河南大风灾害分布特征及成因分析

本文利用全省1961-2006年的大风天气资料和大风灾情资料,对大风灾情发生的地理分布特征,月、季、年的时间变化特征进行统计分析,并对其成因作了进一步研究,结果发现,自20世纪80年代开始,大风灾情日数年际变化大幅度增加,大风日数与大风灾情日数的地理分布基本一致,大风灾情日数季节变化明显.     

2003年10月风暴潮的形成及数值模拟分析

2003年10月11日发生在河北省中南部地区的特大暴雨是京津冀近50年来同期所罕见的,同时渤海湾还出现了风暴潮过程.对该过程应用非静力MM5的二重网格双向嵌套进行了全物理过程的数值模拟,并应用天津市多普勒雷达资料和常规气象资料进行了分析研究.结果表明：（1）MM5模式能够较好地模拟出风场、气压场、降水量场,在预报业务实践中有很好地参考价值;（2）海面偏东风的长时间维持,使海水堆积、海平面抬高,加上天文大潮的叠加而引发风暴潮;（3）风暴潮期间速度方位风廓线近地面的E-NE风随时间有增厚现象,在增厚的同时使降水减小,风暴潮发生.     

未来的天气气候预测体系

天气气候预测中的不确定性是不可避免的。它一方面给用户或有关决策者带来很大的困难,同时也给科学工作者提出了新的研究课题。文章较为系统地评述了近几年出现的关于如何发展未来气象预测体系的若干观点,根据风险经济学和决策理论,构建了一个未来天气气候预测体系的概念模型。其主要思想是将气象预测过程同用户决策过程有机地结合起来,充分利用来自用户的知识和风险管理经验,形成一个相互作用协同发展的预测体系。     

上行气象报文监控和自动转发系统

本文针对目前我省上行报文发送情况的现状，说明了建立上行气象报文监控和转发系统的关键技术，包括：使用三层模式、三层模式中各个层次的功能、接收和转发报文的过程、监控系统的运行状态，如何统一处理气象报文等。     

海高斯”登陆海南西藏遭遇强降雪——2008年10月——

10月,全国平均气温较常年同期偏高1.1℃,平均月降水量较常年同期偏多6.4mm;上旬,0817号台风海高斯先后登陆海南和广东,部分省出现暴雨灾害;上中旬,东北、江南、西南及内蒙古等地的部分地区气象干旱发展;下旬,全国遭遇大范围降温,其中西藏遭遇强降雪天气;此外我国东部和南部的部分地区出现大雾天气.     

Evaluate dry deposition velocity of the nitrogen oxides using Noah-MP physics ensemble simulations for the Dinghushan Forest,Southern China

There has been a rapid growth of reactive nitrogen (Nr) deposition over the world in the past decades. The Pearl River Delta region is one of the areas with high loading of nitrogen deposition. But there are still large uncertainties in the study of dry deposition because of its complex processes of physical chemistry and vegetation physiology. At present, the forest canopy parameterization scheme used in WRF-Chem model is a single-layer “big leaf” model, and the simulation of radiation transmission and energy balance in forest canopy is not detailed and accurate. Noah-MP land surface model (Noah-MP) is based on the Noah land surface model (Noah LSM) and has multiple parametric options to simulate the energy, momentum, and material interactions of the vegetation-soil-atmosphere system. Therefore, to investigate the improvement of the simulation results of WRF-Chem on the nitrogen deposition in forest area after coupled with Noah-MP model and to reduce the influence of meteorological simulation biases on the dry deposition velocity simulation, a dry deposition single-point model coupled by Noah- MP and the WRF-Chem dry deposition module (WDDM) was used to simulate the deposition velocity (V_d). The model was driven by the micro-meteorological observation of the Dinghushan Forest Ecosystem Location Station. And a series of numerical experiments were carried out to identify the key processes influencing the calculation of dry deposition velocity, and the effects of various surface physical and plant physiological processes on dry deposition were discussed. The model captured the observed V_d well, but still underestimated the V_d. The self-defect of Wesely scheme applied by WDDM, and the inaccuracy of built-in parameters in WDDM and input data for Noah-MP (e.g. LAI) were the key factors that cause the underestimation of V_d. Therefore, future work is needed to improve model mechanisms and parameterization.     

