THE INTERDECADAL VARIABILITY OF ADVANCE AND RETREAT OF EAST ASIAN SUMMER MONSOON AND THEIR EFFECT ON THE REGIONAL RAINFALL OVER CHINA

The daily precipitation data of 740 stations in China(1958–2001)and the daily upper air data of European Centre for Medium-Range Weather Forecasts reanalysis dataset(1958–2001)are used to define an East Asian summer monsoon(EASM)index based on dynamic and thermal factors.The index is used to represent the front(or leading edge)of EASM to describe and characterize the advance and retreat of EASM objectively.During 1958–2001,the EASM movement underwent three interdecadal abrupt shifts in 1965,1980 and 1994,respectively.During 1958–1964,the front primarily concentrated in South China and North China,while it stayed at the mid-and lower-Yangtze River for a short period.During 1965–1979,the front was located in South China and the lower reach of Yellow River for a long time.During 1980–1993,the time in which the front of EASM stayed at the mid-and lower-Yangtze River was much longer,but it settled in North China for just a short time.During 1994–2001,the front generally concentrated in the south of the mid-and lower-Yangtze River.The three interdecadal shifts of EASM directly resulted in rainfall anomalies,as well as frequent disasters of flood and drought in East China.     

ON STRONG SIGNALS OF MONTHLY PRECIPITATION ANOMALIES IN EARLY RAINING SEASON OF GUANGDONG AND CONCEPTUAL MODELS OF PREDICTION

Reanalysis data from NCEP/NCAR are used to systematically study preceding signals of monthly precipitation anomalies in the early raining season of Guangdong province, from the viewpoints of 500-hPa geopotential height field, outgoing longwave radiation (OLR) field, sea surface temperature (SST) and fourteen indexes of general circulation depicting atmosphere activity at high, middle and low latitutes. Being multiple tools of information, a number of conceptual models are formulated that are useful for prediction of the magnitude of monthly precipitation (drought, flood and normal conditionss).     

Interannual and decadal variations of snow cover over Qinghai-Xizang Plateau and their relationships to summer monsoon rainfall in China

Interannual and decadal variations of winter snow cover over the Qinghai-Xizang Plateau (QXP) are analyzed by using monthly mean snow depth data set of 60 stations over QXP for the period of 1958 through 1992. It is found that the winter snow cover over QXP bears a pronounced quasi-biennial oscillation, and it underwent an obvious decadal transition from a poor snow cover period to a rich snow cover period in the late 1970’s during the last 40 years.It is shown that the summer rainfall in the eastern China is closely associated with the winter snow cover over QXP not only in the interannual variation but also in the decadal variation. A clear relationship exists in the quasi-biennial oscillation between the summer rainfall in the northern part of North China and the southern China and the winter snow cover over QXP. Furthermore, the summer rainfall in the four climate divisions of Qinling-Daba Mountains, the Yangtze-Huaihe River Plain, the upper and lower reaches of the Yangtze River showed a remarkable transition from drought period to rainy period in the end of 1970’s, in good correspondence with the decadal transition of the winter snow cover over QXP.     

孟加拉湾风暴云系对广西“99.10”大范围长时间降水的影响

利用卫星云图和天气图,对孟加拉湾风暴云系东扩从而造成广西“99.10”大范围、长时间降水的影响进行分析,得出生命史长、覆盖范围大和呈准静止状态的强大的孟加拉湾风暴云系与稳定少变的副高系统的有效配置,带来充足的水汽及低层大量的不稳定能量是造成这次暴雨过程的主要原因.     

Evidence for solar forcing of climate variation from δ18O of peat cellulose

There have been a number of investigations for examining the possible link between long-term climate variability and solar activity. A continuous δ¹⁸O record of peat cellulose covering the past 6 000 years and the response of climate variation inferred from the proxy record to solar forcing are reported. Results show that during the past 5 000 years the abrupt climate variations, including 17 warming and 17 cooling, and a serious of periodicities, such as 86, 101, 110, 127, 132, 140, 155, 207, 245, 311, 820 and 1 050 years, are strikingly correlative to the changes of solar irradiation and periodicity. These observations are considered as further evidence for a close relationship between solar activity and climate variations on time scales of decades to centuries.     

