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31.
中国西南低空急流活动的统计分析 总被引:11,自引:0,他引:11
参照北美研究低空急流气候特征的方法,对中国低空急流进行重新定义,实现了低空急流定义的统一,并在此基础上对低空急流活动特征进行了分析。结果表明:中国低空急流主要有两个活动中心,分别位于江南地区和东北地区;江南地区的低空急流活动主要有两个活跃期,分别为1-4月和6-7月;东北地区的低空急流活动主要表现为2月、8-9月两个活动较弱期;江南地区的低空急流主要在6-8月表现出独立的急流轴,东北地区则主要在8月份;汛期低空急流活动与长江流域区域性暴雨有伴随性,多雨年急流次数很多,少雨年则很少;长江中下游及两湖盆地附近急流活动有明显的日变化。 相似文献
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Longitudinal Displacement of the Subtropical High in the Western Pacific in Summer and its Influence 总被引:17,自引:0,他引:17
Using the relative vorticity averaged over a certain area, a new index for measuring the longitudinal position of the subtropical high (SH) in the western Pacific is proposed to avoid the increasing trend of heights in the previous indices based on geopotential height. The years of extreme westward and eastward extension of SH using the new index are in good agreement with those defined by height index. There exists a distinct difference in large-scale circulation between the eastward and westward extension of SH under the new definition, which includes not only the circulation in the middle latitudes but also the flow in the lower latitudes. It seems that when the SH extends far to the east (west), the summer monsoon in the South China Sea is stronger (weaker) and established earlier (later). In addition, there exists a good relationship between the longitudinal position of SH and the summer rainfall in China. A remarkable negative correlation area appears in the Changjiang River valley, indicating that when the SH extends westward (eastward), the precipitation in that region increases (decreases). A positive correlation region is found in South China, showing the decrease of rainfall when the SH extends westward. On the other hand, the rainfall is heavier when the SH retreats eastward. However, the anomalous longitudinal position of SH is not significantly related to the precipitation in North China. The calculation of correlation coefficients between the index of longitudinal position of SH and surface temperature in China shows that a large area of positive values, higher than 0.6 in the center, covers the whole of North China, even extending eastward to the Korean Peninsula and Japan Islands when using NCEP/NCAR reanalysis data to do the correlation calculation. This means that when the longitudinal position of the SH withdraws eastward in summer, the temperature over North China is higher. On the other hand, when it moves westward, the temperature there is lower. This could explain the phenomenon of the seriously high temperatures over North China during recent summers, because the longitudinal position of SH in recent summers was located far away from the Asian continent. Another region with large negative correlation coefficients is found in South China. 相似文献
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资料分析表明,西太平洋副高活动有准两年振荡特征,副高的相对强度和副高脊线的纬度位置都清楚地表现出这种振荡。而且分析还表明,平流层低层纬向风的垂直切变同西太平洋副高活动有关,东(西)风切变对应着脊线位置偏北的较强(弱)副高形势。平流层低层东(西)垂直切变在赤道对流层上部所引起的异常上升(下沉)运动,导致Hadley环流的异常加强(减弱)可能是平流层QBO影响西太平洋副高准两年振荡的重要机制。用IAP-GCM所作的数值模拟试验得到了同观测资料分析相一致的结果。 相似文献
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通过1982年梅雨期的个例分析,研究和比较了中国和日本梅雨我的结构。分析表明:1.梅雨锋区系统对流层上部宽广的斜压区和对流层低层较狭窄的弱斜压区共同组成;2.在两个个例中,中国剖面上锋区均呈“椅”型结构。日本剖面上,6月呈均匀倾斜结构,7月略呈“椅型”,涡度场上中国剖面为相当正压结构,日本剖面为斜压结构;3.梅雨锋区系统可民是均匀斜压区在不均匀和加热情况下结构改变结果;4.中国大陆雨区高层大量潜热 相似文献
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1996年北半球主要环流特征是:500hPa西太平洋副高偏弱,脊线位置初夏偏北,盛夏西端持续偏南;亚洲西风带后冬至初春经向环流明显发展,7月亚洲中纬度地区常有阻塞形势维持,500hPa青藏高原位势高度偏高,夏季南支印缅槽较弱。 相似文献
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A two-dimensional,semi-geostrophic numerical model incorporating the tropopause and stratosphere is used to investigate the effects of a positive potential vorticity anomaly and latent heat release on the frontogenetic process and the structure of the resulting frontal zone.It is demonstrated that(1) the inclusion of tropopause and stratosphere significantly changes the frontal structure only in the upper levels;(2) a clearly defined quasi-equivalent barotropic structure and a region of upward motion of finite width appear when a positive potential vorticity anomaly exists on the warm side of the maximum baroclinity in the lower troposphere,especially when it is located on the south edge of the baroclinic zone;(3) the above mentioned structure deteriorates as the frontogenesis proceeds in a dry atmosphere but can be maintained in a moist frontogenetic process with condensational heating;(4) the combination of a positive potential vorticity anomaly and the latent heat release is able to accelerate the frontogenesis significantly with the time needed to form an intense frontal zone reduced to less than 15 h.The results have significant theoretical importance in understanding the complex nature of frontal structure and frontogenesis,especially in understanding the dynamic structure of the subtropical frontal zone observed during early summer over East Asia. 相似文献
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