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1.
Using the 1979-2009 NCEP/NACR reanalysis data and precipitation records in East China, research is performed of the climatological features of low-frequency oscillation (LFO) in OLR over the Maritime Continent (MC) as well as their associations with precipitation disturbance in the eastern part of China. Results suggest that in the MC there is significant climatological low-frequency oscillation (CLFO) in outgoing long-wave radiation (OLR), with the intraseasonal oscillation (30-60 days) being the strongest for April-September, and the MC acting as a high-value region of percentage contributions of low-frequency OLR variance. On the low-frequency time scale there occur four events of more intense active OLR during this time interval. In the January-April (May-August) phase, MC convection is relatively weak (vigorous). The CLFO makes pronounced eastward displacement at tropics, with phase propagation seen longitudinally, too. There occur low-frequency disturbance circulations similar to the EAP wavetrain or P-J teleconnection, starting from the MC via the South China Sea and the Philippines to the Yangtze valley of China. At different phases, the variation in the low-frequency circulations and heating fields shows that the rainfall disturbance in eastern China is likely to be under possible effects of the CLFO from the MC in April-September, and the low-frequency heating variation exhibits a meridional pattern as an EAP wavetrain or P-J teleconnection. As the OLR CLFO is in a peak (valley) phase the low-level divergence or convergence with the reversal at high levels over the MC is related to relatively feeble (robust) low frequency convection, thereby exciting an EAP or P-J wavetrain from the MC to the Sea of Japan. At the higher levels, the South-Asian high is eastward (westward) of normal due to effects of low-frequency cyclones (anticyclones), resulting in less (more) rainfall in the Jiangnan (areas in the middle and lower reaches of Yangtze and to the south of the river) and Hetao (the Great Bend of Yellow River) areas, and increased (decreased) rainfall in SW China, Qinghai Plateau and Gansu. At the conversion phases, low-frequency convection becomes more active in parts of the MC, consequently exciting low-frequency wavetrain of cyclones-anticyclones-cyclones at low levels, making the South-Asian high southward of the mean, so that strong convergent zones emerge in the upper and middle Yangtze basins and Jilin of NE China, responsible for plentiful precipitation there in sharp contrast to the rainfall over the band between the Yellow and Huaihe Rivers and the Yunnan-Guizhou Plateau. These results help understand in depth the climatological LFO characteristics and the phase-locked feature, thereby further improving our understanding of the causes of rainfall disturbances in different parts of the country. 相似文献
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近45a冬季北大西洋涛动异常与我国气候的关系 总被引:14,自引:1,他引:14
利用1873-1995年的北半球海平面气压月平均资料,定义了北大西洋涛动指数。用近45a资料研究了北大西洋涛动与我国冬、夏季气候变化的关系。指出,北大西洋涛动异常变化与我国冬、夏季天气气候关系密切。强涛动年,冬季我国是偏暖、多雨的气候特征;夏季我国江淮之间地区气温明显偏低。还表明,强涛动年冬季,西太平洋副热带高压强度与西伯利亚高压及高空经向环流都明显偏弱,大气环流具有弱WA遥相关型、弱的东亚冬季风特征,对应的夏季环流特征与强东亚夏季风特征较接近。 相似文献
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准四年周期的北半球夏季遥相关与东亚夏季风环流的相互关系 总被引:3,自引:3,他引:0
利用NMC的200hPa和850hPa风场资料研究了北半球夏季遥相关和东亚夏季风异常环流在准4年时间尺度上的相互关系。研究发现当北半球夏季出现积雪强迫型遥相关时,东亚-西太平洋地区既存在异常纬向环流,也存在异常经向环流;而当出现东亚太平洋型遥相关时,东亚-西太平洋地区以异常纬向环流为主。分析还发现源于北太平洋的异常涡旋在向南传播的过程中,先取西南路径,在到达菲律宾东部以后折向东南。 相似文献
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POSSIBLE IMPACTS OF MADDEN-JULIAN OSCILLATION ON THE SEVERE RAIN-SNOW WEATHER IN CHINA DURING NOVEMBER 2009 总被引:4,自引:2,他引:2
Possible relationships between MJO and the severe rain-snow weather in Eastern China during November of 2009 are analyzed and results show that a strong MJO process is one of the strong impact factors.MJO is very active over the Indian Ocean in November 2009.Especially,it maintains 9 days in MJO phase 3,just corresponding to the two strongest rain-snow processes.Composites of MJO events show that when the MJO convective center is located over the Indian Ocean,the probability of rainfall is significantly increased and the temperature is lower than normal in eastern China,which is consistent with the situation in November of 2009.Atmospheric circulation anomalies of mid-and higher-latitudes can be influenced by the tropical MJO convection forcing and this influence could be realized by teleconnection.When the MJO is over the Indian Ocean,it is favorable for the maintenance of a circulation pattern of two ridges versus one trough at mid-and higher-latitudes.Meanwhile,the western Pacific subtropical high is stronger and more westward than normal,and a significant convective belt appears over eastern East Asia.All these circulation anomalies shown in the composite