测震学中期异常向短临异常演变特征的探讨

以晋、冀、蒙三省交界地区的4次6级左右地震为例,研究了中期异常向短临异常演变的特征.此特征可由地震活动图象异常、地震平静与密集、信号震到加卸载响应比异常、日频次起伏加剧的演变来表征,在时间进程上它们是一个渐进的过程.     

利用卫星重力数据研究中国及邻域地壳厚度

本文以中国大陆及邻域地壳厚度为研究对象,采用GRACE提供的GX-OG-2-GCM模型数据计算自由空气重力异常,通过确定地核与地幔的质量,分离出由地壳部分产生的重力异常并经过布格改正得到布格重力异常,利用Park公式求出了中国大陆地壳厚度的分布,结果与以前地壳厚度资料相符合.     

东亚高空急流协同变化对冬季欧亚遥相关型气候效应的影响

利用NCEP/NCAR再分析资料和我国地面735站气温和降水资料,首先分析了欧亚遥相关型的时间演变和结构特征,在此基础上探讨了欧亚遥相关型不同位相时东亚大气环流的差异,并进一步研究了欧亚遥相关型影响我国冬季气温和降水过程中东亚高空急流的重要作用。从结构上看,欧亚遥相关型位势高度异常中心位于250 hPa高度,表现出准正压的结构。欧亚遥相关型位于正位相时,东亚温带急流强度偏弱且位置向北移动;副热带急流强度偏强,两支急流在45°N附近有明显分界;西伯利亚高压和阿留申低压强度增强;东亚大槽加深,槽线倾斜不明显。负位相时则相反。欧亚遥相关型与东亚高空急流的联系是其影响我国气温降水的重要原因。正欧亚遥相关型时,偏弱的温带急流区较强的北风分量有利于北方冷空气南下,从而造成我国气温偏低;偏强的副热带急流区增强的南风将副热带地区暖湿空气向北输送,两支急流协同变化,影响我国冬季降水异常的分布。去掉温带急流或副热带急流偏强的年份,欧亚遥相关型与我国温度、降水的相关性显著减弱,说明欧亚遥相关型是通过东亚高空急流协同变化的桥梁,对我国温度和降水异常产生影响。进一步研究发现,欧亚遥相关型与副热带急流的关系不如其与温带急流稳定,导致在欧亚遥相关型同一位相时东亚高空急流存在两种不同的配置,这种高空急流配置的不唯一性使得东亚高空急流能对欧亚遥相关型的气候效应起到调控作用。     

边界层风廓线雷达在降水时段中的在线分析应用研究

本研究提出了一种在边界层风廓线雷达连续运行的降水探测时段中对降水频谱进行在线分析的新的应用方式。详细介绍了边界层风廓线雷达在线分析原理和方法。同时结合典型降水频谱个例,分析了可获得的多个潜在的气象参数和信息。并指出,该在线分析方式的实施可以使风廓线雷达的应用领域从晴空探测向降水测量拓展;有效缓解当前风廓线雷达应用存在的瓶颈问题;间接证明边界层风廓线雷达组网间距不固定的观点。文章分析说明,随着在线分析方式的推广应用,边界层风廓线雷达将成为单站精细化气象探测和预报/服务的重要工具。     

多种空间检验方法在不同分辨率模式降水预报评估中的应用

利用单一的客观评估方法并不能有效揭示预报误差来源。利用逐小时5 km格点融合降水产品,本研究使用了多种客观评估方法综合评估了南京大学2016年夏季汛期试验4 km与12 km WRF模式。整体上,两种分辨率都能成功地预报主雨带,4 km WRF在午后对流及复杂地形预报上更优。比较了各类客观评估方法,邻域法显示4 km WRF预报准确性更高,但对于强降水(≥13 mm·(6 h)^-1),两种模式预报的空间误差都较大。尺度分离法显示,对于小尺度系统,4 km WRF能较好再现对流但存在较大位置误差,而12 km WRF则漏报。MODE法(Method for Object-based Diagnostic Evaluation)显示4 km WRF在对象强度预报上更接近观测,但强度和范围偏大,导致华南偏强,而范围偏小造成江淮偏弱,12 km WRF低估主要是漏报。不同评估方法能清晰展示4 km WRF和12 km WRF预报误差的差异,为后续模式改进提供了重要参考。