驻马店极端气温分析

利用驻马店10个站气象资料,分析了极端温度的时间变化特征、高温天气与6-8月降水量之间的关系和极端晴热高温、极端湿热高温天气形成的天气背景及影响因子,确定了高温出现的前期预报指标。     

东亚春季强冷锋结构及其动力学诊断研究 I. 东亚春季强冷锋结构

本文利用常规探空资料和华东中尺度试验的部分资料，对1983年春季一次快速南下，并在江淮地区产生大范围强对流天气的冷锋进行了三维结构的分析。通过研究发现，这次冷锋过程主要有以下特征: （1） 与冷锋相对应的高空槽前存在一支下沉（DVM）气流；（2）有一强的辐合区出现在对流层中层，锋前上升运动的最大值也出现在对流层中层；（3）比较强的锋生过程主要集中于对流层中下层；（4）存在一支明显的热力直接环流（TDC），即暖湿空气沿冷锋倾斜上升；（5）在冷锋后存在一支较强的下沉气流（DVM），这支DVM对冷锋逆温层（或等温层）的形成可能有重要作用。并将此次东亚春季强冷锋个例与小仓义光（Ogura）等分析的北美春季冷锋（SESAME）个例作了对比，发现此次冷锋个例中，锋区的温度密集区主要在对流层中层，而北美SESAME个例温度密集区主要在对流层低层。这可能是由于东亚高空急流较强，动力强迫而引发锋生所致。     

A TWO-LAYER PRIMITIVE EQUATION OCEAN CURRENT MODEL AND ITS SIMULATION

A two-layer primitive equation model is developed in this paper. The capabilities of this model aretested by the use of multiyearly averaged January and July sea surface level pressure fields and windfields which can be diagnosed from the pressure fields. The results show that the ocean surface currentsand undercurrents in the second layer driven by the sea surface wind and the sea surface pressure areclose to the observation. The results are also compared with that of the IAP OGCM and the OSUOGCM.     

东北地区初霜冻的天气气候特征

利用实测资料和历史天气图资料,对近３１年我国东北地区初霜冻的天气气候特征进行了分析,并探讨了初霜冻出现前２４小时的环流形势特征和天气演变过程,给出了初霜冻的时空分布特征以及对预报有用的一些判据。对实时预报业务有参考作用。     

2014年4月大气环流和天气分析

2014年4月大气环流特征为,北半球极涡呈单极型分布,中心位于喀拉海北端附近;亚洲大陆东部高压脊强度偏强,导致4月我国气温较常年同期(11.0℃)偏高1.1℃,为1961年同期以来第五高值。东亚大槽强度和位置、南支系统和西北太平洋副热带高压接近常年平均状况。4月全国平均降水量为43.7 mm,比常年同期略偏少。月内,江南南部和华南等地出现短时强降水、雷雨大风等强对流天气;北方地区出现多次沙尘天气过程;此外,部分站次出现极端高温、极端降温事件。     

贵州省秋季雨日时空变化及其与大气环流的关系

利用贵州省81站1964—2013年秋季(9—11月)雨日数及美国国家环境预报中心/大气研究中心(NCEP/NCAR)再分析资料,借助Morlet小波、合成分析等相关诊断方法,对贵州省秋季雨日数时空特征及其与大气环流的关系进行了分析。结果表明:贵州省秋季雨日数分布由东南部向西北部逐渐增多,一般在30.0~52.3 d。近50年秋季全省平均雨日数为40.5 d,总体呈减少趋势,每10年雨日数减少1.9 d。秋季雨日数突变发生在1987年前后,1964—1987年为偏多时段,1988—2013年为偏少时段,其中1997年以后减少趋势最为明显。近50年贵州秋季雨日序列存在准5 a和2~3 a的振荡周期,其中准5 a振荡最为显著。当贵州秋季雨日异常偏多时,南海上空的水汽通量在贵州地区辐合抬升,来自低纬地区的暖湿空气输送更加活跃,东亚大槽偏强,低纬度地区槽脊略有加深,贵州处于印缅槽前,偏南气流强盛,从而有利于冷、暖空气在贵州地区交汇,形成阴雨天气,造成贵州秋季雨日数异常偏多;反之亦然。     

北太平洋海表持续加热对夏季中国降水及大气环流的影响

用海温距平累积和讨论了北太平洋海温异常持续加热对夏季中国降水和大气环流的影响。结果表明：ＳＴＰＮＡ（海温的太平洋北美遥相关型）指数距平累积和与江淮流域夏季降水有密切的相关,与全国雨带的类型也有较好的联系。进而讨论了ＳＴＰＮＡ指数距平累积和对大气环流的影响。     

夏季西北干旱气候形成的数值模拟——高原地形和环流场等的影响

为了进一步检验和修改本文部分作者先前初步提出的影响夏季西北干旱气候形成的因子及如何相互作用形成西北干旱气候的物理图像,本文继续用一全球大气环流谱模式,设计了5组试验,利用ECMWF 的格点分析值资料,进行了数值模拟。结果表明,青藏高原隆升和环流差异是形成西北干旱气候的重要因子,已提出的西北干旱气候形成的物理图像大体是正确的。     

聚类分析在暴雨预报和环流形势分型中的应用

数值预报投入业务运行以来，高空形势预报具有较高的准确率，要素预报的准确率也在不断提高，对数值预报产品的释用是近年来人们极为关注的问题，作者早用数值预报５００ｈＰａ高度场及降水实况资料，采用聚类分析法，研究暴雨落区预报和我国暴雨环流形势特征，所得结果在暴雨预报业务中有一定参考价值，同时也给出我国暴雨环流型。     

Longitudinal Displacement of the Subtropical High in the Western Pacific in Summer and its Influence

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.