黄河流域冬、夏季水汽输送及收支特征   总被引：1，自引：0，他引：1  

李进  李栋梁  张杰 《高原气象》2012,31(2):342-350

利用NCEP/NCAR再分析资料和我国实测雨量资料,对黄河流域1月和7月多年平均及旱、涝年整层积分的水汽通量、辐合(辐散)及各分区水汽收支进行了研究。结果表明,1月黄河流域无明显的水汽输送,而7月水汽沿西南、东南及西北3条路径输送,前两支气流在多年平均时主要影响黄河下游区。涝年时影响到黄河中、下游区,而上游区水汽流入较小;旱年,黄河中、上游区均无明显的水汽输送,只有下游的小范围地区受西南气流影响。各区净水汽通量分别与其地面降水的时空演变相对应,而经向净水汽通量是影响水汽收支变化及供给流域降水的主要水汽来源;涝年的水汽净收支与各边界水汽流入明显大于旱年。1月,西边界和北边界微弱的水汽输入远小于东边界和南边界的输出,各区均为水汽净辐散,不利于降水;7月,大量的水汽主要来自西边界和南边界,涝年各区均为水汽盈余,多年平均也以净辐合为主,而旱年则以水汽亏损为主。  相似文献   

水汽和潜热释放对背风波影响的数值试验     

臧增亮  潘晓滨  汪潮  王劲 《气象科学》2012,32(1):38-44

利用中尺度数值模式ARPS进行了理想场的数值模拟,分析研究了水汽和潜热释放对大气层结稳定度的影响以及其在背风波的发展和演变过程中的作用,研究发现,潜热释放对大气层结分布的影响要远大于水汽对大气层结分布的直接影响,如果没有潜热的释放,水汽对背风波的发展和演变的作用非常小,而潜热释放可以使湿层结稳定度急剧下降,迅速破坏原有的层结分布,使这个区域出现非拦截的强烈的垂直运动,波动的崩溃更加迅速和明显。但需要说明的是在试验中,将数值模式里控制潜热释放的参数设为:0、1/2、2的假定情况,则在实际的大气运动过程中是不可能存在的。  相似文献   

基于地闪数据的雷电流幅值累积频率公式探讨   总被引：2，自引：0，他引：2  

冯志伟  肖稳安  马金福  虞进 《气象科技》2012,40(1):137-140

利用2007年和2008年浙江省气象部门闪电定位系统的地闪监测数据,应用Matlab数学软件中的曲线拟合工具箱,以最小二乘法原理对IEEE推荐公式和我国规程推荐公式进行最优化拟合,得出前者拟合效果优于后者的结论。通过分析IEEE推荐公式计算结果与实际值之间的相对误差,发现正闪雷电流幅值累积频率在(1kA,270kA)范围内相对误差绝对值较小,最大不超过10%;而负闪雷电流幅值累积频率在(-1kA,-300kA)范围内相对误差绝对值较大,最大值约为38%。针对上述情况,利用数学软件拟合出负闪(-1kA,-300kA)相对误差曲线的近似函数,修正了原累积频率公式,大幅度减小了其相对误差。其适用范围也从原来的(2kA,200kA)放宽至正闪(1kA,270kA)、负闪(-1kA,-300kA)。  相似文献   

大气本底站反应性气体观测数据处理系统功能设计及实现     

靳军莉  张晓春  林伟立  徐晓斌  王亚强  王瑛 《气象科技》2012,40(5):738-744

基于反应性气体多年观测的较为成熟的数据处理和质量控制方法,采用模块化功能结构设计,通过应用Visual Studio开发平台并结合MAP WinGIS等空间和时间显示控件,对反应性气体观测数据处理系统进行了设计和开发.系统实现了观测数据在空间和时间上的可视化显示,实际业务应用表明,具有良好的人机交互和数据处理能力,具备一定的数据统计分析功能.实现了对大气本底站反应性气体观测数据的统一管理和综合处理,已成为大气成分观测数据质量控制业务系统的一个重要组成部分.  相似文献   

