包头地区二次大雪过程的成因分析

文章应用常规资料,从天气环流形势演变、物理量等方面,对2000年1月10—11日包头地区普降大雪过程作了客观的分析,揭示了大雪过程的发生、发展机制,对今后分析大雪过程具有一定指导意义。     

2009年夏季(6-8月)山东天气评述

利用2009年6—8月山东省的气温、降水实况资料、以及北半球500hPa平均高度场和距平场等资料,分析了山东省2009年夏季的天气气候特点、环流特征和主要的天气过程,对季内的主要天气及其影响进行了评述。     

气候变暖以来黑龙江省春防期高火险日数环流背景分析及预测

本文着重从气候变暖以来春防期高火险日数偏多年和偏少年北半球500hPa环流场背景分析,偏多年时距平场上正负中心形成以黑龙江省为中心自高纬向低纬呈"-,+"距平型,偏少年时距平场上正负中心形成以黑龙江省为中心自高纬向低纬呈"-,+"距平型.从前期北半球500hPa环流场异常形势演变,偏多年前期北半球500hPa距平场上极区为大范围正距平,极涡偏弱,鄂霍茨克海有阻塞高压存在,东亚大槽偏强,阿留申低压活跃,偏少年时前期极区为大范嗣负距平,极涡偏强,鄂霍茨克海没有明显的阻塞高压形势,东亚大槽偏弱,阿留申低压也不活跃.北半球500hPa环流场异常是造成春防期森林火险高火险日数多少重要原因,通过前期的环流背景对春防期高火险日数进行预测,进而做出春防期森林防火期趋势预测.     

淮北地区一次连续性暴雨的成因分析

利用各种常规资料,分析了2005年7月7-10日发生在淮北大面积连续暴雨、大暴雨天气过程的环流背景、发生机制及成因.本次大面积连续性暴雨的天气形势为两槽一脊型,旺盛的水汽在冷空气促发下形成了强烈的上升运动,中低层有很强的切变和暖湿平流,从而不断生成中尺度对流云团.此次移动性暴雨过程的前期由不断向东移动发展的MCS造成,后期降水则由低涡切变线产生的中尺度低涡引起.冷空气不断补充南下,副高西伸至淮河以南地区,冷暖空气在淮北地区交汇,且切变线稳定少动,是此次连续性强降水产生的主要因素.     

广西大雾天气的气候及环流形势特征

利用1971～2006年广西89站大雾资料,对广西大雾的气候特征和地域特征进行分析,结果表明:广西大雾分布极不均匀,四周多,中部少,局地特征明显,表现为四个多发区和一个少发区;广西各月都可形成大雾,秋冬春季多,夏季少.雾日主要集中在11月到翌年1月,6月份最少;广西雾日的年际变化波动性很大,波动无明显周期,规律性差,总体略呈下降趋势;区域性大雾天气过程最多出现在11～12月,大多只维持1～2d,少数可维持3～5d;全区性大雾天气过程最多出现在12～1月,大多维持1～3d,少数可维持4d以上.     

强台风"黑格比"分析

利用各种常规资料、卫星云图以及自动站观测资料,通过对"黑格比"强降雨过程大气环流特征、云图特征、台风路径以及物理量场进行分析,对"黑格比"和周围环境流场以及它们之间相互的影响有了比较清晰的认识与理解,诊断分析这次过程为今后的预报提供一些参考信息和经验.     

台风影响型雷暴大风环流及物理量特征

该文统计了广西2006～2008年台风影响型雷暴大风发生情况,分析雷暴大风500hPa高度场和地面气压场特征,对相关的物理量进行了诊断分析,结果表明:(1)台风中心进入南海北部海域,华中、华南及华南沿海地区具有明显的"两高一低"的环流特征;(2)台风影响型雷暴大风出现在7～9月份,多发生在午后,峰值出现在16时左右;(3)台风影响型雷暴大风产生前,广西大部地区大气层结存在不稳定能量聚集,低层有强的水汽辐合,相对湿度增大,在靠近能量锋区移动方向的区域整层大气为强的垂直上升运动,中低层有正涡度配合.     

