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1.
The classification of the Northeast China Cold Vortex(NCCV)activity paths is an important way to analyze its characteristics in detail.Based on the daily precipitation data of the northeastern China(NEC)region,and the atmospheric circulation field and temperature field data of ERA-Interim for every six hours,the NCCV processes during the early summer(June)seasons from 1979 to 2018 were objectively identified.Then,the NCCV processes were classified using a machine learning method(k-means)according to the characteristic parameters of the activity path information.The rationality of the classification results was verified from two aspects,as follows:(1)the atmospheric circulation configuration of the NCCV on various paths;and(2)its influences on the climate conditions in the NEC.The obtained results showed that the activity paths of the NCCV could be divided into four types according to such characteristics as the generation origin,movement direction,and movement velocity of the NCCV.These included the generation-eastward movement type in the east of the Mongolia Plateau(eastward movement type or type A);generation-southeast longdistance movement type in the upstream of the Lena River(southeast long-distance movement type or type B);generationeastward less-movement type near Lake Baikal(eastward less-movement type or type C);and the generation-southward less-movement type in eastern Siberia(southward less-movement type or type D).There were obvious differences observed in the atmospheric circulation configuration and the climate impact of the NCCV on the four above-mentioned types of paths,which indicated that the classification results were reasonable. 相似文献
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华中地区夏季区域性极端日降水事件变化特征及环流异常 总被引:5,自引:0,他引:5
利用1961—2010年夏季(6—8月)华中区域239个中国国家级气象台站逐日降水观测资料及NCEP/NCAR再分析资料集,对华中地区夏季区域性极端日降水事件及环流异常进行了分析,结果表明:华中地区夏季区域性极端日降水量的99百分位阈值为23.585 mm/d,20世纪80年代中期以后的极端日降水事件明显偏多,且6月下旬至7月中旬为华中地区极端降水多发期。极端日降水事件由具有从低层到高层呈斜压结构的异常环流控制,其南侧的水汽通过孟加拉湾与中国南海地区的异常反气旋外围呈阶梯状输送至华中地区。位于青藏高原东北侧的波作用量通量向华中地区的辐合有利于华中地区上空波动扰动的产生和维持,同时极端日降水事件的发生亦与华中地区的大气净加热及华中周边大范围区域中的净冷却形成的加热场梯度有关。这些结果表明华中地区夏季区域性极端日降水事件有显著的年际和年代际变化,且极端事件的发生与华中地区气旋性环流异常、青藏高原东北侧地形强迫、以及华中地区与周边非绝热加热梯度异常关系密切。 相似文献
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青藏高原南、北积雪异常与中国东部夏季降水关系的数值试验研究 总被引:6,自引:2,他引:4
青藏高原冬、春积雪有着显著的南、北空间差异,本文利用通用地球系统模式(CESM)设计了增加高原南、北冬、春积雪的敏感性试验,结果表明:当高原南部冬、春积雪异常偏多,长江及其以北地区夏季降水偏多,华南大部分地区夏季降水偏少;而当高原北部冬、春积雪异常偏多,华北及东北地区夏季降水偏多,长江下游南部地区夏季降水偏少,雨带更偏北。青藏高原南、北部冬、春积雪异常影响中国东部夏季降水的物理机制的分析结果表明,高原不同区域(南部和北部)冬、春积雪异常引起的非绝热加热异常效应都可持续到夏季,且北部积雪异常持续时间更长。高原南部和北部积雪异常偏多均会减弱高原北侧上空大气的水平温度梯度,进而减弱高原北侧西风急流的位置及强度,进而影响下游出口区处急流的强度和位置,且高原北部积雪异常偏多的影响更大。当高原南部积雪异常偏多,急流出口区的西风急流加强且偏南;而高原北部积雪异常偏多,出口区的西风急流减弱且偏北。相应地,对流层中层500 hPa西太平洋副热带高压减弱,低层850 hPa异常反气旋环流,影响中国东部地区水汽输送,从而影响了中国东部地区夏季雨带的变化。当高原南部积雪异常偏多,异常反气旋性环流位于东海附近,有利于更多水汽输送至长江流域,华南水汽输送减少;当高原北部积雪异常偏多,异常反气旋性环流相对偏北,更有利于华北及东北水汽输送,雨带偏北。 相似文献
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Persistent Heavy Rainfall over South China During May-August:Subseasonal Anomalies of Circulation and Sea Surface Temperature 总被引:1,自引:0,他引:1
