively.Starting from approximately 1100 LST,precipitation echoes develop with enhanced vertical air motion,elevated echo top,and increasing radar reflectivity.Intense upward air motion occurs most frequently in 1700–1800 LST with a secondary peak in 1100–1400 LST,while the tops of precipitation echoes and intense upward air motion reach their highest levels during 1600–1800 LST.The atmospheric conditions in the early morning are disadvantageous for convective initiation and development.Around noon,the convective available potential energy(CAPE)increases markedly,convective inhibition(CIN)is generally small,and a super-dry-adiabatic layer is present near the surface(0–400 m).In the early evening,some larger values of CAPE,level of neutral buoyancy,and total precipitable water are present,suggesting more favorable thermodynamic and water vapor conditions.  相似文献   

4.
This study examined lightning activity and its relationship to precipitation and convective available potential energy(CAPE) in South China during 2001–12, based on data from the Guangdong Lightning Location System, the Tropical Rainfall Measuring Mission satellite, and the ERA-Interim dataset. Two areas of high lightning density are identified: one over the Pearl River Delta, and the other to the north of Leizhou Peninsula. Large peak-current cloud-to-ground(LPCCG) lightning(75 kA) shows weaker land–offshore contrasts than total CG lightning, in which negative cloud-to-ground(NCG) lightning occurs more prominently than positive cloud-to-ground(PCG) lightning on land. While the frequency of total CG lightning shows a main peak in June and a second peak in August, the LPCCG lightning over land shows only a single peak in June.The ratio of positive LPCCG to total lightning is significantly greater during February–April than during other times of the year. Diurnally, CG lightning over land shows only one peak in the afternoon, whereas CG lightning offshore shows morning and afternoon peaks. The rain yield per flash is on the order of 10~7–10~8kg per flash across the analysis region, and its spatial distribution is opposite to that of lightning density. Our data show that lightning activity over land is more sensitive than that over offshore waters to CAPE. The relationships between lightning activity and both precipitation and CAPE are associated with convection activity in the analysis region.  相似文献   

5.
The analyses of spatial and temporal characteristics of positive cloud-to-ground(CG)lightning for four mesoscaleconvective systems and two severe local convective systems in 1989 and 1990 show that positive CG flash rate usuallyhas two peak values.The major peak occurs during the developing stage of the storm and most of the positive CGflashes originate at the lower part of the storm.The minor occurs during the dissipative stage of the storm and most ofthe positive CG flashes originate at the upper part of the storm,especially in the region of the wind divergence in thestorm anvil.The positive CG flash rate is almost an order of magnitude larger in the developing stage than in thedissipative stage.The appearing time of the peak of negative CG flash rate is in accordance with that of the valley of pos-itive CG flash rate.The higher the intensity of the radar echo,the higher the positive CG flash rate.Most of the positive CG flashes oc-cur when the weak echo area is larger,and mostly originate in the region where the radar echo intensity is about 10dBzand in the back region of the moving storms.The spatial distribution of the positive CG flashes is much more dispersivethan that of the negative.The mesoscale analysis reveals a bipolar lightning pattern.The mean bipole--length reaches itsminimum during the mature stage of the storm and reaches the maximum during the developing stage of the storm.The vertical distribution of the charge density is calculated by a one-dimensional charging model.Then,we discussthe producing condition of the positive CG lightning and forming cause of charge structure mentioned above.  相似文献   

6.
The diurnal cycles of precipitation over north China during summer in four strong rainfall years are examined using two-dimensional cloud-resolving modeling data. The diurnal signals are analyzed in terms of precipitation budget, fractional rainfall coverage and rain intensity over convective and stratiform rainfall area. The analysis of precipitation budget shows that the diurnal cycles of convective and stratiform precipitation mainly correspond respectively to those of water vapor convergence and transport of hydrometeor from convective rainfall area to stratiform rainfall area in 1964, 1994 and 1995, whereas they mainly correspond to those of water vapor convergence in 2013. The diurnal cycles of convective and stratiform precipitation are mainly associated with those of rain intensity in 1964, 1994 and 1995. In 2013, the diurnal cycle of stratiform precipitation is mainly related to that of fractional rainfall coverage over stratiform rainfall area. The multiple peaks of convective precipitation mainly correspond to the rain intensity maxima associated with strong water vapor convergence.  相似文献   

