共查询到20条相似文献,搜索用时 15 毫秒
1.
近30 a江苏夏季降水日变化的气候学特征 总被引:2,自引:1,他引:1
基于1980—2013年江苏省61站小时降水资料,分析了江苏省夏季降水日变化的特点及小时极端降水、不同级别雨日的日变化特征。结果表明,江苏省夏季降水日变化具有显著的双峰分布特征,然而江苏省北部和南部降水的主峰时段并不一致。从降水频次、累积降水量来看,江苏省北部降水以清晨至早上时段为主峰、午后至傍晚时段为次峰,南部降水与之相反。长持续性降水占夏季降水的2/3左右,且江苏北部占比多于南部,均为清晨至早上的单峰分布;短持续性降水占夏季降水的1/3,在江苏北部呈现出以午后至傍晚为主峰,清晨至早上为次峰的双峰分布,而在江苏南部呈现出以午后至傍晚的单峰分布特点。小时极端降水,阈值分布南低北高,虽然频次较少,但占夏季降水的40%左右。小时极端降水日变化的双峰分布和夏季总体降水分布类似,但主峰大都出现在午后至傍晚。不同级别雨日的日变化分布各有不同,但全省各区无显著差异。累积降水量贡献主要来自于暴雨和大雨。暴雨无论是从降水频次、累积降水量还是降水强度都呈现清晨至早上的单峰分布。 相似文献
2.
华东地区夏季不同等级降水变化特征分析 总被引:10,自引:3,他引:7
采用华东地区78个气象站点逐日降水资料,根据日降水量的5个等级划分,应用线性趋势分析、相关分析等分析了不同等级降水频率和降水量的空间分布及其变化趋势。结果表明:(1)夏季不同等级降水频率在整个华东地区具有明显的地区差异,区域平均的降水频率由大到小依次为小雨、微量降水、中雨、大雨、暴雨。(2)平均的夏季总降水量呈南多北少的分布,各等级降水对总降水量的贡献率由大到小依次为暴雨、大雨、中雨、小雨,暴雨对夏季总降水量的贡献在某些年份可达50%以上。(3)区域平均的夏季降水日数呈下降趋势,但总降水量却有明显的增大趋势。(4)区域平均的某等级降水频率正异常时,华东地区各地该等级降水频率,亦多表现为正异常,尤其中雨以上等级降水频率异常符号在整个华东地区更为一致。(5)华东区域微量降水和小雨发生频率分别与其他等级降水存在显著的反相关关系,而中雨、大雨、暴雨三者发生频率之间无显著相关。 相似文献
3.
4.
应用常规观测、海口多普勒回波及NCEP1×1°再分析等资料,对2008年10月12~15日海南特大暴雨成因进行诊断分析,并揭示了暴雨过程中的多普勒回波特征。结果表明:导致海南岛产生强降水的主要原因是热带低压移动缓慢和弱冷空气的低层入侵;当冷暖空气交绥,大气温湿结构发生突变,θse面陡立造成对流系统斜压发展,激发位势不稳定能量释放。正差动假相当位温平流意味着低层暖湿空气的平流大于高层,加强了层结对流不稳定发展;在斜压扰动作用下,对流层中层正差动涡度平流和低压东侧的暖平流破坏了海南岛的准地转平衡,动力强迫和热力强迫共同作用激发了次级环流,导致暴雨区上空的垂直运动的发展,促使暴雨增强。充沛的水汽输送及水汽的强烈辐合,为暴雨发生的有利水汽条件。多普勒径向速度揭示了暴雨区低层冷平流高层暖平流、风向风速的垂直切变大的垂直结构以及持续性的强烈辐合等等特征,回波停滞和"列车效应"使降水增幅,降水回波的性质差异,可造成强降水区域分布的不同。 相似文献
5.
利用丹东多普勒雷达的基本反射率、基本径向速度和风廓线资料,对2010年8月19日和20日丹东地区大暴雨天气过程进行分析,探讨丹东短时强降水天气形势和多普勒雷达回波特征。结果表明:在丹东处于副热带高压内部或边缘时,南下的冷空气与副热带高压后部暖湿空气势力相当时,形成丹东地区较典型的暴雨模式。风廓线产品在强降水前期,会产生一个水汽累积的过程,两次过程中出现短时强降雨时段均表现为高空急流出现和高空动量下传。这种高空动量的下传使低空急流得到加强,低层进一步辐合,使雨强明显增大。两次过程中降水回波区均形成一条40 dBz以上的回波带,回波移动方向与回波带轴向一致,导致沿途站降水时间偏长,降水总量偏多。逆风区出现时间与强降雨时段有较好的配合,其位置与强回波区的对应关系揭示出逆风区厚度越大、对应的反射率因子强度越强,产生的降水强度也越大。 相似文献
6.
