青藏高原加热与亚洲环流季节变化和夏季风爆发   总被引：13，自引：1，他引：13       下载免费PDF全文

刘新  吴国雄  刘屹岷  刘平 《大气科学》2002,26(6):781-793

利用逐日NCEP/NCAR再分析资料分析了春夏过渡季节青减高原非绝热加热和大气环流季节变化以及亚洲季风爆发的关系.结果表明,过渡季节的早期(5月中旬以前)青藏高原总非绝热加热与感热加热的时间演变曲线趋势一致,感热加热在过渡季节早期的环流演变中有很重要的作用.青藏高原非绝热加热的时间演变与北半球环流的季节变化和亚洲夏季风爆发有很好的相关.在过渡季节里,青藏高原非绝热加热的变化引起了海-陆热力差异对比的变化,给亚洲夏季风的爆发建立了有利的背景环境,对亚洲夏季风爆发有明显的影响.结果还表明,用各区域纬向风垂直差异的时空分布能更准确地表示季节变化的区域差异.  相似文献   

REMOTE SENSING OF THE SEASONAL VARIATION IN COLUMN ABUNDANCE OF ATMOSPHERIC CH₄^*          下载免费PDF全文

WEI Heli  LIU Qinghong  XU Qingshan  ZHAO Fengsheng  SONG Zhengfang 《Acta Meteorologica Sinica》2001,15(2):249-256

Infrared solar spectra on clear days were measured automatically by an infrared solar spectrometer(ISS) with 0.4 cm^-1 resolution developed by us.A line-by line(LBL) computation method was used to calculate theoretical atmospheric absorption.In the wavelength range of 3.410-3.438 μm.the absorption is mainly due to atmospheric methane and water vapor.Columnatmospheric methane was retrieved from the recorded infrared solar spectra.The seasonal variation of column atmospheric methane in Hefei has been obtained from the measuremental data of nearly 18 months since the April of 1997.and found that it is similar to that of background data.The instruments.principles of measurement and some of results were introduced,and the results are also discussed briefly in the paper.  相似文献   

中国西北地区季节性积雪的性质与结构   总被引：17，自引：2，他引：17  

魏文寿  秦大河  刘明哲 《干旱区地理》2001,24(4):310-313

中国内陆地区积雪分布十分广泛。根据西北地区大陆性气候条件下形成的“干寒型”积雪的特征 ,对中国天山和阿尔泰山山区的季节性积雪进行了观测与分析。结果表明 ,该区最大积雪深度达 15 2cm(1997) ,积雪层一般由新雪 (或表层凝结霜 )、细粒雪、中粒雪、粗粒雪、松散深霜、聚合深霜层和薄融冻冰层组成。与“湿暖型”积雪相比 ,“干寒型”积雪的性质具有密度小 (新雪的最小密度为 0 .0 4 g/cm3 )、含水率少 (隆冬期 <1% )、温度梯度大(最大可达 - 0 .5 2℃ /cm)、深霜发育层厚等特点 ,并且变质作用以热量交换和雪层压力变质作用为主。据中国科学院天山积雪与雪崩研究站 (43°2 0N ,84°2 9E ,海拔 1776m)的观测资料 ,中国内陆干旱区冬季积雪期雪面太阳辐射通量以负平衡为主 ,新雪雪面反射率达 96 % ,短波辐射在干寒型积雪中的穿透厚度达 2 8cm。春季积雪消融期 ,深霜层厚度可占整个积雪层厚度的 80 %。随着气温的升高 ,雪粒间的键链首先融化 ,使积雪变得松散 ,内聚力、抗压、抗拉和抗剪强度降低 ,积雪含水率也随之增大 ,整个积雪层趋于接近 0℃的等温现象 ,因此 ,春季天山、阿尔泰山等山地全层性湿雪崩频繁发生  相似文献   

Seasonal Forecasting for Climate Hazards: Prospects and Responses     

Murphy  Sarah J.  Washington  Richard  Downing  Thomas E.  Martin  Randall V.  Ziervogel  Gina  Preston  Anthony  Todd  Martin  Butterfield  Ruth  Briden  Jim 《Natural Hazards》2001,23(2-3):171-196

One of the most promising developments for early warning of climate hazards is seasonal climate forecasting. Already forecasts are operational in many parts of the tropics and sub-tropics, particularly for droughts and floods associated with ENSO events. Prospects for further development of seasonal forecasting for a range of climatichazards are reviewed, illustrated with case studies in Africa, Australia, the U.S.A. and Europe. A critical evaluation of the utility of seasonal forecasts centres on vulnerability, communicationchannels, and effective responses. In contrast to short-term prediction, seasonal forecasts raise new issues of preparedness and the use of information.  相似文献   