加密自动站资料在强对流天气分析预报中的应用     

李瑞萍  程艳芳  赵彩萍  常钢  晋立军 《气象科技》2012,40(4):596-600

利用常规分析资料、雷达产品和太原地面加密自动站资料,对2008年6月28日出现在太原地区的一次强对流天气过程进行了分析,结果发现:①高空冷涡和中低空暖湿气团配置为此次强对流天气提供了有利的环流背景条件。②雷达回波的形状、结构、VIL均显示出强对流特征,速度辐合区与地面中尺度辐合线相对应,垂直方向存在强烈的风切变。③逐小时变温场显示出冷空气入侵路径、强度,负变温中心未来成为强对流天气区。④地面中尺度辐合线是强对流发生的触发机制,逐小时变压场的负中心与随后出现的灾害性天气区有效对应。⑤对流发生前,单站气象要素出现显著的不连续变化,气压和湿度呈同位相变化,与气温变化则反位相,3者在对流发生前1h同步出现谷(峰)值,灾害天气出现在之后的要素陡升(降)时段内。  相似文献   

2009年天津地区首场降雪过程分析   总被引：1，自引：0，他引：1  

宋薇  靳瑞军  孟辉  王兆宇 《气象科技》2012,40(6):996-1001

基于NCEP再分析资料、多普勒天气雷达产品与风云卫星云参数反演产品,对天津地区2009年的首场降雪过程进行了分析,研究表明:①造成此次降雪的主要天气系统是东移高空槽和地面倒槽;②降雪回波具备典型层云稳定性降水回波的特点,最强回波不超过35 dBz,伴随着降雪结束,回波顶高有所下降;③降雪过程云粒子有效半径数值维持在20μm,云体过冷层厚度、云顶高度较大,云顶温度在-30℃左右.随着降雪结束,云粒子有效半径、云体过冷层厚度和云顶高度数值逐渐减小,云顶温度则有所升高;④地面降水量和云粒子有效半径、云顶高度、云体过冷层厚度呈现正相关,与云顶温度呈现负相关.  相似文献   

三维GIS建筑物和道路实体模型与地形模型匹配方法     

王爱爱  张锦 《测绘通报》2012,(6):84-86,89

以建筑物和道路实体模型为例,对其与地形模型的匹配方法进行研究与试验。结果表明,顾及建筑物与道路实体模型特征的地形模型匹配结果更符合实际建模要求,为构建逼真的三维数字环境提供了基础。  相似文献   

基于分形维度法的都市区城市蔓延分析——以广佛为例     

何劲  胡伟平  刘锐  宋茵 《测绘软科学研究》2012,(4):75-82

根据1957与1982年两个时期的地形冈并结合1995与2008年的遥感卫星影像提取城镇建设用地专题信息。利用ArcGIS建立广佛都市区城镇建设用地数据库．采用分形维度的计锋方法,对广佛都市区城市蔓延的情况进行测度和分析。结果表明广佛都市区三个发展阶段城镇建设用地面积增长速度并不均匀,具有加速发展的特点。四个测度年份的分形维数分别为1．6454,1．6285,1．5586和1．5270,均在1-2之间．分形维数呈递降趋势,总体下降了0．1184,城市发展模式由紧凑型逐渐向松散型演变,存在城市蔓延情况,而且城市发展模式以年均0．14％的速度从紧凑型向松散型演变。广佛都市区城市蔓延的地域分异较为明硅,具有较强的空间集聚性和中心向心件,广州和佛山毗邻地区以及中心城区是城市蔓延的活跃区和集中区,1982—1995年问研究区内蔓延速度比1995．2008年间要快。通过深入分析发现,经济快速发展、城市人口的持续增长、交通道路网络的建设是广佛都市区快速扩张和城市蔓延的基本动力因素之一,开发区土地扩张,进一步加剧了无序扩张和城市蔓延。  相似文献   

Effects of the low-frequency zonal wind variation on the high frequency atmospheric variability over the tropics     

K. P. Sooraj  Daehyun Kim  Jong-Seong Kug  Sang-Wook Yeh  Fei-Fei Jin  In-Sik Kang 《Climate Dynamics》2009,33(4):495-507

Recently, there is increasing evidence on the interaction of atmospheric high-frequency (HF) variability with climatic low-frequency (LF) variability. In this study, we examine this relationship of HF variability with large scale circulation using idealized experiments with an aqua-planet Atmospheric GCM (with zonally uniform SST), run in different zonal momentum forcing scenarios. The effect of large scale circulation changes to the HF variability is demonstrated here. The HF atmospheric variability is enhanced over the westerly forced region, through easterly vertical shear. Our study also manifests that apart from the vertical wind shear, strong low-level convergence and horizontal zonal wind shear are also important for enhancing the HF variance. This is clearly seen in the eastern part of the forcing, where the HF activity shows relatively maximum increase, in spite of similar vertical shear over the forced regions. The possible implications for multi-scale interaction (e.g. MJO–ENSO interaction) are also discussed.  相似文献   