This study investigates the relationship between subseasonal variations of the circulation and sea surface temperature(SST) over the South China–East Asian coastal region(EACR) in association with the persistent heavy rainfall(PHR) events over South China during May–August through statistical analysis. Based on the intensity threshold and duration criterion of the daily rainfall, a total of 63 May–June(MJ) and 59July–August(JA) PHR events are selected over South China from 1979 to 2011. The lower-level circulation anomalies on subseasonal timescale exhibit an anomalous cyclone over South China and an anomalous anticyclone shaped like a tongue over the South China Sea(SCS) during the PHR events for MJ group.The anomalous cyclone over South China in MJ originates from low-value systems in the mid-high latitudes before the rainfall. The anomalous anticyclone over the SCS is due to the westward extension of the western Pacific subtropical high(WPSH) and the southeastward propagation of the anomalous anticyclone from South China before the rainfall. For JA group, the lower-level anomalous circulation pattern is similar to that for MJ over the South China–EACR, but with di?erent features of propagation. The subseasonal anomalous anticyclone is also related to the westward stretch of the WPSH, while the anomalous cyclone is traced back to the weak anomalous cyclone over the Philippine Sea several days before the rainfall events.Positive SST anomaly(SSTA) is observed over the SCS and the Philippine Sea during the MJ PHR events on the subseasonal timescale. It is closely linked with the variation of local anomalous anticyclone. In contrast, negative SSTA occupies the South China coastal region for the JA PHR events, and it is driven by the anomalous cyclone which propagates northwestward from the Philippine Sea. The subseasonal positive(negative) SSTAs are generated via the local processes of above(below)-normal incident solar radiation and below(above)-normal latent heat fluxes. The possible role of the subseasonal SSTA in the local convective instability is also analyzed in this study. 相似文献
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西北太平洋副热带高压(以下简称副高)是影响中国气候的大尺度环流系统,研究次季节尺度副高东西变动对西南地区降水的影响具有十分重要的意义。本文首先根据副高东西变动的关键区位置分别定义了前夏和后夏副高东西变动指数,指数具有显著的10~30天次季节周期,能够很好表征副高次季节东西变动的特征。根据指数的标准化值,共选取前夏和后夏东西事件195次(1374天)。进一步对东西事件的分析表明次季节尺度上副高东西变动与西南地区降水有十分密切的联系,在副高偏西(东)事件中,副高经历了由东→西→东(西→东→西)逐渐变化的过程,相应西南大部分地区的降水经历了逐渐由少→多→少(多→少→多)的演变,次季节尺度上西南地区降水对副高变化的响应与副高东西变动过程中副高北侧及副高主体区域的水汽和气流的垂直变化有很大的关系。另外,分析发现对于西南地区而言,受副高次季节东西变动的影响,贵州和重庆地区降水变化的一致性比较好,而云南和四川地区降水变化的区域差异较大,尤其是云南。前夏,在副高东西变动过程中云南大部分地区的降水呈现出与西南大部分地区,尤其与贵州和重庆地区的降水变化完全相反的特征,即副高偏西(东)事件中,云南大部分地区的降水偏少(多),西南其它大部地区降水偏多(少);后夏,除云南中北部地区,西南大部分地区的降水变化基本一致。 相似文献
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This study examines the features and dynamical processes of subseasonal zonal oscillation of the western Pacific subtropical high (WPSH) during early summer, by performing a multivariate empirical orthogonal function (MVEOF) analysis on daily winds and a diagnosis on potential vorticity (PV) at 500 hPa for the period 1979–2016. The first MV-EOF mode is characterized by an anticyclonic anomaly occupying southeastern China to subtropical western North Pacific regions. It has a period of 10–25 days and represents zonal shift of the WPSH. When the WPSH stretches more westward, the South Asian high (SAH) extends more eastward. Above-normal precipitation is observed over the Yangtze–Huaihe River (YHR) basin. Suppressed convection with anomalous descending motion is located over the subtropical western North Pacific. The relative zonal movement of the SAH and the WPSH helps to establish an anomalous local vertical circulation of ascending motion with upper-level divergence over the YHR basin and descending motion with upper-level