两次副高边缘特大暴雨对比分析     

杨新  柯文华  张小荣  任文斌  廖胜石 《气象研究与应用》2014,35(4):1-4

利用常规资料、地面加密自动观测资料、NCEP/NCAR的1°×1°每6h再分析资料及多普勒雷达资料,对2011年6月16日（简称6.16过程）及2008年7月31日（简称7.31过程）发生在粤东南两次副高边缘特大暴雨进行对比分析。结果表明：6.16过程主要是受高空短波槽和偏南风急流共同影响而产生的,较厚的暖云层、深厚的湿层等使该过程降水范围更广;7.31过程主要是受对流中层扰动诱发产生的,为局地性强降水。雷达回波均表现为强的反射率因子,回波发展迅速且移动缓慢;6.16过程回波图上出现有界弱回波区（BWER）等超级单体风暴特征。  相似文献   

Tracing the boundary layer sources of carbon monoxide in the Asian summer monsoon anticyclone using WRF-Chem   总被引：1，自引：0，他引：1  

Renchang Yan  Jianchun Bian 《大气科学进展》2015,32(7):943-951

The Asian summer monsoon(ASM) anticyclone is a dominant feature of the circulation in the upper troposphere–lower stratosphere(UTLS) during boreal summer, which is found to have persistent maxima in carbon monoxide(CO). This enhancement is due to the upward transport of air with high CO from the planetary boundary layer(PBL), and confinement within the anticyclonic circulation. With rapid urbanization and industrialization, CO surface emissions are relatively high in the ASM region, especially in India and East China. To reveal the transport pathway of CO surface emissions over these two regions, and investigate the contribution of these to the CO distribution within the ASM anticyclone, a source sensitivity experiment was performed using the Weather Research and Forecasting(WRF) with chemistry model(WRFChem). According to the experiment results, the CO within the ASM anticyclone mostly comes from India, while the contribution from East China is insignificant. The result is mainly caused by the different transportation mechanisms. In India,CO transportation is primarily affected by convection. The surface air with high CO over India is directly transported to the upper troposphere, and then confined within the ASM anticyclone, leading to a maximum value in the UTLS region. The CO transportation over East China is affected by deep convection and large-scale circulation, resulting mainly in transportation to Korea, Japan, and the North Pacific Ocean, with little upward transport to the anticyclone, leading to a high CO value at215 h Pa over these regions.  相似文献   

淮河梅雨洪涝与西太平洋副热带高压季节推进异常   总被引：11，自引：4，他引：7       下载免费PDF全文

刘屹岷  洪洁莉  刘超  张鹏飞 《大气科学》2013,37(2):439-450

基于台站观测和卫星观测资料及再分析数据集,本文研究了6月淮河洪涝发生时中国东部降雨型及与雨带异常相联系的环流特征、环流的季节推进异常及其机理.结果发现6月淮河流域洪涝与亚洲环流和中国东部降水联合模态的第二模态密切相关.该模态在我国东部降水表现为以长江为界北增南减的“梅雨偶极型”分布,对应的低层风场呈现出倾斜的以台湾为界,以南西太平洋是异常气旋环流,以北为反气旋环流,即西太平洋副热带高压偏北,淮河流域上存在异常西南风;同时阿拉伯海上是异常反气旋,印度上空西风偏强、降水显著偏多.这些特征是东亚和西太平洋季风区季节推进超前的反映,且与前期春季澳大利亚东北向海域海洋热含量异常偏高显著相关.该关键区海洋热含量变化是太平洋热含量变化第一模态——三极型变化的一部分,即当菲律宾以东的西太平洋和澳大利亚东北向海域海洋热含量增加,赤道中东太平洋热含量减少.该三极型海洋热含量异常从春到夏信号稳定,它激发正感热加热异常控制菲律宾以东到夏威夷以北的广大热带—副热带西太平洋地区,其北侧黑潮延伸区为负感热区.两者共同作用激发出局地反气旋在北、气旋在南,使对流层低层西太平洋副热带高压偏北.因此春季三极型海洋热含量通过影响对流层低层西太平洋副热带高压异常北移对东亚—西太平洋季节推进提前和6月淮河梅雨洪涝发生起重要作用,可作为季节预测的前期因子之一.  相似文献   

Potential Vorticity Diagnostic Analysis on the Impact of the Easterlies Vortex on the Short-term Movement of the Subtropical Anticyclone over the Western Pacific in the Mei-yu Period     

