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任宜勇 《沙漠与绿洲气象(新疆气象)》1994,(3)
9月份北半球500hPa月平均高度图上,三波环流显著,其中槽区位置分别在乌拉尔山附近、白令海附近、赫德逊(Hudson)湾附近,而平均脊的位置分别在冰岛附近、中国东北部、阿拉斯加东部、中纬度偏南地区以负距平为主。北半球西风指数从元月以来相隔8世界气象月报1993年9月个月出现了高指数,而北半球极涡指数连续6个月为正距平形势。1中国东北高温整月都受脊区控制的中国东北地区气温较常年偏高1-3C。2西伯利亚中因多雨位于乌拉尔槽前部的西伯利亚中部,降水偏多,雅库茨克的月降水量比常年偏多2.4倍,达86mm。3欧洲北由低温欧洲大部分地… 相似文献
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北半球1973年北半球大部份地区,尤其是欧洲—大西洋和北太平洋区域内大气环流的特征类似于1972年,气旋活动十分强烈,纬向指数偏高。其原因为极涡不断加强,同时低纬度的等压面高度增大。极涡的气压值比1931—1960年的平均值低2—3个毫巴,亚洲地区的气温比常年低2℃左右。这表明自从五十年代以来,北极地区确实持续变冷。东欧、 相似文献
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2022年10月大气环流的主要特征是北半球极涡呈单极型分布且较常年同期强度偏强,欧亚地区中高纬环流呈“两槽一脊”型,西太平洋副热带高压较常年位置偏西、偏北,强度偏强。10月,全国平均气温为10.8℃,较常年同期(10.6℃)偏高0.2℃;全国平均降水量为34.4 mm,比常年同期(35.6 mm)偏少3.4%。月内我国有2次暴雨天气过程,一次受高空槽、低空急流和副热带高压影响,另一次受台风尼格和高空槽影响。10月共有5个热带气旋在南海和西北太平洋活动,生成个数较常年偏多1.2个,无登陆台风(较常年偏少),其中台风桑卡、纳沙和尼格影响南海、海南岛和华南地区。长江以北气象干旱缓和,长江以南气象干旱持续。 相似文献
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2017年12月大气环流和天气分析 总被引:2,自引:2,他引:0
2017年12月大气环流的主要特征如下:北半球极涡呈偶极型分布,欧亚中高纬环流呈两槽一脊型;南支槽位于70°E 附近,较常年同期偏西,副热带高压位置偏西,不利于水汽向我国中东部地区输送。12月,全国平均降水量为5.9 mm,比常年同期(10.8 mm)偏少44.8%,我国北方大部分地区降水量较常年同期偏少4~8成。全国平均气温-2.2℃,较常年同期(-3.2℃)偏高1℃;受偏强东北低涡影响,东北地区和内蒙古中东部气温较常年同期偏低1~3℃。月内,冷空气活动频繁,但强度较弱,出现5次一般强度冷空气过程。受频繁冷空气影响,雾 霾天气较常年同期偏少,仅28—30日出现一次大范围持续性雾 霾天气。 相似文献
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2000年受La Nina结束后冷水事件的影响,北半球大气环充的要主特征表现为:500hPa东亚中纬度呈经,纬向环流交替分布,西太平洋副热带高压偏弱,偏北,偏东,热带对流活动冬季偏强,夏季偏弱,赤道辐合带偏弱,在上述大气环流的影响下,台风偏少,夏季主要多雨带位于黄河与长江之间,黄河以北地区干旱严重。 相似文献
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南半球西风指数变化与中国夏季降水的关系 总被引:1,自引:1,他引:0
根据NCEP/NCAR提供的1950~2007年南半球12~2月、6~8月500 hPa位势高度的月平均再分析资料,采用合成分析方法讨论与中国夏季3类雨型相对应的南半球500 hPa距平高度场的分布特征;运用多变量方差分析方法确定12~2月和6~8月与3类雨型相对应的南半球西风指数波动关键区A;分析关键区A的西风波动与中国夏季降水之间的关系;寻找南、北半球西风相互作用影响中国夏季降水分布的可能途径。分析表明,6~8月与3类雨型相对应的南半球500 hPa距平高度场显示出不同的距平分布形式,并存在显著差异区在(35°N~50°N,35°E~80°E)。12~2月南半球的西风指数变化关键区A在22.5°W~2.5°W,6~8月关键区A在10°E~55°E。南半球关键区A的西风指数强弱变化与中国夏季降水的关系密切,且12~2月南半球的西风波动对北半球夏季关键区的西风环流的变化有预测意义,而前期南半球关键区A的平均西风指数与北半球夏季高度场的显著负相关区在贝加尔湖。南、北半球大气环流经向传播是两半球西风相互作用的可能途径,前期南半球的异常西风使夏季贝加尔湖的平均槽强度变化,进而造成北半球关键区的西风环流异常,从而影响中国夏季雨型的分布。 相似文献
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ON WESTERLY WIND BURSTS IN EQUATORIAL WESTERN PACIFIC BEFORE AND DURING THE ONSET AND INITIAL DEVELOPMENT PHASES OF ENSO* 下载免费PDF全文
By means of NCEP/NCAR reanalysis dataset,the origins of westerly wind anomalies at low level over equatorial western Pacific Ocean before and during the onset and initial development phase of ENSO are explored.Evidences show that westerly anomalies in the equatorial western Pacific(140-180°E) are characterized by two remarkable enhancements in the spring and summer of the year when El Nine emerges.The enhancements are not only.to some extem.due to the eastward