convergence over the subtropical western Pacific. The above local vertical circulation provides a dynamic condition for persistent rainfall over the YHR basin. An enhanced southwest flow over the WPSH’s western edge transports more moisture to eastern China, providing a necessary water vapor condition for the persistent rainfall over the YHR basin. A potential vorticity diagnosis reveals that anomalous diabatic heating is a main source for PV generation. The anomalous cooling over the subtropical western Pacific produces a local negative PV center at 500 hPa. The anomalous heating over the YHR basin generates a local positive PV center. The above south–north dipolar structure of PV anomaly along with the climatological southerly flow leads to northward advection of negative PV. These two processes are conducive to the WPSH’s westward extension. The vertical advection process is unfavorable to the westward extension but contributes to the eastward retreat of the WPSH. 相似文献
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Variations in Regional Mean Daily Precipitation Extremes and Related Circulation Anomalies over Central China During Boreal Summer 
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下载免费PDF全文 The variations of regional mean daily precipitation extreme (RMDPE) events in central China and associated circulation anomalies during June, July, and August (JJA) of 1961-2010 are investigated by using daily in-situ precipitation observations and the NCEP/NCAR reanalysis data. The precipitation data were collected at 239 state-level stations distributed throughout the provinces of Henan, Hubei, and Hunan. During 1961-2010, the 99th percentile threshold for RMDPE is 23.585 mm day-1. The number of RMDPE events varies on both interannual and interdecadal timescales, and increases significantly after the mid 1980s. The RMDPE events happen most frequently between late June and mid July, and are generally associated with anomalous baroclinic tropospheric circulations. The supply of moisture to the southern part of central China comes in a stepping way from the outer-region of an abnormal anticyclone over the Bay of Bengal and the South China Sea. Fluxes of wave activity generated over the northeastern Tibetan Plateau converge over central China, which favors the genesis and maintenance of wave disturbances over the region. RMDPE events typically occur in tandem with a strong heating gradient formed by net heating in central China and the large-scale net cooling in the surrounding area. The occurrence of RMDPE events over central China is tied to anomalous local cyclonic circulations, topographic forcing over the northeast Tibetan Plateau, and anomalous gradients of diabatic heating between central China and the surrounding areas. 相似文献
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A comprehensive classification of anomalous circulation patterns responsible for persistent precipitation extremes in South China 下载免费PDF全文