Xiuping YAO  Qin ZHANG  Xiao ZHANG 《大气科学进展》2020,37(9):1019-1031

By employing NCEP-NCAR 1°×1° reanalysis datasets, the mechanism of the easterlies vortex(EV) affecting the short-term movement of the subtropical anticyclone over the western Pacific(WPSA) in the mei-yu period is examined using potential vorticity(PV) theory. The results show that when the EV and the westerlies vortex(WV) travel west/east to the same longitude of 120°E, the WPSA suddenly retreats. The EV and WV manifest as the downward transport of PV in the upper troposphere, and the variation of the corresponding high-value regions of PV significantly reflects the intensity changes of the EV and WV. The meridional propagation of PV causes the intensity change of the EV. The vertical movement on both sides of the EV is related to the position of the EV relative to the WPSA and the South Asian high(SAH). When the high PV in the easterlies and westerlies arrive at the same longitude in the meridional direction, the special circulation pattern will lower the position of PV isolines at the ridge line of the WPSA. Thus, the cyclonic circulation at the lower level will be strengthened, causing the abnormally eastward retreat of the WPSA. Analysis of the PV equation at the isentropic surface indicates that when the positive PV variation west of the EV intensifies, it connects with the positive PV variation east of the WV, forming a positive PV band and making the WPSA retreat abnormally. The horizontal advection of the PV has the greatest effect. The contribution of the vertical advection of PV and the vertical differential of heating is also positive, but the values are relatively small. The contribution of the residual was negative and it becomes smaller before and after the WPSA retreats.  相似文献   

江淮梅雨季亚洲阻塞高压活动统计特征   总被引：2，自引：1，他引：1  

孙晓晴  金荣花  肖天贵  杨宁  魏薇 《气象学报》2020,78(4):580-592

利用1960—2018年6—7月NCEP/NCAR逐日再分析资料和同期中国国家气象站日降水量资料,对江淮梅雨季亚洲地区阻塞高压活动地理分布、关键区阻塞高压事件活动频次、生命周期以及年际和年代际变化,及其与江淮梅雨异常的关系进行了系统分析。结果表明:（1）近59年江淮梅雨季（6—7月）,亚洲阻塞高压事件共计363次,其中心主要分布在乌拉尔山区域（40°—80°E）、贝加尔湖区域（80°—120°E）和鄂霍次克海区域（120°—160°E）3个关键区。（2）3个关键区阻塞高压事件的次数和累计日数由高到低依次为:鄂霍次克海、乌拉尔山和贝加尔湖区域。双阻塞形势以乌拉尔山-鄂霍次克海双阻居多,约占亚洲地区双阻日数的60%。阻塞事件的平均生命周期7 d左右,最长维持时间为13 d。（3）3个关键区总的及分区的阻塞次数和日数都有明显的年际变化并呈增加的趋势,其中线性增加趋势最为明显的是鄂霍次克海区域,与近59年江淮梅雨季的累计雨量增加趋势一致。（4）江淮梅雨季降雨量多寡与阻塞高压活动密切相关,梅雨正（负）异常年鄂霍次克海区域、乌拉尔山-鄂霍次克海双阻日数和次数显著偏多（偏少）,而乌拉尔山和贝加尔湖区域的阻塞高压事件与梅雨关系并不显著。（5）江淮梅雨季鄂霍次克海阻塞高压的日数多寡可能与前期海表温度异常信号ENSO有关。   相似文献   

The role of deformation and other quantities in an equation for enstrophy as applied to atmospheric blocking     

《Dynamics of Atmospheres and Oceans》2014

In this note, equations for enstrophy and enstrophy advection are derived in terms of well-known quantities, assuming horizontal frictionless flow on a beta-plane. Specifically, enstrophy can be written in terms of the geopotential (or pressure), relative vorticity, zonal wind, and resultant deformation. Enstrophy advection is shown to be related to the time evolution of deformation and ageostrophic relative vorticity. Based on previous research, these terms may contribute to instability associated with atmospheric blocking development and decay.  相似文献   

北太平洋中纬度负海温异常对副热带高压影响的数值试验   总被引：3，自引：2，他引：3  

巩远发  何金海  段廷扬  潘攀 《热带气象学报》2006,22(4):386-392

利用中国科学院大气物理研究所的T42L9全球大气环流模式，研究了1993年夏季北太平洋中纬度海温异常对西太平洋副热带高压的影响。数值试验结果表明：（1）中纬度地区负距平海温异常对其南侧太平洋副热带高压的形态和脊线位置都有影响，负距平海温异常试验的500hPa副热带高压的形态明显比气候平均海温试验更接近于NCEP资料实况，对流层中下层副热带高压脊线的平均位置也比气候平均海温试验要偏南，与实况比也更接近了；（2）在500hPa上，北太平洋中纬度负距平海温异常在其南侧产生的高度扰动使副热带高压向南偏移，而在其北侧产生的高度扰动则沿北太平洋中高纬度、北美中高纬度、北大西洋和欧洲南部以及地中海和北非地区的大圆路径传播，并影响和改变整个北半球大气环流的变化。1993年夏季北太平洋中纬度异常的低海温可能是该年盛夏6、7月北太平洋副热带高压位置异常偏南的重要原因之一。  相似文献   

