The Impact of Mid- and High-Latitude Rossby Wave Activities on the Medium-Range Evolution of the EAP Pattern During the Pre-Rainy Period of South China

Based on the NCEP DOE AMIP II daily reanalysis data (1979{2005), the evolution of the East Asia/Pacific(EAP) teleconnection pattern during the pre-rainy period of South China is studied on the medium-range time scale. It is found that positive and negative EAP patterns share a similar generation process. In the middle and upper troposphere, Rossby wave packets emanating from the northeast Atlantic or Europe propagate toward East Asia along the Eurasian continent waveguide and finally give rise to the three anomaly centers of the EAP pattern over East Asia. Among the three anomaly centers, the western Pacific subtropical center appears the latest. Rossby wave packets propagate from the high latitude anomaly center toward the mid-latitude and the subtropical ones. The enhancement and maintenance of the subtropical anomaly center is closely associated with the subtropical jet waveguide and the incoming Rossby wave packets from the upstream. In the lower troposphere, Rossby wave packets emanate from the subtropical Asia toward East Asia. Positive and negative EAP patterns could not be regarded as "mirrors" to each other with simply re- versed phase. For the positive pattern, the positive height anomaly center around the Scandinavia Peninsula keeps its strength and position during the mature period, and the Rossby wave packets thus propagate persistently toward East Asia, facilitating a longer mature time of the positive pattern. As for the formation of the negative EAP pattern, however, the incoming Rossby wave energy from the upstream contributes to both the enhancement and southeastward movement of the negative anomaly belt from the Yenisei River to the Bering Strait and the positive anomaly center around Mongolia. At the peak time, the two anomlous circulations are evolved into the Northeast Asia and the mid-latitude anomaly centers of the negative pattern, respectively. The energy dispersion of Rossby wave packets is relatively fast due to the predominant zonal circulation in the extratropics, causing a shorter mature period of the negative pattern. During the pre-rainy period of South China, the prevalence of the EAP pattern signiˉcantly affects the rainfall over the region south of the Yangtze River. The positive (negative) EAP pattern tends to causepositive (negative) precipitation anomalies in that region. This is di?erent from the earlier research findingsbased on monthly mean data.     

东亚地区夏季水汽输送特征

利用1950—2002年NCEP/NCAR再分析逐日平均资料,计算全球格点整层水汽输送通量,分析东亚地区夏季水汽输送在推进过程中逐候的气候特征。研究发现：第25—44候是水汽输送变化最为明显的时段,也是水汽输送的集中期;东亚地区各个经度带的偏南风水汽输送在出现时间、北抬进程速度、北界位置、南撤速度等方面均表现出不同的特征;副高边缘的东南风水汽输送具有迂回西扩和快速东撤的特点,并且在强盛期能够到达青藏高原的东南部。     

Relationship between East Asian Monsoon and Dust Weather Frequency over Beijing

The relationship between dust weather frequency (DWF), which denotes the number of days of dust weather events, over Beijing and the East Asian Monsoon (EAM) was studied using DWF data for Beijing during the period 1951--2006. Results show that, during this period, the blowing-dust weather frequency (BDWF), as well as the indices of East Asian winter monsoon (EAWM) and East Asian summer monsoon (EASM), all decreased considerably, with a t-test confidence level of 99%. The correlation coefficients between the chosen EAWM index and BDWF over Beijing in winter and the following spring were 0.34 and 0.33, respectively, with significance levels of 0.01 and 0.02, respectively. For the chosen EASM index and BDWF, these correlation coefficients were 0.51 and 0.45, respectively, with both at a confidence level exceeding 99.9%. With the linear trends removed, the values (in the same order as above) were 0.14, 0.14, -0.12, and -0.09, all not significant at the 95% confidence level. Clearly, the EAM relates mainly to DWF over long timescales. To a certain extent, the EAM might have some impact on DWF by affecting the associated surface air temperature and precipitation during the corresponding time period in sand-dust source regions at the interannual scale. A stronger (weaker) EAWM might advance (suppress) the occurrence of DWF, and the opposite for the EASM.     

华东登陆台风的对流非对称结构分析

利用FY-2气象卫星的TBB资料对登陆华东地区的台风进行了对流非对称结构的分析。不同象限的对流分析显示,在台风登陆的-24—6 h过程中,其南侧的对流始终强于北侧,西侧的对流在登陆至8 h之前强于东侧,之后两者的对流相对强弱发生变化。台风对流的非对称分布,一部分是由于环境垂直风切变和台风移动造成的,还有一部分是由于台风登陆过程相关象限对流受限引起的。此外,华东沿海的地形抬升作用也有利于台风东侧对流的产生和加强。对比华南登陆台风的非对称对流分布特点,发现导致两者明显不同的原因主要在于台风登陆过程的路径与海岸线的相对夹角,以及台风东侧的不同地形。     

An Assessment on the Performance of IPCC AR4 Climate Models in Simulating Interdecadal Variations of the East Asian Summer Monsoon