下载免费PDF全文 Based on observational precipitation at 63 stations in South China and NCEP NCAR reanalysis data during 1951 2010,a cluster analysis is performed to classify large-scale circulation patterns responsible for persistent precipitation extremes(PPEs) that are independent of the influence of tropical cyclones(TCs).Conceptual schematics depicting configurations among planetary-scale systems at different levels are established for each type.The PPEs free from TCs account for 38.6%of total events,and they tend to occur during April August and October,with the highest frequency observed in June.Corresponding circulation patterns during June August can be mainly categorized into two types,i.e.,summer-Ⅰ type and summer-Ⅱtype.In summer-Ⅰ type,the South Asian high takes the form of a zonal-belt type.The axis of upstream westerly jets is northwest-oriented.At the middle level,the westerly jets at midlatitudes extend zonally.Along the southern edge of the westerly jet,synoptic eddies steer cold air to penetrate southward;the Bay of Bengal(BOB) trough is located to the north;a shallow trough resides over coastal areas of western South China;and an intensified western Pacific subtropical high(WPSH) extends westward.The anomalous moisture is mainly contributed by horizontal advection via southwesterlies around 20°N and southeasterlies from the southern flange of the WPSH.Moisture convergence maximizes in coastal regions of eastern South China,which is the very place recording extreme precipitation.In summer-Ⅱ type,the South Asian high behaves as a western-center type.The BOB trough is much deeper,accompanied by a cyclone to its north;and a lower-level trough appears in northwestern parts of South China.Different to summer-Ⅰ type,moisture transport via southwesterlies is mostly responsible for the anomalous moisture in this type.The moisture convergence zones cover Guangdong,Guangxi,and Hainan,matching well with the areas of flooding.It is these set combinations among different systems at different levels that trigger PPEs in South China. 相似文献
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基于中国测站的降水资料和NCEP/NCAR逐日再分析资料,取第95百分位数作为极端降水阈值,通过经验正交函数分解(EOF)方法将中国东部分为华南、长江中下游、华北和东北三个地区,定义极端降水事件,并对中国东部夏季极端降水时空分布及环流背景进行研究。结果表明,极端降水事件随日期的变化与中国东部夏季雨带的南北移动相吻合。近54年来,华南极端降水事件频数在1991年左右突增,长江中下游地区有两次突变,1991年左右突增,2000年左右突减。华北和东北地区在1999年左右突减。发生极端降水事件时,低层850 hPa出现局地异常气旋环流,位势高度异常降低,对应低空异常辐合;中层500 hPa,西太副高位置异常偏南有利于华南极端降水的发生,副高西伸有利于长江中下游的极端降水,位置偏北易造成华北和东北极端降水;高层200 hPa,发生极端事件时降水关键区位于西风急流轴右侧,对应异常反气旋环流,这种高层辐散低层辐合的环流配置为极端降水提供动力条件。极端降水的气候平均态水汽主要来源于南半球和西北太平洋。副高的位置异常影响我国东部水汽输送异常,造成不同地区的极端降水。 相似文献
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东北冷涡低频活动特征及背景环流 总被引:11,自引:0,他引:11
研究了1965-2007年夏季(5-8月)东北冷涡活动的时空分布特征和同期背景环流型.东北冷涡活动区域5月主要是45°N以北,6月向南扩展到40°N以南,然后逐月向北收缩.夏季,随着东亚急流的逐渐减弱和北进,东北冷涡天数逐渐增加,6月6日前后达到峰值,但入梅后冷涡频数有所减少.随着梅雨期结束,冷涡频数进一步降低.强冷涡事件集中于入梅之前,中等和弱强度的事件主要发生在梅雨期和出梅之后.在入梅之前和出梅之后,东北冷涡频数呈现准2 a振荡特征.夏季东北冷涡频数在1965-2007年具有增加趋势,其中,梅雨期的增加趋势尤为明显.东北冷涡的形态根据其上游高压脊的位置可分为4种:叶尼塞河型、贝加尔湖型、乌拉尔-雅库斯克型和鄂霍次克海-北冰洋型.西太平洋遥相关(WP)型为东北冷涡活动的同期背景环流型,东北冷涡在其负位相易于生成.此外,5-6月东北冷涡活动与太平洋/北美(PNA)型、8月东北冷涡活动与北大西洋涛动(NAO)密切联系. 相似文献
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本文回顾了2016年10月降水业务预报中考虑的动力模式预测信息、前兆信号及其影响。2016年10月全国平均降水量为1951年以来历史同期最多,且环流形势和要素分布特征在月内均发生明显转折。业务发布预报在华北南部、黄淮、江淮、江汉等地降水异常与实况存在较大差异,同时对月内环流形势调整及降水变率估计不足。数值模式预报和物理因子诊断预测与实况的对比分析表明,环流形势整体分布特征预报与实况较为一致,但对西太平洋副热带高压等环流因子的强度、西伸脊点位置以及月内变率的预报与实况存在较大差异。从大气对热带海温信号的滞后响应以及同期相关分析表明,El Nino事件次年秋季副热带高压往往持续偏强偏北。10月赤道太平洋东冷西暖,暖池区对流活跃,东亚上空出现的异常经向环流圈通过低层径向风异常及异常辐合辐散,在日本岛附近形成反气旋式环流距平,也有利于副热带高压加强北抬。9、10月热带印度洋偶极子负位相有利于印缅槽加强,从而有利于水汽向我国东部地区输送。来自副热带高压外围的异常东南水汽和来自西南的水汽共同输送到我国中东部地区,并与南下冷空气交汇产生异常水汽辐合,造成这些地区降水明显偏多。此外10月热带对流活动依然活跃,台风的生成、登陆个数均较常年偏多,是我国东南沿海降水偏多的主要原因。 相似文献
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两类ENSO背景下中国东部夏季降水的环流特征及关键系统 总被引:1,自引:0,他引:1
