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31.
为进一步了解季风对于水汽及其它大气成分的输送作用,利用美国Aqua卫星上AIRS反演的甲烷(CH4)和MODIS反演的水汽、云高和云量等卫星观测资料,分析了2003至2010年中国青藏高原上空CH4、水汽和云在季风期间的变化及其与季风指数的关系。研究发现:夏季(6月至9月)高原上空水汽、云量和云顶高度的变化与季风指数有很好的相关;在强对流影响下,输送到高原上空的水汽增多,引起云量增多,云顶高度增加,而向上输送的甲烷引起高原上空CH4浓度增加,并在青藏高压强大的反气旋的阻塞下CH4不断积累,在季风期的后半程维持一个高值,但最大值出现在8月底至9月初,比季风指数的峰值晚近一个月。随着季风减退和青藏高压的消失,甲烷的高值快速消失。由此可见,夏季青藏高原的强对流输送无疑是甲烷高值形成的主要动力机制之一。cH4作为一种长寿命的温室气体,有潜力作为一种示踪气体来帮助研究季风和季风期间高原上空强大的反气旋动力机制的变化。 相似文献
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Using National Centers for Environmental Prediction/National Centre for Atmospheric Research(NCEP/NCAR) reanalysis data and monthly Hadley Center sea surface temperature(SST) data,and selecting a representative East Asian winter monsoon(EAWM) index,this study investigated the relationship between EAWM and East Asian summer monsoon(EASM) using statistical analyses and numerical simulations.Some possible mechanisms regarding this relationship were also explored.Results indicate a close relationship between EAWM and EASM:a strong EAWM led to a strong EASM in the following summer,and a weak EAWM led to a weak EASM in the following summer.Anomalous EAWM has persistent impacts on the variation of SST in the tropical Indian Ocean and the South China Sea,and on the equatorial atmospheric thermal anomalies at both lower and upper levels.Through these impacts,the EAWM influences the land-sea thermal contrast in summer and the low-level atmospheric divergence and convergence over the Indo-Pacific region.It further affects the meridional monsoon circulation and other features of the EASM.Numerical simulations support the results of diagnostic analysis.The study provides useful information for predicting the EASM by analyzing the variations of preceding EAWM and tropical SST. 相似文献
35.
Decadal changes in the subseasonal evolution and the phase-locked climatological intraseasonal fluctuation of summertime rainfall over the Korean Peninsula before and after the mid-1990s are investigated.The activity and the migration speed of the monsoon rain band over the East Asian region are altered in the recent decade,resulting in the drier conditions in late spring and the earlier onset of Changma.In early August when a climatological monsoon break was clear in the earlier decade,the precipitation has increased dramatically with a meridional coherency.The response to the enhanced convection over the South China Sea and southeastern China provides a favorable condition for more precipitation in early August through the changes in moisture transport and tropical cyclone passage. 相似文献
36.
The Relationship Between June Precipitation over Mid-Lower Reaches of the Yangtze River Basin and Spring Soil Moisture over the East Asian Monsoon Region 总被引:1,自引:0,他引:1 下载免费PDF全文
Using the US Climate Prediction Center(CPC)soil moisture dataset and the observed precipitation over China together with the NCEP/NCAR reanalysis wind and air temperature,the relationship between June precipitation over mid-lower reaches of the Yangtze River basin(MLR-YRB)and spring soil moisture over the East Asian monsoon region was explored,with the signal of the ENSO effect on precipitation removed.A significant positive correlation was found between the mean June precipitation and the preceding soilmoisture over the MRL-YRB.The possible response mechanism for this relationship was also investigated.It is found that when the soil over the MRL-YRB is wetter(drier) than normal in April and May,theair temperature in the lower troposphere over this region in May is lower(higher) than normal,and this temperature effect leads to a decrease(increase) in the temperature contrast between the land and the sea.Generally,a decrease(increase) in the land-sea temperature contrast leads to weaker(stronger) East Asian summer monsoon in June.Southerly(northerly)wind anomalies at 850 hPa then show up in the south of the Yangtze River basin while northerly(southerly)wind anomalies dominate in the north.These anomalies lead to the convergence(divergence) of wind and water vapor and hence gives rise to more(less) precipitation in June over the MLR-YRB. 相似文献
37.
利用NCEP再分析资料及台站和格点降水量资料分析了华南季风降水与周边大气环流的关系,并由此建立了反映6月华南降水强度的季风指数,这一季风指数利用菲律宾及其以东与华南850 hPa涡度差定义。华南季风指数具有很好的区域代表性,华南季风指数与亚洲格点日降水量的主要正相关区集中在华南。华南季风指数可以很好地描述华南降水的年际变化和极端年份,季风指数强 (弱) 的年份也是华南降水偏多 (少) 的年份,极端的华南季风指数年份对应极端的华南降水年份。华南季风指数高与低年份对应的华南降水量差值通过了0.01的显著性检验。在年代际尺度上,季风指数强 (弱) 的年代与华南降水偏多 (少) 的年代有很好的对应关系。华南季风指数包含了西南季风、副热带高压以及中高纬度西风槽等各影响系统的信息,可在业务上使用。 相似文献
38.
Impacts of Cumulus Convective Parameterization Schemes on Summer Monsoon Precipitation Simulation over China 总被引:3,自引:0,他引:3 下载免费PDF全文
By using the Betts-Miller-Janjic, Grell-Devenyi, and Kain-Fritsch cumulus convective parameterization
schemes in theWeather Research and Forecasting (WRF) model, long time simulations from 2000 to 2009 are
conducted to investigate the impacts of different cumulus convective parameterization schemes on summer
monsoon precipitation simulation over China. The results show that all the schemes have the capability
to reasonably reproduce the spatial and temporal distributions of summer monsoon precipitation and the
corresponding background circulation. The observed north-south shift of monsoon rain belt is also well
simulated by the three schemes. Detailed comparison indicates that the Grell-Devenyi scheme gives a better
performance than the others. Deficiency in simulated water vapor transport is one possible reason for the
precipitation simulation bias. 相似文献
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Determination of onset date of the South China Sea summer monsoon in 2006 using large-scale circulations 总被引:1,自引:1,他引:0
Since the South China Sea (SCS) summer monsoon (SCSSM) is pronouncedly featured by abruptly intensified southwesterly and obviously increased precipitation over the SCS,the lower-tropospheric winds and/or convection intensities are widely used to determine the SCSSM onset.The methods can be used successfully in most of the years but not in 2006.Due to the intrusion of Typhoon Chanchu(0601)that year,the usual method of determining SCSSM onset date by utilizing the SCS regional indices is less capable of pinpointing the real onset date.In order to solve the problem,larger-scale situations have to be taken into account.Zonal and meridional circulations would be better to determine the break-out date of SCSSM in 2006.The result indicates that its onset date is May 16.Moreover,similar onset dates for other years can be obtained using various methods,implying that large-scale zonal and meridional circulations can be used as an alternative method for determining the SCSSM onset date. 相似文献