7.
A new radar echo tracking algorithm known as multi-scale tracking radar echoes by cross-correlation(MTREC) was developed in this study to analyze movements of radar echoes at different spatial scales.Movement of radar echoes,particularly associated with convective storms,exhibits different characteristics at various spatial scales as a result of complex interactions among meteorological systems leading to the formation of convective storms.For the null echo region,the usual correlation technique produces zero or a very small magnitude of motion vectors.To mitigate these constraints,MTREC uses the tracking radar echoes by correlation(TREC) technique with a large "box" to determine the systematic movement driven by steering wind,and MTREC applies the TREC technique with a small "box" to estimate small-scale internal motion vectors.Eventually,the MTREC vectors are obtained by synthesizing the systematic motion and the small-scale internal motion.Performance of the MTREC technique was compared with TREC technique using case studies:the Khanun typhoon on 11 September 2005 observed by Wenzhou radar and a squall-line system on 23 June 2011 detected by Beijing radar.The results demonstrate that more spatially smoothed and continuous vector fields can be generated by the MTREC technique,which leads to improvements in tracking the entire radar reflectivity pattern.The new multi-scale tracking scheme was applied to study its impact on the performance of quantitative precipitation nowcasting.The location and intensity of heavy precipitation at a 1-h lead time was more consistent with quantitative precipitation estimates using radar and rain gauges.  相似文献   

8.
Firstly, typical features of a supercell, which occurred in Guangzhou on August 11, 2004, are discussed by using the new generation weather radar data. V-notch, finger-echo, weak echo region, overhang and echo-wall are observed from reflectivity products. A vertical cross section of the radial velocity is made along the direction of the low-level inflow and across the maximum reflectivity core, which displays a part of strong updraft and downdraft. Secondly, a 3-D convective storm model is used to simulate the supercell. The maximum reflectivity and the core thickness of the simulated radar echo are 75 dBz and 14km, respectively. These values are more than the counterparts that are detected by radar. The reason is that attenuation is not calculated in the model. The wind field structure is also given when the storm is the strongest. Divergence, caused by thunderstorm outflow, is in the low level. In the middle and high level, convergence is dominant, but the plume is not simulated at the top. Finally, the evolution of the simulated vertical motion is documented. The interaction between the environmental wind and the updraft, which is formed by the convergence on the ground at the beginning, makes the storm stronger. Then, downdraft occurs and grows. When it becomes dominant, the supercell collapses.  相似文献   

9.
By using regular meteorological data, physical quantity fields, satellite pictures and Doppler radar echo data, we analyze the mesoscale features and the conditions of 4 successive heavy precipitation processes in Yunnan aroused by the storm over the Bay in the early summer. The results show that the life of the storm over the Bay is usual 2 or 3 days and the cloud top temperature of the storm is always below -65°C. The storm over the Bay affects Yunnan by mesoscale convective cloud clusters, cloud system in peripheral or weaken itself moving to the northeast. The Tibetan Plateau shear lines and vortexes, NE-SW convergence channels and southwest wind convergence supply favorable circulation background and dynamical conditions. There are many common features about Doppler radar echoes, the flocculent echoes with intensity about 35-45 dBZ move to the east to produce successive precipitation in Yunnan, and the mesoscale features of southwest jet and wind veering with altitude not only are favorable to transport warm and moist airflow brought to the north by the storm over the Bay, but also are favorable to convective development.  相似文献   

10.
Based on the merged measurements from the TRMM Precipitation Radar and Visible and Infrared Scanner,refined characteristics(intensity,frequency,vertical structure,and diurnal variation) and regional differences of the warm rain over the tropical and subtropical Pacific Ocean(40°S-40°N,120°E-70°W)in boreal summer are investigated for the period 1998-2012.The results reveal that three warm rain types(phased,pure,and mixed) exist over these regions.The phased warm rain,which occurs during the developing or declining stage of precipitation weather systems,is located over the central to western Intertropical Convergence Zone,South Pacific Convergence Zone,and Northwest Pacific.Its occurrence frequency peaks at midnight and minimizes during daytime with a 5.5-km maximum echo top.The frequency of this warm rain type is about 2.2%,and it contributes to 40%of the regional total rainfall.The pure warm rain is characterized by typical stable precipitation with an echo top lower than 4 km,and mostly occurs in Southeast Pacific.Although its frequency is less than 1.3%,this type of warm rain accounts for 95%of the regional total rainfall.Its occurrence peaks before dawn and it usually disappears in the afternoon.For the mixed warm rain,some may develop into deep convective precipitation,while most are similar to those of the pure type.The mixed warm rain is mainly located over the ocean east of Hawaii.Its frequency is 1.2%,but this type of warm rain could contribute to 80%of the regional total rainfall.The results also uncover that the mixed and pure types occur over the regions where SST ranges from 295 to 299 K,accompanied by relatively strong downdrafts at 500 hPa.Both the mixed and pure warm rains happen in a more unstable atmosphere,compared with the phased warm rain.  相似文献   