利用全国160站逐月降水资料、74项环流指数、HadISST月平均海温资料以及NCEP/NCAR月平均再分析资料,对比分析了两类ENSO事件衰减阶段中国东部夏季降水及相应大气环流的差异,并探讨其可能成因。结果表明:1)EP型El Ni?o(La Ni?a)事件次年夏季,中国东部降水由北至南呈正负正(负正负)的三极型反相分布;CP型El Ni?o(La Ni?a)事件次年夏季,中国东部降水由北至南呈正负(负正)的偶极型反相分布;2)El Ni?o事件次年夏季,西北太平洋副热带高压(以下简称西太副高)及南亚高压均偏强,EP型西太副高偏西、南亚高压偏东,CP型西太副高范围更大、强度更强;La Ni?a事件次年夏季,西太副高及南亚高压强度偏弱,CP型强于EP型但弱于气候平均;3)El Ni?o事件期间西北太平洋上存在异常反气旋,EP型位置偏南,强度更强,持续时间更长,CP型位置偏北,范围更大;La Ni?a事件期间,西北太平洋区域至中国东南部存在异常气旋,EP型异常气旋的强度及范围均不及CP型;4)两类El Ni?o事件期间异常反气旋的差异可能与印度洋海盆增暖及太平洋海温持续性偏冷有关;两类La Ni?a事件期间异常气旋的差异可能由赤道西太平洋海温持续偏暖造成。 相似文献
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El Ni?o对东亚夏季风和夏季降水季节内变化的影响 总被引:3,自引:0,他引:3
基于1979~2012年候平均再分析资料,合成分析了El Ni?o对东亚夏季风和夏季降水季节内变化的影响。结果表明,在El Ni?o衰减年夏季,西太平洋副热带高压(副高)明显偏强,位置偏向西南。副高的这种异常特征随夏季的季节进程有明显变化,初夏异常较弱,盛夏期间异常达到最强。此外,根据东亚夏季风降水呈现阶段式北进的特征,将夏季分为华南前汛期、江淮梅雨期、华北和东北雨期以及华南后汛期来分析东亚夏季风和降水的季节内变化。在上述各个时期,大气对流层低层表现为一致的环流异常型,副高及其以南区域为异常反气旋,其北部为异常气旋。这种异常环流型加强了副高南部偏东风及其北部偏北风,增强了热带水汽输送和高纬度地区冷空气的入侵,二者结合造成主汛期地区降水增加。需要强调的是,上述环流异常型随东亚夏季风逐步向北推移,导致东亚各地区的主汛期降水增加,非主汛期降水减少,降水分布更为集中。 相似文献
15.
The record-breaking mei-yu in the Yangtze-Huaihe River valley (YHRV) in 2020 was characterized by an early onset, a delayed retreat, a long duration, a wide meridional rainbelt, abundant precipitation, and frequent heavy rainstorm processes. It is noted that the East Asian monsoon circulation system presented a significant quasi-biweekly oscillation (QBWO) during the mei-yu season of 2020 that was associated with the onset and retreat of mei-yu, a northward shift and stagnation of the rainbelt, and the occurrence and persistence of heavy rainstorm processes. Correspondingly, during the mei-yu season, the monsoon circulation subsystems, including the western Pacific subtropical high (WPSH), the upper-level East Asian westerly jet, and the low-level southwesterly jet, experienced periodic oscillations linked with the QBWO. Most notably, the repeated establishment of a large southerly center, with relatively stable latitude, led to moisture convergence and ascent which was observed to develop repeatedly. This was accompanied by a long-term duration of the mei-yu rainfall in the YHRV and frequent occurrences of rainstorm processes. Moreover, two blocking highs were present in the middle to high latitudes over Eurasia, and a trough along the East Asian coast was also active, which allowed cold air intrusions to move southward through the northwestern and/or northeastern paths. The cold air frequently merged with the warm and moist air from the low latitudes resulting in low-level convergence over the YHRV. The persistent warming in the tropical Indian Ocean is found to be an important external contributor to an EAP/PJ-like teleconnection pattern over East Asia along with an intensified and southerly displaced WPSH, which was observed to be favorable for excessive rainfall over YHRV. 相似文献
16.
季节预测模式对东亚夏季环流的预测能力及其对热带海洋的响应分析 总被引:3,自引:2,他引:1
东亚夏季环流变化对中国夏季降水的年际变化有重要影响,因此需要进一步理解季节预测模式对东亚夏季环流的预测能力。利用1991~2013年美国国家环境预测中心(NCEP)、中国气象局国家气候中心(NCC)和日本东京气候中心(TCC)的三个季节预测模式(CFS V2、BCC_CSM V2和MRI-CGCM)以及NCEP/NCAR再分析资料,定量评估了模式对东亚夏季风(EASM)和夏季西太平洋副热带高压(WPSH)强度的预测能力。在此基础上,分析了模式预测的EASM和WPSH对热带海温异常的响应能力,以及ENSO事件对EASM和WPSH预测的影响,阐述了预测误差产生的原因。结果表明:整体而言,三个模式对EASM和WPSH的预测技巧较高,但TCC模式对WPSH的预测技巧相对较低。三个模式预测的850 hPa风场在西北太平洋存在一个异常气旋,使得预测的EASM偏强和WPSH偏弱。同时,二者的年际变率整体比观测小。三个模式预测的EASM和WPSH对热带海洋海温异常的响应随季节演变特征与观测比较接近,但NCEP模式和TCC模式预测的EASM对前期热带太平洋和前期、同期热带印度洋的海温异常响应要强于观测,NCC模式预测的EASM对前期和同期的热带太平洋的海温异常响应明显比观测强。此外,三个模式预测的WPSH对前期和同期的热带太平洋、热带印度洋和热带大西洋的海温异常响应明显强于观测。三个模式预测的EASM和WPSH在ENSO年的平均绝对误差(MAE)整体而言要比正常年的小很多,NCEP模式和NCC模式预测的EASM和WPSH的MAE在La Ni?a年和El Ni?o年差别不大,而TCC模式预测的EASM和WPSH的MAE在El Ni?o年比在La Ni?a年大很多,表明ENSO事件是东亚夏季环流重要的可预报源。 相似文献
17.