7.
Diurnal phase of late-night against late-afternoon of stratiform and convective precipitation in summer southern contiguous China 总被引:7,自引:0,他引:7
Using the tropical rainfall measuring mission (TRMM) Precipitation Radar (PR) observations combined with the surface rain
gauge data during 1998–2006, the robust diurnal features of summer stratiform and convective precipitation over the southern
contiguous China are revealed by exploring the diurnal variations of rain rate and precipitation profile. The precipitation
over the southern contiguous China exhibits two distinguishing diurnal phases: late-night (2200–0600 LST) and late-afternoon
(1400–2200 LST), dependent on the location, precipitation type and duration time. Generally, the maximum rain rate and the
highest profile of stratiform precipitation occur in the late-afternoon (late-night) over the southeastern (southwestern)
China, while most of the stratiform short-duration rain rate tends to present late-afternoon peaks over the southern China.
For convective precipitation, the maximum rain rate and the highest profile occur in the late-afternoon over most of the southern
contiguous China, while the convective long-duration rain rate exhibits late-night peaks over the southwestern China. Without
regional dependence, the convective precipitation exhibits much larger amplitude of diurnal variations in both near surface
rain rate and vertical extension compared with stratiform precipitation and the convective rain top rises most rapidly between
noon and afternoon. However, there are two distinctive sub-regions. The diurnal phases of precipitation there are very weakly
dependent on precipitation type and duration time. Over the eastern periphery of the Tibetan Plateau, the maximum rain rate
and the highest profile of either convective or stratiform precipitation occur in the late-night. Over the southeastern coastal
regions, both the near surface rain rate and rain top of convective and stratiform precipitation peak in the late-afternoon. 相似文献
8.
This paper summarizes the recent progress in studies of the diurnal variation of precipitation over con- tiguous China. The main results are as follows. (1) The rainfall diurnal variation over contiguous China presents distinct regional features. In summer, precipitation peaks in the late afternoon over the south- ern inland China and northeastern China, while it peaks around midnight over southwestern China. In the upper and middle reaches of Yangtze River valley, precipitation occurs mostly in the early morning. Summer precipitation over the central eastern China (most regions of the Tibetan Plateau) has two diurnal peaks, i.e., one in the early morning (midnight) and the other in the late afternoon. (2) The rainfall diurnal variation experiences obvious seasonal and sub-seasonal evolutions. In cold seasons, the regional contrast of rainfall diurnal peaks decreases, with an early morning maximum over most of the southern China. Over the central eastern China, diurnal monsoon rainfall shows sub-seasonal variations with the movement of summer monsoon systems. The rainfall peak mainly occurs in the early morning (late afternoon) during the active (break) monsoon period. (3) Cloud properties and occurrence time of rainfall diurnal peaks are different for long- and short-duration rainfall events. Long-duration rainfall events are dominated by strat- iform precipitation, with the maximum surface rain rate and the highest profile occurring in the late night to early morning, while short-duration rainfall events are more related to convective precipitation, with the maximum surface rain rate and the highest profile occurring between the late afternoon and early night. (4) The rainfall diurnal variation is influenced by multi-scale mountain-valley and land-sea breezes as well as large-scale atmospheric circulation, and involves complicated formation and evolution of cloud and rainfall systems. The diurnal cycle of winds in the lower troposphere also contributes to the regional differences 相似文献
9.
中国大陆降水日变化研究进展 总被引:32,自引:4,他引:28
文章概述了中国大陆降水日变化的最新研究成果,给出了中国大陆降水日变化的整体图像,指出目前数值模式模拟降水日变化的局限性,为及时了解和掌握降水日变化研究进展、开展相关科学研究和进行降水预报服务提供了有价值的科学依据和参考。现有研究表明:(1)中国大陆夏季降水日变化的区域特征明显。在夏季,东南和东北地区的降水日峰值主要集中在下午;西南地区多在午夜达到降水峰值;长江中上游地区的降水多出现在清晨;中东部地区清晨、午后双峰并存;青藏高原大部分地区是下午和午夜峰值并存。(2)降水日变化存在季节差异和季节内演变。冷季降水日峰值时刻的区域差异较暖季明显减小,在冷季南方大部分地区都表现为清晨峰值;中东部地区暖季降水日变化随季风雨带的南北进退表现出清晰的季节内演变,季风活跃(间断)期的日降水峰值多发生在清晨(下午)。(3)持续性降水和局地短时降水的云结构特性以及降水日峰值出现时间存在显著差异。持续性降水以层状云特性为主,地表降水和降水廓线的峰值大多位于午夜后至清晨;短时降水以对流降水为主,峰值时间则多出现在下午至午夜前。(4)降水日变化涉及不同尺度的山-谷风、海-陆风和大气环流的综合影响,涉及复杂的云雨形成和演变过程,对流层低层环流日变化对降水日变化的区域差异亦有重要影响。(5)目前数值模式对中国降水日变化的模拟能力有限,且模拟结果具有很强的模式依赖性,仅仅提高模式水平分辨率并不能总是达到改善模拟结果的目的,关键是要减少存在于降水相关的物理过程参数化方案中的不确定性问题。 相似文献
10.