Observations from several data centers together with a categorization method are used to evaluate the IPCC AR4 （Intergovernmental Panel on Climate Change, the Fourth Assessment Report） climate models＇ performance in simulating the interdecadal variations of summer precipitation and monsoon circulation in East Asia. Out of 19 models under examination, 9 models can relatively well reproduce the 1979-1999 mean June-July-August （JJA） precipitation in East Asia, but only 3 models （Category-1 models） can capture the interdecadal variation of precipitation in East Asia. These 3 models are： GFDL-CM2.0, MIROC3.2 （hires）, and MIROC3.2 （medres）, among which the GFDL-CM2.0 gives the best performance. The reason for the poor performance of most models in simulating the East Asian summer monsoon interdecadal variation lies in that the key dynamic and thermal-dynamic mechanisms behind the East Asian monsoon change are missed by the models, e.g., the large-scale tropospheric cooling and drying over East Asia. In contrast, the Category-1 models relatively well reproduce the variations in vertical velocity and water vapor over East Asia and thus show a better agreement with observations in simulating the pattern of ＂wet south and dry north＂ in China in the past 20 years.
It is assessed that a single model＇s performance in simulating a particular variable has great impacts on the ensemble results. More realistic outputs can be obtained when the multi-model ensemble is carried out using a suite of well-performing models for a specific variable, rather than using all available models. This indicates that although a multi-model ensemble is in general better than a single model, the best ensemble mean cannot be achieved without looking into each member model＇s performance.     

东亚大气环流由冬向夏的转变时间及其特征

利用NCEP/NCAR再分析数据集及CMAP降水资料分析了东亚大气环流由冬转夏的可能时间及其特征。结果表明,3月底4月初,东亚与西太平洋对流层纬向热力差异由东暖西冷转为东冷西暖,对流层低层大陆高压东移,使得纬向气压梯度发生逆转。与此同时,对流层低层偏南风建立,经向垂直环流也发生季节逆转。同时,3月底4月初华南已出现持续性降水雨带。所有这些特征都表明东亚大气环流可能在3月底4月初已经由冬季型开始转为夏季型。     

Model Projections of East Asian Summer Climate under the ‘Free Arctic’ Scenario

This paper addresses the ‘ice-free Arctic’ issue under the future global warming scenario. Four coupled climate models used in the third phase of the Coupled Model Intercomparison Project (CMIP3) were selected to project summer climate conditions over East Asia once the Arctic becomes ice-free. The models project that an ice-free Arctic summer will begin in the 2060s under the SRESA1B (according to IPCC Special Reports on Emissions Scenarios) simulations. Our results show that the East Asian summer monsoons will tend to be stronger and that the water vapor transport to central northern China will be strengthened, leading to increased summer precipitation in central northern China. The models also project an intensified Antarctic Oscillation, a condition which favors increased precipitation in South China’s Yangtze River Valley. The overall precipitation in Northwest China is projected to increase under ice-free Arctic summer conditions.     

The Antarctic oscillation-East Asian summer monsoon connections in NCEP-1 and ERA-40

Connections between the spring Antarctic Oscillation(AAO)and the East Asian summer monsoon (EASM)in two reanalysis datasets—NCEP-1(NCEP/NCAR Reanalysis 1)and ERA-40(ECMWF 40- year Reanalysis)—are investigated in this study.Both show significant correlation between AAO and EASM rainfall over the Yangtze River valley,especially after about 1985.Though ERA-40 shows weaker anomalous signals connecting AAO and EASM over southern high latitudes than NCEP-1,both datasets reveal similar connecting patterns between ...     

近46年来华东及周围地区最高与最低气温时空演变的气候特征

选用华东及周围地区157个气象观测站1960-2005年6~8月逐日最高、 最低气温资料, 利用分段线性突变检验、 EOF分解等方法, 分析了我国华东地区最高, 最低气温的空间分布及时间演变特征。结果表明： 高温主要出现在长江以南; 长江以北夏季气温分布受地形影响显著。最高气温分布具有良好的空间一致性, 主要受大尺度天气系统影响; 最低气温更多表现出局地变化特征; 华东夏季最高、 最低气温分布形态较为类似, 有“全区一致型”和“南北反向型”两种, 1980年是夏季气温的一个突变点。1980年以前, 最高、 最低气温都呈下降趋势; 1980年以后则呈升温趋势; 最高气温的演变以“高温-低温-高温”的年代际振荡为主, 极端高温主要发生在两个时段： 第一次在1960-1965年之间; 第二次在2000年以后, 而极端最低气温以升温趋势为主。     

初夏至盛夏东亚副热带西风急流突变早晚与东亚环流异常的关系

利用1961-2004年NCEP／NCAR再分析逐候资料和全国160站月平均降水资料,分析了初夏至盛夏东亚副热带急流北跳和急流中心西移发生早晚对7月东亚大气环流和我国降水的影响。结果表明,急流北跳时间与7月长江中下游地区降水异常正相关,急流中心西移时间则与7月淮河流域降水异常正相关,与华北和河套地区降水异常负相关。急流北跳时间与南亚高压和西太平洋副热带高压南北位置异常及高纬贝加尔湖以东高压脊强度相关;而急流中心西移时间与南亚高压和西太平洋副热带高压的东西伸展及贝加尔湖以西高压脊强度相关,在急流中心西移偏晚年,南亚高压西缩,贝加尔湖西南侧高压脊增强,南下至华北和河套地区冷空气偏强,且西太平洋副热带高压东撤,冷暖空气在淮河流域交汇,使得华北和河套地区降水减少而淮河流域降水偏多;偏早年情况与偏晚年情况相反。