分析1981—2014年7—9月影响皖北东部地区的台风特征,统计不同台风路径和降雨量之间的关系,研究不同路径下皖北东部出现暴雨的环流场特征,结果表明:(1)西北行、陆面转向、海面转向和其他类路径的台风都可以影响皖北东部,并产生降水。其中产生降水个例最多的台风路径为陆面转向类,次多为西北行类。(2)台风影响时无降水、非暴雨和暴雨3类降水个例的500 hPa平均环流场对比分析表明:当有台风影响皖北东部时,配合西风槽或副高阻挡更有利于产生强降水。(3)西北行类台风暴雨的环流场特征是华北到河套存在西南-东北走向高压带阻挡使台风停滞少动;海面转向类台风暴雨环流场特征是河套东部存在低槽与台风相互作用;陆面转向类台风暴雨环流场可以分为3类:贝湖两槽一脊型、贝湖单槽型和副热带高压阻挡型。 相似文献
18.
大气加热场影响西太平洋副热带高压短期位置变化的数值模拟 总被引:1,自引:0,他引:1
利用江淮2003年和华南1998年夏季持续性强降水典型个例,采用区域气候模式RegCM3模拟了强降水期间江淮、华南及孟加拉湾热源异常分布对西太平洋副热带高压短期位置东西进退及南北变动的影响。模拟证实:西太平洋副热带高压位置的短期变异与大气加热场及其配置有密切的联系。持续性强降水期间,副高西侧较远处孟加拉湾热源是诱导西太平洋副热带高压异常西伸的原因之一;华南强降水期间,华南和孟加拉湾热源的共同存在可使副高在季节性西伸过程中出现短期东撤;江淮强降水期间,江淮和孟加拉湾热源的共同存在会诱导副高异常西伸。但模式在模拟副高位置南北变动上效果并不明显,不能证实华南、江淮热源单独存在时对副高在南北位置变异上的阻碍作用。 相似文献
19.
利用NCEP/NCAR逐日再分析资料和辽宁省53站逐日降水量及日平均气温资料,采用诊断分析方法,研究了2018年夏季辽宁异常高温干旱的环流特征及成因。结果表明:2018年夏季辽宁发生了1962年以来最严重的高温干旱事件。辽宁地区上空受相当正压结构的异常反气旋性环流控制,是异常高温干旱发生的局地环流成因;异常反气旋性环流南侧存在一个异常气旋性环流,阻挡了孟加拉湾和南海地区西南暖湿气流向辽宁地区输送,不利于辽宁地区产生降水。南亚高压和西太副高相向运动并在辽宁地区上空重叠,是异常高温干旱发生的大尺度环流成因。EAP/PJ型和EU型遥相关是西太副高异常发展的直接原因。准定常Rossby波能量频散是导致EAP/PJ型和EU型遥相关形成与维持的根本原因之一。源自北大西洋地区的Rossby波能量,沿西风急流波导区向下游频散,使得包括辽宁在内的我国北方广大地区位势高度异常增强;同时我国东北至朝鲜半岛和日本一带存在Rossby波能量的准经向频散,同样有利于EAP/PJ型遥相关的维持与发展,使得辽宁及其附近地区上空受位势高度正距平控制。 相似文献
20.
The northeastern China cold vortex(NCCV) plays an important role in regional rainstorms over East Asia. Using the National Centers for Environmental Prediction Final reanalysis dataset and the Global Precipitation Measurement product,an objective algorithm for identifying heavy-precipitation NCCV(HPCV) events was designed, and the climatological features of 164 HPCV events from 2001 to 2019 were investigated. The number of HPCV events showed an upward linear trend, with the highest frequency of ... 相似文献