The influence of ENSO on sea surface temperature variations in the China seas   总被引：3，自引：1，他引：2  

LIU N  WANG Hui  LING Tiejun  FENG Licheng 《海洋学报(英文版)》2013,32(9):21-29

Positive SST anomalies usually appear in remote ocean such as the China seas during an ENSO event.By analyzing the monthly data of HadISST from 1950 to 2007,it shows that the interannual component of SST anomalies peak approximately 10 months after SST anomalies peak in the eastern equatorial Pacific.As the ENSO event progresses,the positive SST anomalies spread throughout the China seas and eastward along the Kuroshio extension.Atmospheric reanalysis data demonstrate that changes in the net surface heat flux entering into the China seas are responsible for the SST variability.During El Ni o,the western north Pacific anticyclone is generated,with anomalous southwester lies prevailing along the East Asian coast.This anticyclone reduces the mean surface wind speed which decreases the surface heat flux and then increases the SST.The delays between the developing of this anticyclone and the south Indian Ocean anticyclone with approximately 3–6 months cause the 2–3 months lag of the surface heat flux between the China seas and the Indian Ocean.The northwestern Pacific anticyclone is the key process bridging the warming in the eastern equatorial Pacific and that in the China seas.  相似文献   

2009号台风“美莎克”对黑龙江的影响及非对称结构特征     

曲哲  孙鹏飞  袁园  张礼宝 《沙漠与绿洲气象(新疆气象)》2024,18(1):112-118

使用常规观测资料及ERA5（0.25°×0.25°）再分析资料,对2009号台风“美莎克”进行分析。结果表明：此次过程,副热带高压异常强大,位置偏北,并与北侧阻高合并形成高压坝阻挡;“美莎克”沿副高外围北上与中纬度低涡及冷空气相互作用,变性后斜压性明显加大,低涡增强;“美莎克”携带大量水汽,同时中低空急流将海上水汽持续向黑龙江输送,并在黑龙江强烈辐合,形成强的水汽辐合区和水汽辐合带;高低空急流耦合构成强的垂直环流,对应非常强的垂直上升速度;副热带高压向西北伸展,高空引导气流和热成风方向转为西北—东南向,促使“美莎克”登陆后向西北移动,穿过黑龙江,是黑龙江出现大暴雨的主要原因。分析台风中心涡度、散度、垂直速度、位温、湿位涡等物理量的三维结构变化,可以很好地认识台风在北上登陆中的变性过程以及降水出现非对称结构的原因。  相似文献   

1998和2010年夏季降水异常成因的对比分析：兼论两类不同厄尔尼诺事件的影响   总被引：4，自引：1，他引：3  

王钦  李双林  付建建  李国平 《气象学报》2012,70(6):1207-1222

1998和2010年夏季长江流域均发生了明显的洪涝灾害,且都是厄尔尼诺事件的次年(衰亡位相).不同的是:1997/1998年冬季的厄尔尼诺事件是传统东部型,而2009/2010年冬季的厄尔尼诺事件是中部型(EL Ni(n)o Modoki).首先利用中国160个台站月降水观测资料,对比了1998和2010年降水异常情况,结果显示除长江流域多降水这一共同特征外,1998和2010年降水分布还存在一定差异.利用NCEP/NCAR再分析资料,对比了大气环流异常特征.结果表明:与1998年相比,2010年西北太平洋对流层低层异常反气旋中心位置偏北偏西,西太平洋副热带高压偏强、脊线偏北,使得南海孟加拉湾西南风减弱而东亚南风加强,导致自印度洋、南海向内陆的水汽输送减少,而自西太平洋的水汽输送增加并输送到偏北的位置,雨带比1998年偏北,中国西南地区降水比1998年偏少.进一步分析厄尔尼诺的影响,揭示环流形势的变化与中部型厄尔尼诺年赤道太平洋异常上升气流比传统厄尔尼诺年偏西、西太平洋异常下沉气流随之变化有关.利用GFDL大气环流模式AM2.1,进行了给定1998和2010年实际观测海温强迫的试验,显示海温差异能够部分解释观测到的环流异常.最后,将这两个个例与历史合成进行了比较,发现2010年与历史合成的中部型厄尔尼诺存在较大差异,表明中部型厄尔尼诺对中国夏季降水的影响比以前所认识的要复杂.  相似文献