propagation of low-level westerlies in equatorial Indian Ocean.but also predominantly resulting from Ihe intense convergence of the meridional wind from both hemispheres.The latitudinal convergence leads to the local intensification of zonal pressure gradient so as to cause the reinforcement and bursts of westerly wind over warm pool.Besides,by virtue of the effect of earth rotation,the northeasterlies(southeasterlies) from the Northern(Southern) Hemisphere turn into northwesterlies(southwesterlies) progressively in the near-equatorial zone.which directly strengthens the westerly velocity.Comparing the contributions of the meridional wind from both hemispheres to westerly wind bursts,is seems that southeasterlies from the Southern Hemisphere are much stronger and more stable than northwesterlies of Northern Hemisphere.It is evident that the southeasterlies to the east of Australia originate from the southern mid-and high latitudes and are in close association with the Southern Oscillation. 相似文献
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The ensemble based forecast sensitivity to observation method by Liu and Kalnay is applied to the SPEEDY-LETKF system to estimate the observation impact of three types of simulated observations. The estimation results show that all types of observations have positive impact on short-range forecast. The largest impact in Northern Hemisphere is produced by rawinsondes, followed by satellite retrieved profiles and cloud drift wind data, which in Southern Hemisphere is produced by satellite retrieved profiles, rawinsondes and cloud drift wind data. Satellite retrieved profiles influence more on the Southern Hemisphere than on the Northern Hemisphere due to few observations from rawinsondes in the Southern Hemisphere. At the level of 200 to 300 hPa, the largest impact is attributed to wind observations from rawinsondes and cloud drift wind. 相似文献
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用风场傅立叶分析方案,分析了NCEP/NCAR再分析资料的热带(30°S~30°N)850、200 hPa气候风场V8 50、V2 00的谱结构,讨论热带风场定常波的成因,以弥补热带气候风场此类分析工作的空白。研究结果表明,(1)有低维、低阶特征,|m|=0,4-、0,3-波对月8 50、2 00的累积模方拟合率年均达90%、98%。(2)纬向平均分量0最重要,它对8 50、2 00的单波拟合率ρ0年均达52%、85%。850 hPa0主要由北、南半球的两支信风带构成,冬半球强、夏半球弱,轴线位置与所在半球Hadley环流中心对应;200 hPa0由强的外热带西风带和弱的内热带东风带构成。0的季节变化850 hPa层明显强于200 hPa,北半球明显强于南半球。(3)风场定常波的最大波分量全年两层均为|1|*,它对850*、200*的拟合率ρ|*1|年均达39%、55%;ρ|1|*作年双周振荡,北半球夏、冬季达极大,秋、春季达极小。次大波分量在北半球冬、夏季时同为3、2波,过渡季节也以3、2波为主(10—12月850*4波是例外)。(4)1、7月射出长波辐射定常波OLR*最大、次大波与同期V*相同,1月为1、3波,7月为1、2波;OLR*重要波分量上的极值区与*相应波分量散度场的垂直配置符合动力学原理。(5)7月青藏高原及以东以南的广阔区域,*的主要分量|1|*、|2|*同为下层辐合、上层辐散,1OLR*、2OLR*同为负值,是同纬度上最有利于降水和潜热释放的气候区。 相似文献
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Climate Change in the Subtropical Jetstream during 1950–2009 总被引:1,自引:0,他引:1