Vertical Observations and Analysis of PM2.5, O3, and NOx at Beijing and Tianjin from Towers during Summer and Autumn 2006

During the period between 18 August and 22 September 2006, an ultraviolet photometric O3 analyzer, a NO-NO2-NOx chemiluminescence analyzer, and a quartz micro-oscillating-scale particle concentration analyzer were simultaneously used for monitoring at three different heights each at Beijing (325-m tower) and Tianjin (255-m tower). These towers belong to the Institute of Atmospheric Physics (IAP) of the Chinese Academy of Sciences (CAS) and to the Tianjin Municipal Meteorological Bureau, respectively. These measurements were used to continuously measure the atmospheric O3 and NOx volume-by-volume concentrations and the PM2.5 mass concentration within a vertical gradient. When combined with meteorological data and information on the variation of vertical characteristics of the various atmospheric pollutants in the two cities, analysis shows that these two cities were seriously polluted by both PM2.5 and O3 during summer and autumn. The highest daily-average concentrations of PM2.5 near the ground in Beijing and Tianjin reached 183 μg m-3 and 165 μg m-3, respectively, while the O3 concentrations reached 52 ppb and 77 ppb, and NOx concentrations reached 48 ppb and 62 ppb for these two cities, respectively. The variations in the daily-average concentrations of PM2.5 between Beijing and Tianjin were demonstrated to be consistent over time. The concentrations of PM2.5 measured in Beijing were found to be higher than those in Tianjin. However, the overall O3 concentrations near the ground in Tianjin were higher than in Beijing. NOx concentrations in Tianjin were consistently lower than in Beijing. It was also found that PM2.5 pollution in Beijings atmosphere may also be affected by the pollutants originating in and delivered from Tianjin, and that Ti     

2007年淮河强降水时期低频环流特征

利用NCEP/NCAR再分析资料以及中国气象台站降水资料,研究了2007年夏季淮河流域强降水的低频振荡及其环流特征。结果表明,2007年夏季淮河流域强降水低频振荡的主要周期是10 25天。淮河流域降水强弱与对应低频周期存在联系,降水主要发生在低频周期的正位相时期,而在负位相时期结束或明显减弱。降水的低频变化一方面与副热带高压和南亚高压的低频变化有关,另一方面还受到中高纬度冷空气低频变化的影响。在低频周期的峰值位相,对流层高层出现的低频反气旋使南亚高压偏东,脊线偏北,并有利于西太平洋副热带高压向更西、更北的方向发展,整个对流层垂直方向上有低频的上升运动。中高纬地区出现大片正位势涡度,冷空气的低频活动显著偏强,南下侵入到中国淮河流域的冷空气较多,形成有利于淮河流域强降水的环流场。相反,在低频周期的谷值位相,对流层高层出现的低频气旋使南亚高压偏西,脊线偏南,不利于西太平洋副热带高压向更西、更北的方向发展,整个对流层垂直方向上有低频的下沉运动。高纬度冷空气的低频活动偏弱,南下侵入到中国淮河流域的冷空气也较少,最终形成不利于淮河流域强降水的环流场。     

Relationship Between the Number of Summer Typhoons Engendered over the Northwest Pacific and South China Sea and Main Climatic Conditions in the Preceding Winter and Spring

Based on the monthly NCEP/NCAR reanalysis data, OLR (outgoing longwave radiation) data, and tropical cyclone data from the Typhoon Annual and Tropical Cyclone Annual edited by China Meteorological Administration, the relationship between the number of tropical cyclones (with the strongest wind ≥17 m s-1, including tropical storm, strong tropical storm, and typhoon, simply called typhoon in this paper)engendered over the Northwest Pacific and South China Sea in summer and the associated climate conditions is studied. First, the characteristics and di?erences of the climatic conditions between the years with more typhoons and those with fewer typhoons are compared. The results show that the summer typhoon has a close relationship with SST (sea surface temperature) and ITCZ (intertropical convergence zone) anomalies in the preceding winter and spring. With a La Niena like SST anomaly (SSTA) pattern in the preceding winter and spring, the ITCZ will move northwestward and be enhanced around 160°E in the equatorial central Pacific from the preceding winter to spring.The activity of the Pacific ITCZ is in general stronger and its location is more northward than usual, especially in the typhoon genesis region in West Pacific. This background is propitious to have more typhoons in summer. On the other hand, an El Nieno like SSTA pattern in the preceding winter will be companied with weaker ITCZ activities, and its location is more southward over the equatorial western Pacific from the preceding winter to spring; this background is propitious to have fewer typhoons in summer. In the year with more typhoons, the warm SST over West Pacific in the preceding winter provides a favorable condition for typhoon fromation in the following summer. It enhances the convergence in the troposphere and increases the water vapor supply to the warm SST region. In the following spring, the perturbation of the tropical ITCZ plays a more important role.When the ITCZ moves northward in spring, anomalous convergence will appear over the warm SST region and inspire the positive feedback between the large-scale moisture flux at low levels and the latent heat release in the atmosphere, which benefits the typhoon genesis in summer. Otherwise, if cold SST maintains over the northwestern Pacific during the preceding winter and spring, the convergence in the troposphere is disfavored and the water vapor supply to the cold SST region is reduced, which will bring about weaker ITCZ activities and the perturbation is lacking in the following spring. It then results in fewer summer typhoons.