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
11.
全球水循环的海洋分量研究 总被引:22,自引:2,他引:20
利用NCEP/NCAR再分析月平均和逐日资料,采用“余差”方法,计算了1984~1994年全球海气淡水通量,分析了全球水汽输送的特点。主要结果有:(1)在全球水循环中,副热带大洋是重要的水汽辐散区,热带辐合带、南太平洋辐合带和南太平洋东南海域是集中的水汽辐合区,赤道东风带是夏季印度洋季风环流的主要水汽通道;(2)再现了全球海气淡水通量的分布,例如副热带“海洋沙漠”带、热带辐合带和南太平洋辐合带净降水区等;展示了细节特征,如黑潮区的净蒸发特点等;(3)发现了北大西洋中高纬度地区存在一东北—西南向的净蒸发带,而前人结果中则为净降水带;(4)分析了各大洋海气淡水通量的季节、年际变化特征,讨论了太平洋相对于大西洋作为水汽汇的特点;指出热带辐合带和南太平洋辐合带是海气淡水通量变率最大的海域 相似文献
12.
Cross-season relation of the South China Sea precipitation variability between winter and summer 总被引:3,自引:1,他引:2
The present study reveals cross-season connections of rainfall variability in the South China Sea (SCS) region between winter and summer. Rainfall anomalies over northern South China Sea in boreal summer tend to be preceded by the same sign rainfall anomalies over southern South China Sea in boreal winter (denoted as in-phase relation) and succeeded by opposite sign rainfall anomalies over southern South China Sea in the following winter (denoted as out-of-phase relation). Analysis shows that the in-phase relation from winter to summer occurs more often in El Niño/La Niña decaying years and the out-of-phase relation from summer to winter appears more frequently in El Niño/La Niña developing years. In the summer during the El Niño/La Niña decaying years, cold/warm and warm/cold sea surface temperature (SST) anomalies develop in tropical central North Pacific and the North Indian Ocean, respectively, forming an east–west contrast pattern. The in-phase relation is associated with the influence of anomalous heating/cooling over the equatorial central Pacific during the mature phase of El Niño/La Niña events that suppresses/enhances precipitation over southern South China Sea and the impact of the above east–west SST anomaly pattern that reduces/increases precipitation over northern South China Sea during the following summer. The impact of the east–west contrast SST anomaly pattern is confirmed by numerical experiments with specified SST anomalies. In the El Niño/La Niña developing years, regional air-sea interactions induce cold/warm SST anomalies in the equatorial western North Pacific. The out-of-phase relation is associated with a Rossby wave type response to anomalous heating/cooling over the equatorial central Pacific during summer and the combined effect of warm/cold SST anomalies in the equatorial central Pacific and cold/warm SST anomalies in the western North Pacific during the mature phase of El Niño/La Niña events. 相似文献
13.
利用常规天气资料及地面自动站、风廓线雷达、新一代天气雷达资料和ERA-Interim逐6 h 0.125°×0.125°再分析资料,分析2015年5月19日福建西部山区一次极端降水的中尺度特征。结果表明:(1)极端降水分为锋前暖区降水和锋面降水两个阶段,暴雨区位于低空西南急流轴左侧,水汽充足,冷暖空气交汇,不稳定能量大,抬升凝结高度和自由对流高度低,大气可降水量大及中等强度的垂直风切变形成有利于中尺度对流系统(mesoscale covective system, MCS)发展的环境条件。(2)锋前暖区降水期间,西南气流携带高能量和水汽充足的空气移入暴雨区被中尺度边界附近的冷出流空气抬升,不断产生新的对流单体,对流单体向东北偏东方向移动,排列形成短雨带;若干条东北—西南向长度不等的短雨带在中尺度出流边界北侧建立,缓慢向东移动,依次重复影响关键区;暴雨关键区存在辐合线和风速辐合,为降水提供了良好的动力抬升条件;向西南开口的河谷地形加强了对流的发展;对流单体不断后部建立和东北西南向多个短雨带重复影响同一地区的列车效应是此阶段MCS主要发展方式。(3)锋面降水期间,对流单体在低涡切变南侧风速辐合、水汽和能量大值区发展东移南压,中高层先于低层转偏北气流,表现出前倾特征,垂直风切变加大,冷空气从中高层先扩散南下,与低层暖湿空气交汇使对流加强,冷暖气流的交汇叠加风速辐合使得强降水加强并维持。对流单体后向传播向东移动产生的列车效应是此阶段MCS主要发展方式。 相似文献
14.