11.
云南强对流暴雨的闪电和雷达回波特征及相关性   总被引:2,自引:1,他引:1  
利用闪电监测资料和多普勒天气雷达探测资料,对2007年汛期强对流暴雨的闪电和雷达回波特征及相关性进行分析,结果表明:云南大多数暴雨属于强对流性暴雨,而且以负闪电为主,负闪电占总闪电的90 %以上;暴雨日降水量与日闪电数相关小,强的降水不一定有强的闪电活动,但大的日闪频数一般对应的暴雨日降水量大;伴随有闪电活动的强对流暴...  相似文献   

12.
慕建利  李泽椿  谌芸 《气象》2012,38(1):56-65
利用2007年8月8日18时至9日02时发生在陕西关中强暴雨期间的地闪、卫星TBB、雷达回波和地面加密降水资料,通过统计和对比分析的方法,分析了地闪活动特征及其与中尺度对流系统(MCS)和强降水的关系。地闪活动特征分析显示,暴雨过程中负地闪占绝对优势,为总地闪的97.7%。负闪频数和总闪频数的逐时演变趋势完全一致且呈现两峰一谷的趋势,正闪频数的变化呈现三峰两谷的趋势,但是正闪频数最大值与总闪、负闪频数峰值时间一致。负闪活跃期正负闪6 min演变均表现为多峰结构,正闪的波峰提前于负闪的波峰12 min。负闪频数变化和MCS、雷达反射率因子演变对比分析表明,负闪发生区是未来对流云团和对流发展加强区,负闪频数密集区位于对流云团前部TBB等值线密集区,负闪频数的急剧增加意味着未来对流系统的猛烈发展;负闪主要出现在回波强度大于40 dBz的区域,正闪则落到强回波中心两侧30~40 dBz的回波区,中尺度对流系统快速发展加强期,负闪密集区位于回波单体的前沿,中尺度系统发展稳定少动期,负闪大部分集中在各对流单体的强回波中心附近。对比分析地闪与暴雨发生发展的关系可见,地闪的发生和急剧增加对暴雨发生和发展加强有很好指示意义,初闪的发生提前于强降水发生,地闪急剧增加与降水强度猛增密切关联,负地闪发生密集区是未来强降水发生区。  相似文献   

13.
宁夏北部一次短时暴雨中尺度对流系统的特征分析   总被引:1,自引:1,他引:0  
利用自动站、闪电定位信息、多普勒雷达、卫星黑体亮温等气象资料,对2008年7月18日夜间宁夏石炭井的短时暴雨天气进行了分析。结果表明:此次单站短时暴雨是在“西高东低”的环流背景下,受东北冷涡后部横槽和低值系统影响,由两个相对较强的对流单体先后影响而后合并维持造成的。中尺度对流系统在宁夏北部持续时间近6h,云项亮温梯度最大值维持在石炭并一带;对应3次强降水时段,雷达回波强度、回波顶高、VIL出现了3次峰值,径向速度出现了气旋式辐合和逆风区结构,逆风区出现时间较强降水出现提前了20~30min,与强降水的发生、发展和减弱有较好的对应关系;闪电发生高密度区位于降水中心前缘,闪电频率突然增大时间较强降水出现超前1h。  相似文献   

14.
对2011年3次短历时强降水天气过程的闪电特征分析结果表明:①3次短时强降水都以负闪为主,负闪占总闪电的比例都在92﹪以上;②小时闪电频数峰值超前降雨峰值1h或同相;③5min闪电频数超前雨量峰值5~60min;④负闪电密集区主要发生在40dBZ以上的回波区,偶尔发生的正闪一般在较弱回波处;闪电大部分发生在回波顶高大于5km以上的区域;多分布在速度不均匀场附近;闪电密集区与VIL大值区对应关系不太好;⑤不同云体,闪电特征不尽相同,闪电频数高峰有的发生在强回波阶段,有的并不是回波最强阶段,而是减弱阶段。强回波前沿出现闪电密集区或前方无回波处发生闪电,预示未来强回波移动的方向;有的云体发展、成熟阶段闪电分布密集,负闪电主要集中在强回波中心附近,云体减弱阶段闪电分散,集中在单体的不同部位。  相似文献   

15.
利用闪电定位系统和多普勒雷达资料,通过2007年4月24日广东省一次强对流过程,剖析了不同阶段的闪电特征和雷达回波的关系。结果表明,(1)对流云带放电整体上呈带状分布,闪电随云带的移动而移动,强对流单体发生的闪电频数大且密集。(2)强降水过程中闪电活动呈双峰型分布,负闪占绝对优势,正负闪同步增加或减少,正闪电流平均幅值大于负闪,基本上是负闪的2倍。(3)闪电频数、强度和雷达回波强度在时间序列上对应较好;发生发展阶段,闪电出现位置超前雷达回波约10~40 min;在成熟和消散阶段,闪电主要发生在雷达回波>40 dBz和VIL>20 kg/m2所对应的区域,并在其周围形成一个小范围的闪电密集区。  相似文献   