我国台风路径突变研究进展

台风路径突变包括其移动方向和移动速度的显著变化,是当今台风路径预报的难题。突变路径预报的巨大误差常导致台风防御失败,这与其机理认识不足等原因有关。本文回顾了我国关于台风突变路径的研究成果和最新进展。从台风与多尺度环流系统相互作用、台风内部动力机制以及下垫面状况等方面,总结了关于台风路径突变的主要环境影响因子、物理过程和动热力结构特征等方面的认识,对台风路径突变的发生概率、预报技术和存在问题进行阐述,并提出关于路径突变研究需要关注的一些问题。     

陆面过程模式的改进及其检验

文中对陆面过程模式 (BATS)进行了改进 ,改进后的模式能较好地模拟地表物理量的年、季和日变化 ,它有两方面的特点 :采用热扩散方程模拟 7层土壤温度 ,模拟的温度可与实测值进行比较 ;在BATS的地表径流方案中 ,考虑了空间不均匀性的一般地表径流 (GVIC)过程 ,研究结果表明 :⑴模式能很好地模拟各层土壤温度的年、季和日变化。冬季土壤温度下层高于上层 ,而在夏季上层高于下层 ,这种上下层温度的转换时间大约在 4和 10月份 ,这与实测土壤温度的年变化非常一致。较为准确地模拟了各层土壤温度日变化的时滞效应。⑵用南京和武汉站的资料 ,将BATS地表径流方案模拟的地表水分分量与GVIC方案进行比较 ,BATS地表径流方案模拟的地表水分分量 ,与总水量的平衡相差较大 ,而GVIC模拟的效果相对较好 ,地表总水量基本上与降水总量达到了平衡     

The influence of the inter-decadal Pacific oscillation on US precipitation during 1923–2010

Precipitation over the contiguous United States exhibits large multi-decadal oscillations since the early twentieth century, and they often lead to dry (e.g., 1946–1976 and 1999-present) and wet (e.g., 1977–1998) periods and apparent precipitation trends (e.g., from the 1950s to 1990s) over most of the western and central US. The exact cause of these inter-decadal variations is not fully understood. Using observational and reanalysis data and model simulations, this paper examines the influence of the Inter-decadal Pacific Oscillation (IPO) on US precipitation. The IPO is a leading mode of sea surface temperatures (SSTs) seen mostly in the Pacific Ocean. It is found that decadal precipitation variations over much of the West and Central US, especially the Southwest, closely follow the evolution of the IPO (r = 0.85 during 1923–2010 for the Southwest US), and the dry and wet periods are associated, respectively, with the cold and warm phases of the IPO. In particular, the apparent upward trend from the 1950s–1990s and the dry decade thereafter in precipitation over much of the West and Central US are largely caused by the IPO cycles, which switched to a warm phase around 1977 and back to a cold phase around 1999. An atmospheric model forced with observed SSTs reproduces much of this association of US precipitation with the IPO (r = 0.95 between smoothed observed and simulated Southwest US precipitation during 1950–2009 and r = 0.88 between the simulated Southwest US precipitation and the IPO). Atmospheric reanalysis and model data both show a strong high (low) pressure center and anti-cyclonic (cyclonic) anomaly circulation over the North Pacific in the lower troposphere during cold (warm) phases of the IPO, which lead to dry and cold northwesterly and northerly winds and below-normal precipitation over much of the West US during IPO cold periods. The IPO induced changes are most pronounced during the boreal cold season. The results reinforce the notion that tropical Pacific SSTs (and the accompanying SST anomalies in the North Pacific) have large impacts on US precipitation and highlight the need to understand and simulate the IPO for decadal prediction of US precipitation.