Implications of CMIP3 model biases and uncertainties for climate projections in the western tropical Pacific 总被引:1,自引:0,他引:1
Jaclyn N. Brown Alex Sen Gupta Josephine R. Brown Les C. Muir James S. Risbey Penny Whetton Xuebin Zhang Alexandre Ganachaud Brad Murphy Susan E. Wijffels 《Climatic change》2013,119(1):147-161
Regional climate projections in the Pacific region are potentially sensitive to a range of existing model biases. This study examines the implications of coupled model biases on regional climate projections in the tropical western Pacific. Model biases appear in the simulation of the El Niño Southern Oscillation, the location and movement of the South Pacific Convergence Zone, rainfall patterns, and the mean state of the ocean–atmosphere system including the cold tongue bias and erroneous location of the edge of the Western Pacific warm pool. These biases are examined in the CMIP3 20th century climate models and used to provide some context to the uncertainty in interpretations of regional-scale climate projections for the 21st century. To demonstrate, we provide examples for two island nations that are located in different climate zones and so are affected by different biases: Nauru and Palau. We discuss some of the common approaches to analyze climate projections and whether they are effective in reducing the effect of model biases. These approaches include model selection, calculating multi model means, downscaling and bias correcting. 相似文献
15.
In this study, the observed CMORPH precipitation data from 1998 to 2015 are used to analyze diurnal variation of global precipitation. The results reveal that the strong diurnal signals of precipitation occur over equatorial continental areas where the annual precipitation centers are located. The phase of diurnal variation of global precipitation reveals a distinct land-sea contrast with nocturnal peaks at sea and afternoon maxima over continents. The analysis of six selected area reveals that precipitation peak over equatorial land areas occur in afternoon and maximum diurnal signals appear in autumn or winter. Eastern equatorial Intertropical Convergence Zone (ITCZ) barely shows diurnal signals in the entire year. Precipitation over Sichuan Basin and northwestern Pacific shows nocturnal peak and the maximum diurnal amplitude in summer. Precipitation over coastal areas off eastern China shows an afternoon peak and the largest diurnal amplitude in summer. 相似文献
16.
利用天气观测资料和NCEP再分析资料对2004-2013年5-9月影响山东的切变线天气特征和环流形势进行了分析。将影响山东的切变线按热力性质分为冷切变线和暖切变线,10a间影响山东的切变线共发生59次,其中暖切变线出现43次,占切变线总发生次数73%;冷切变线出现16次,占切变线总发生次数27%。切变线发生频数7月最多,6月次之,分别占切变线总数的35.6%和23.7%,9月最少,约占0.05%。影响山东典型切变线的发生与副高关系密切,冷切变线多出现在西风槽东移受阻,在对流层低层逐渐形成,暖切变线则出现在西风带小高压与副高合并,副高北抬时形成。针对2次典型冷暖切变线暴雨天气过程对比分析其暴雨落区、雷达回波特征和动力机制等,结果发现:暖切变线降水的强度、暴雨范围和持续时间明显大于冷切变线降水。暖切变线暴雨的GPS可降水量在强降雨出现前8h快速上升,可降水量峰值对应地面降雨大值,对地面降雨变化反映不敏感,物理量呈垂直分布,强回波单体基本位于暖切变线雨带的中间。冷切变线暴雨的GPS可降水量短时间内增幅大,地面强降雨在峰值出现1h后发生,对地面降雨变化反映较敏感,物理量从低层到高层向北倾斜且上升运动区较深厚,回波单体位于切变线南侧。 相似文献
17.