16.
强对流天气雷达回波与闪电特征的个例分析   总被引:7,自引:3,他引:4  
利用闪电定位资料和多普勒天气雷达强度产品,分析了2006年6月22日发生在南京西南140km处的一次强对流天气过程中闪电的演变特征及其与回波强度的关系。结果表明,地闪多发生于雷暴云中回波强度大于40dBz且回波强度梯度较大的区域;正、负地闪频次在强对流系统发展的不同阶段呈现出不同的特点,负地闪占总闪数的90%以上,正地闪出现在系统进入成熟阶段之后,且占总闪的比例在系统消散阶段明显增大;地闪强度越大,相应的地闪频次越小,除少数弱闪(1/1〈10kA)外,二者基本上呈反相位关系。  相似文献   

17.
四川盆地地闪与对流性降水和雷达回波的关系   总被引:1,自引:0,他引:1  
范江琳  马力  青泉 《气象科技》2014,42(1):118-124
利用ADTD型闪电观测资料、SWAN拼图资料及成都CINRAD/SC多普勒天气雷达数据,对2009—2011年12次区域性大暴雨过程中的100个地闪、强降水个例和雷达回波的特征及时间关系进行了统计分析。结果表明:负地闪频数和降水强度随时间的变化较一致,有单峰、多峰的特征;负地闪频数越高,出现强降水的可能性越大;持续性强降水开始之前6~30min,83%的事件伴随有负地闪频数突增并持续性增长的现象,56%的事件有负地闪频数峰值出现,地闪频数突增对持续性强降水的开始有较好的指示意义;负地闪频数峰值出现之后的6~30min,67%的事件有出现降水量峰值,负地闪频数峰值的出现可预示雨强峰值的迅速到来;此外,在强回波移动方向的前方常伴有弱的负地闪活动,负地闪活动主要集中在35dBZ以上的强回波区,且移向与强回波的移动方向较一致。  相似文献   

18.
一次强风暴天气闪电定位资料与雷达资料的综合分析   总被引:16,自引:4,他引:16       下载免费PDF全文
根据2003年6月19日河南一次强风暴天气的闪电定位资料和714CD雷达资料,利用统计和对比分析的方法,发现了闪电活动与雷达强度回波之间存在如下关系:闪电发生频数、强度和雷达回波强度在时间序列上有较好的一致性;在雷达回波发展的不同阶段,闪电发生的位置与雷达强回波位置有时相同,有时偏离,有时甚至无闪电发生;雷达回波速度场分析表明:在低层存在不利于对流发展的环境风场特征时,雷达降水回波在向测站移动的过程中趋于消散,闪电频数也随着减少;在降水回波速度辐合区,对应闪电活动频繁,这对于雷暴天气闪电短时预警工作有一定的参考价值。  相似文献   

19.
使用阜阳多普勒天气雷达、安徽省气象自动观测网、卫星云图等资料,对2007年7月8日发生在阜阳市迎仙镇的一次极端降雨事件进行了综合分析.结果表明,这场特大暴雨是在西太平洋副热带高压向南撤退形势下发生的,大气层结主要表现为强的对流性不稳定,特大暴雨对流云带恰好发生在低层辐舍区、高层辐散区,并且和850 hPa典型的静止锋式切变线相对应;特大暴雨由狭窄而持续强盛的对流性回波带形成.切变线的组织作用使得新生回波单体不断地聚合到回波带中,是维持回波带持续强盛的原因.回波单体移动方向和回波带的走向接近一致造成迎仙持续的强降水.  相似文献   

20.
一次全省性强雷暴天气的地闪特征   总被引:4,自引:2,他引:2  
2009年6月26日浙江出现全省范围的雷暴天气,此次过程中出现的地闪频数是自2006年闪电定位系统建立以来出现最多的一次。利用闪电定位实测资料、加密雨量站雨量实况以及多普勒天气雷达产品,对这一过程的地闪特征进行了分析。结果表明:此次地闪以负地闪为主,负地闪广泛分布于25~55dBz雷电回波区域内,而正闪多出现在25~35dBz回波中;地闪多出现在回波发展和前进的一侧,且密集分布在回波的梯度最大处,强回波中心处地闪较少出现;在回波开始减弱到中心强度为35dBz左右的区域没有地闪发生。地闪频数与全省过程累积降水量有很好的相关性,地闪的出现及其频数的增加意味着影响某地的强对流风暴正在发展或正向本地移来,对于单站来说雨强峰值滞后于地闪频数峰值半个小时以上,对于全省累积降水量则提前1~2h。因此地闪资料可以作为强对流天气的短时强降水预报的预警依据。  相似文献   

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