result also appeared in the observations in November 2009,which indicates the general features of relationships between the MJO and the circulation anomalies over the extratropics.Besides the zonal circulation anomalies,the MJO convection can also lead to meridional circulation anomalies.When the MJO convection is located over the Indian Ocean,the western Pacific is dominated by anomalous descending motion,and the eastern East Asia is controlled by strong convergence and ascending motion.Therefore,an anomalous meridional circulation is formed between the tropics and middle latitudes,enhancing the northward transportation of low-level moisture.It is potentially helpful to understanding and even forecasting such kind of rain-snow weather anomalies as that in November 2009 using MJO. 相似文献
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There is a well-known seesaw pattern of precipitation between the tropical western North Pacific(WNP) and the Yangtze River basin(YRB) during summer. This study identified that this out-of-phase relationship experiences a subseasonal change;that is, the relationship is strong during early summer but much weaker during mid-summer. We investigated the large-scale circulation anomalies responsible for the YRB rainfall anomalies on the subseasonal timescale. It was found that the YRB rainfall is mainly affected by the tropical circulation anomalies during early summer, i.e., the anticyclonic or cyclonic anomaly over the subtropical WNP associated with the precipitation anomalies over the tropical WNP. During mid-summer, the YRB rainfall is mainly affected by the extratropical circulation anomalies in both the lower and upper troposphere. In the lower troposphere, the northeasterly anomaly north of the YRB favors heavier rainfall over the YRB by intensifying the meridional gradient of the equivalent potential temperature over the YRB. In the upper troposphere, the meridional displacement of the Asian westerly jet and the zonally oriented teleconnection pattern along the jet also affect the YRB rainfall. The subseasonal change in the WNP–YRB precipitation relationship illustrated by this study has important implications for the subseasonalto-seasonal forecasting of the YRB rainfall. 相似文献
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利用华北地区20站夏季降水资料和NCEP/NCAR再分析资料,采用趋势分析、合成分析等方法,对华北夏季降水减少与北半球大气环流异常进行对比分析。结果表明,华北夏季降水量1951—2008年呈显著减少趋势,平均每10 a减少13.4 mm,1965年发生了气候突变,之后降水量减少更加明显。北半球大气环流在1965年前后有明显不同:1)1951—1965年夏季500 hPa高度场欧洲大槽、贝加尔湖槽较深,乌拉尔山高压脊较强,经向环流表现突出;而1966—2008年夏季欧洲大槽、贝加尔湖槽较浅,乌拉尔山高压脊较弱,纬向环流表现突出。2)1951—1965年夏季500 hPa蒙古冷槽位置偏北偏西,冷空气活动经常影响华北地区;而1966—2008年夏季蒙古冷槽位置东移南压到河套附近,冷空气经常影响华北以南以东地区。3)1951—1965年夏季海平面气压场蒙古低压异常强大,而1966—2008年蒙古低压明显减弱。4)1951—1965年夏季850 hPa东亚夏季风一直伸展到华北、东北地区,蒙古地区存在明显的气旋性环流,在河套附近产生风向辐合;而1966—2008年东亚夏季风在到达30°N附近风速显著减小,很少越过长江到达华北地区,在长江流域形成了风速辐合,同时蒙古地区的气旋性环流消失,河套附近的风向辐合变的很弱。1951—1965年华北多雨是由于东亚夏季风水汽的有效输送和河套附近的风向辐合造成的,而1966—2008年长江流域多雨是由于东亚夏季风在这里产生了风速辐合造成的。华北夏季降水减少与北半球大气环流异常有很好的联系。 相似文献
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1 INTRODUCTION Locating in mid-latitude East Asia monsoon region, the Shandong province is marked by significant monsoon climate. Precipitation in summer (from June to August) takes up about 60% of the annual total[1] and drought and flood damages take place frequently. The province is in a zone where the northern and southern climates change into each other for it is between two plains, the North China Plain and Chang Jiang R (the Yangtze).-Huai He R. Plain. Droughts and floods in … 相似文献
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冬季积雪的异常分布型及其与冬、夏大气环流的耦合关系 总被引:4,自引:0,他引:4
采用 ECMWF1 979~ 1 993年 2 .5°× 2 .5°的网格点积雪深度资料 ,研究了较为细致的积雪异常的空间分布特征 ,揭示了欧亚大陆冬季积雪的异常空间分布型 ;并采用 SVD方法研究了冬季积雪的异常分布型与冬、夏大气环流的耦合关系。结果表明 :欧亚大陆冬季积雪深度存在典型的异常空间分布型 ;积雪的异常分布型与冬、夏大气环流之间均存在一定的耦合关系。冬季积雪的异常分布型与大气 EU遥相关型存在明显的同时性相互作用 ,大气 EU遥相关型有利于冬季积雪异常分布型的出现和维持 ,而积雪异常分布型对大气 EU遥相关型的发生起一定的作用 ,进而对冬季风活动产生影响。冬季积雪的这种异常分布型与夏季大气环流 ,尤其是东亚地区的夏季大气环流 ,也存在一定的联系。积雪异常分布型可以通过影响副热带高压的南北进退 ,对东亚季风及中国夏季雨带产生影响。 相似文献
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Correlation analysis identified that Indian summer rainfall and East Asian 500 hPa geopotential height field are significantly correlated.A teleconnection pattern between Indian monsoon and East Asian summer circulation (IEA pattern) was proposed.We suggested that the Pacific-Japan teleconnection pattern (PJ pattern) primarily influences the meridional position of the northwestern Pacific subtropical high (NPSH) in summer,while IEA pattern partly affects its zonal stretch or the anomaly of geopotential height field over China mainland.The numerical experiments imply that the IEA pattern has important impact on East Asian circulation and it can be stimulated by the SST anomaly of the Indian Ocean.We summarized that there are two ways,a directive way and a selective way,by which ENSO exerts impacts on East Asian summer monsoon. 相似文献