副高边缘暴雨的多普勒雷达回波特征 总被引:7,自引:4,他引:7
利用常规观测资料和多普勒雷达探测资料,对2003-2004年湖南省4次副高边缘暴雨的天气形势和雷达回波特征进行了分析研究。结果表明:4次暴雨过程的副高位置适当,高空有低槽,中低层有低空急流和低涡切变线,地面上有冷锋。在基本反射率图上,低槽暴雨有S-N向的窄带回波特征、冷式切变线暴雨有准W—E向的积层回波特征、暖式切变线有NE—SW向的积层回波特征,但每一次暴雨过程不尽相同。在多普勒速度图上常出现低空急流、冷暖平流、冷锋、逆风区以及高层大风核等特征,并常是几种特征同时出现,有利于强降水产生。 相似文献
18.
Yu-Kyung Hyun S. K. Kar Kyung-Ja Ha J. H. Lee 《Theoretical and Applied Climatology》2010,102(1-2):43-60
The spatial and temporal variations in cloud-to-ground (CG) lightning and precipitation during the summer monsoon months in Korea have been analyzed in relation to the regional synoptic weather conditions. The lightning data used in this study were collected from a lightning detection network installed by the Korean Meteorological Administration, while the precipitation data were collected from 386 Automatic Weather Stations spread over the entire Korean Peninsula during 2000 to 2001. A distinctive morning peak of precipitation is observed over the midwest region of Korea. Along the east coast, little precipitation and CG flash counts are found. Despite the strong afternoon peaks of convective rainfall due to the high elevation over the southern inland region, the south coast shows nocturnal or early morning peaks, which represents a common oceanic pattern of flash counts. In 2000, the nighttime peak for lightning counts dominates over the southern area, while the afternoon peak was strong in the midland during the summer, mainly due to the northward transportation of moisture to the Korean Peninsula. Conversely, the strong afternoon peak for the southern region was confronted with early morning peaks in the midwestern region during 2001. The eastward transport of moisture has been analyzed and was considered to be dominant in 2001. The study of several warm and cold type fronts in 2000 and 2001 indicate that the warm type fronts in 2000 were associated with very little lightning, while the cold type fronts appeared to be responsible for the occurrence of abundant lightning in 2001, thereby, indicating that the warm and cold type fronts were representative of the local lightning distribution in the respective years. 相似文献
19.
鲍名 《热带气象学报(英文版)》2008,14(1):28-32
The different effects of anomalous convective activities in the tropical western Pacific on two persistent heavy rain events in South China in 2005 and 2006 have been compared in this study. The dataused consist of NOAA Outgoing Longwave Radiation (OLR) data, the NCEP-NCAR reanalysis and precipitation from meteorological stations in South China. Results show that the persistent heavy rain in 2005 was related to the 10-25-day westward propagation of convective activities in the tropical western Pacific from about 150 °E. The physical mechanism is interpreted as a Gill-type response of subtropical anticyclone westward extension during weak convective activities period over the Philippine Sea. Our researches also show that the persistent heavy rain in 2006 has longer period than that in 2005, and the subtropical anticyclone persists westward in the earlier summer which is possibly related to the lasting anomalous strong convective motion in the southern branch of Intertropical Convergence Zone (ITCZ) in the tropic western Pacific. The anomalous convective activities affect the local Hadley circulation over the western Pacific with anomalous ascending motion south of the equator and anomalous descend motion north of it, in favor of the westward extension of the subtropical anticyclone for a long time. Comparison between the two persistent heavy rain events indicates different physical effects of convective activities in the tropical western Pacific, though both effects are helpful to the subtropical anticyclone westward extension as a common character of large-scale circulation backgrounds for persistent heavy rain events in South China. 相似文献
20.
A large amount of accumulated precipitation was recorded over the Eastern Periphery of the Tibetan Plateau (EPTP) in August 2020. Using hourly rain gauge records and the ERA5 reanalysis dataset, we analyzed the unique characteristics of rainfall in August and the accompanying circulation conditions and conducted a comparison with previous data. This record-breaking amount of accumulated rainfall was centered on the northern slope of the EPTP. This location was in contrast with the historical records of the concentration of rainfall over the middle and southern slopes. The hourly rainfall in August 2020 was both more frequent and more intense than the climatological mean rainfall. An amplification effect of the topography was observed, with the precipitation over the EPTP showing a more significant change with terrain height in August 2020. A circulation analysis showed that cold (warm) anomalies existed over the north (south) of approximately 35°N compared with those in the years when the southern EPTP received more rain. The western Pacific subtropical high was more intense and extended to the west, and the low-level cold air from the north was more active. The enhanced low-level southerly winds on the periphery of the subtropical high injected warm, moist air further north than the climatological mean. These winds became easterly near the northern EPTP and were forced to ascend by the steep terrain. 相似文献