A study of six decades(1950–2009) of reanalysis data reveals that the subtropical jetstream(STJ) of the Southern(Northern) Hemisphere between longitudes 0°E and 180°E has weakened(strengthened) during both the boreal winter(January,February) and summer(July, August) seasons. The temperature of the upper troposphere of the midlatitudes has a warming trend in the Southern Hemisphere and a cooling trend in the Northern Hemisphere. Correspondingly, the north–south temperature gradient in the upper troposphere has a decreasing trend in the Southern Hemisphere and an increasing trend in the Northern Hemisphere, which affects the strength of the STJ through the thermal wind relation. We devised a method of isotach analysis in intervals of 0.1 m s-1in vertical sections of hemispheric mean winds to study the climate change in the STJ core wind speed, and also core height and latitude. We found that the upper tropospheric cooling of the Asian mid-latitudes has a role in the strengthening of the STJ over Asia, while throughout the rest of the globe the upper troposphere has a warming trend that weakens the STJ. Available studies show that the mid-latitude cooling of the upper troposphere over Asia is caused by anthropogenic aerosols(particularly sulphate aerosols) and the warming over the rest of the global mid-latitude upper troposphere is due to increased greenhouse gases in the atmosphere. 相似文献
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M. Gamo 《Boundary-Layer Meteorology》1996,79(3):265-278
Thickness of dry convection above various deserts of the world is obtained from aerological data, and assimilated data from ECMWF. A mixed layer develops up to a height of about 1 km above the central Sahara, where strong subsidence occurs. However, above many other deserts in Africa and Asia, a deep mixed layer develops up to 4–6 km. These mixed layers develop to a high altitude because the daytime mixed layer links with an existing weakly stratified, near-neutral layer above. Large-scale subsidence does not reach the surface throughout the day, except in the winter season. Mixed-layer height is shallower in the Southern Hemisphere than in the Northern Hemisphere in the summer season. 相似文献
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利用DMSP F13卫星离子漂移速度测量数据和Wind卫星行星际磁场测量数据,对极区顶部电离层离子整体上行进行研究,主要考察平静期和磁暴期离子上行强度,以及不同行星际磁场方向和季节对离子上行的影响。研究发现,无论是南半球还是北半球,磁暴期的上行发生率都超过平静期;无论磁暴期还是平静期,南半球在北向行星际磁场时上行发生率高于南向行星际磁场、北半球在南向行星际磁场时上行发生率高于北向行星际磁场,且该结论在磁暴期比平静期更为明显;南半球平静期在北向行星际磁场和南向行星际磁场时冬季的上行发生率都远高于夏季,超过2倍,北半球平静期在北向行星际磁场和南向行星际磁场时夏季的上行发生率高于冬季。 相似文献
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南半球环流与西太平洋副热带高压和台风群中期活动的关系 总被引:12,自引:2,他引:10
通过对南北半球环流6年资料的分析,发现在北半球夏季5~8月,南半球中纬西风指数、低纬西风指数、赤道气压指标与北半球西太平洋副热带高压和台风群的中期活动均有较好的关系。在台风群活跃的年份,台风群生成阶段前后,环流变化由南半球中纬先开始,随后南半球低纬和赤道地区环流也出现变化,赤道气压指标到达低值,此后,北半球西太平洋副热带高压的特征产生一系列的变化,上述南北半球环流系统变化的传播过程为准二周周期。 相似文献