Advance and prospectus of seasonal prediction: assessment of the APCC/CliPAS 14-model ensemble retrospective seasonal prediction (1980–2004)     

Bin Wang  June-Yi Lee  In-Sik Kang  J. Shukla  C.-K. Park  A. Kumar  J. Schemm  S. Cocke  J.-S. Kug  J.-J. Luo  T. Zhou  B. Wang  X. Fu  W.-T. Yun  O. Alves  E. K. Jin  J. Kinter  B. Kirtman  T. Krishnamurti  N. C. Lau  W. Lau  P. Liu  P. Pegion  T. Rosati  S. Schubert  W. Stern  M. Suarez  T. Yamagata 《Climate Dynamics》2009,33(1):93-117

We assessed current status of multi-model ensemble (MME) deterministic and probabilistic seasonal prediction based on 25-year (1980–2004) retrospective forecasts performed by 14 climate model systems (7 one-tier and 7 two-tier systems) that participate in the Climate Prediction and its Application to Society (CliPAS) project sponsored by the Asian-Pacific Economic Cooperation Climate Center (APCC). We also evaluated seven DEMETER models’ MME for the period of 1981–2001 for comparison. Based on the assessment, future direction for improvement of seasonal prediction is discussed. We found that two measures of probabilistic forecast skill, the Brier Skill Score (BSS) and Area under the Relative Operating Characteristic curve (AROC), display similar spatial patterns as those represented by temporal correlation coefficient (TCC) score of deterministic MME forecast. A TCC score of 0.6 corresponds approximately to a BSS of 0.1 and an AROC of 0.7 and beyond these critical threshold values, they are almost linearly correlated. The MME method is demonstrated to be a valuable approach for reducing errors and quantifying forecast uncertainty due to model formulation. The MME prediction skill is substantially better than the averaged skill of all individual models. For instance, the TCC score of CliPAS one-tier MME forecast of Niño 3.4 index at a 6-month lead initiated from 1 May is 0.77, which is significantly higher than the corresponding averaged skill of seven individual coupled models (0.63). The MME made by using 14 coupled models from both DEMETER and CliPAS shows an even higher TCC score of 0.87. Effectiveness of MME depends on the averaged skill of individual models and their mutual independency. For probabilistic forecast the CliPAS MME gains considerable skill from increased forecast reliability as the number of model being used increases; the forecast resolution also increases for 2 m temperature but slightly decreases for precipitation. Equatorial Sea Surface Temperature (SST) anomalies are primary sources of atmospheric climate variability worldwide. The MME 1-month lead hindcast can predict, with high fidelity, the spatial–temporal structures of the first two leading empirical orthogonal modes of the equatorial SST anomalies for both boreal summer (JJA) and winter (DJF), which account for about 80–90% of the total variance. The major bias is a westward shift of SST anomaly between the dateline and 120°E, which may potentially degrade global teleconnection associated with it. The TCC score for SST predictions over the equatorial eastern Indian Ocean reaches about 0.68 with a 6-month lead forecast. However, the TCC score for Indian Ocean Dipole (IOD) index drops below 0.40 at a 3-month lead for both the May and November initial conditions due to the prediction barriers across July, and January, respectively. The MME prediction skills are well correlated with the amplitude of Niño 3.4 SST variation. The forecasts for 2 m air temperature are better in El Niño years than in La Niña years. The precipitation and circulation are predicted better in ENSO-decaying JJA than in ENSO-developing JJA. There is virtually no skill in ENSO-neutral years. Continuing improvement of the one-tier climate model’s slow coupled dynamics in reproducing realistic amplitude, spatial patterns, and temporal evolution of ENSO cycle is a key for long-lead seasonal forecast. Forecast of monsoon precipitation remains a major challenge. The seasonal rainfall predictions over land and during local summer have little skill, especially over tropical Africa. The differences in forecast skills over land areas between the CliPAS and DEMETER MMEs indicate potentials for further improvement of prediction over land. There is an urgent need to assess impacts of land surface initialization on the skill of seasonal and monthly forecast using a multi-model framework.  相似文献