青岛地区边界层结构的数值模拟   总被引：8，自引：1，他引：8  

王卫国  蒋维楣 《大气科学》1996,20(2):229-234

本文建立了一个非静力的三维细网格边界层模式，对青岛地区复杂下垫面条件下的边界层结构和湍流特征作了数值模拟，模式采用能量闭合方案，舍弃了静力近似，以提高空间分辨率和模式精度。模拟以实测资料为初始输入，对该地区风场和湍流场作了较细致的模拟分析，与观测资料相比，结果合理地一致。结果表明了陡峭地形和不规则海岸线对局地风场和湍流场影响很大。  相似文献   

Simulations of seasonal variations of sulfur compounds in the remote marine atmosphere   总被引：1，自引：0，他引：1  

Seizi Koga  Hiroshi Tanaka 《Journal of Atmospheric Chemistry》1996,23(2):163-192

A photochemical box model is used to simulate seasonal variations in concentrations of sulfur compounds at latitude 40° S. It is assumed that the hydroxyl radical (OH) addition reaction to sulfur in the dimethyl sulfide (DMS) molecule is the predominant pathway for methanesulfonic acid (MSA) production, and that the rate constant increases as the air temperature decreases. Concentration of the nitrate radical (NO₃) is a function of the DMS flux, because the reaction of DMS with NO₃ is the most important loss mechanism of NO₃. While the diurnally averaged concentration of OH in winter is a factor of about 8 smaller than in summer, due to the weak photolysis process, the diurnally averaged concentration of NO₃ in winter is a factor of about 4–5 larger than in summer, due to the decrease of DMS flux. Therefore, at middle and high latitudes in winter, atmospheric DMS is mainly oxidized by the reaction with NO₃. The calculated ratio of the MSA to SO₂ production rates is smaller in winter than in summer, and the MSA to non-sea-salt sulfate (nssSO₄ ^2-) molar ratio varies seasonally. This result agrees with data on the seasonal variation of the MSA/nssSO₄ ^2- molar ratio obtained at middle and high latitudes. The calculations indicate that during winter the reaction of DMS with NO₃ is likely to be a more important sink of NO_x (NO+NO₂) than the reaction of NO₂ with OH, and to serve as a significant pathway of the HNO₃ production. If dimethyl sulfoxide (DMSO) is produced through the OH addition reaction and is heterogeneously oxidized in aqueous solutions, half of the nssSO₄ ^2- produced in summer may be through the oxidation process of DMSO. It is necessary to further investigate the oxidation products by the reaction of DMS with OH, and the possibility of the reaction of DMS with NO₃ during winter.  相似文献   

Atmospheric concentrations of nonmethane hydrocarbons at a North European coastal site     

Øystein Hov  Norbert Schmidbauer 《Journal of Atmospheric Chemistry》1992,14(1-4):515-526

Two years of individual nonmethane hydrocarbon (NMHC) measurements at a rural site close to the south coast of Norway show that there was a distinct annual cycle with a late winter maximum and late summer minimum in the slowly reacting NMHCs acetylene, ethane, propane and i- and n-butane. The average January—March concentrations were a factor 2–4 higher than the July-September concentrations. Also ethene, propene and the pentanes show a similar annual cycle, but the individual scatter in the measurements in particular of propene, is large. The highest concentrations of NMHC were found in winter for easterly transport on a regional scale (out to 1500 km from the site), and for southeasterly transport in the summer.  相似文献   

论大气环流的季节划分和季节突变 Ⅰ:概念和方法   总被引：13，自引：4，他引：13  

曾庆存  张邦林 《大气科学》1992,(6)

本工作系列讨论大气环流的季节划分和季节突变问题.本文是第一篇,提出普适的概念、理论和方法,使大气环流和其他气候场的季节划分和季节突变定义建立在客观定量的基础之上.首先用两个场的相关系数R作为其相似性度量,也可以用归范化的两个场之差的根方值d作为差异性的度量.当存在着冬、夏季的典型场F_n和F_s时,取任何时刻t函数F与F~*≡(F_w+F_s)/2之差F~'作为变量场,则其与F~'_w≡F_w-F~*的相关系数R_w(t)及标准根方差d_w(t)可以作为F与其冬季典型的相似性或差异性度量.R_w与d_w~2之间有一定关系,一般只研究R_w即可.(1)可以定义冬季对应于1≥R_w(t)>0.5,夏季为-1≤R_w(t)<-0.5,过渡季节为-0.5相似文献   

乌鲁木齐河流域季节积雪的基本特征   总被引：5，自引：0，他引：5  

张志忠  杨大庆 《冰川冻土》1992,14(2):129-133

  相似文献   

ENSO事件对我国季节降水和温度的影响   总被引：82，自引：11，他引：82  

刘永强  丁一汇 《大气科学》1995,19(2):200-208

对近40年来ENSO当年和次年我国季节降水和温度异常进行了合成分析和信度检验。结果表明，ENSO当年我国以少雨、低温为主，次年则相反。降水和温度异常季节变化也基本呈相反趋势。长江中下游地区显著降水异常并不发生在夏季，而在ENSO当年春、秋季和次年春季；东北地区最显著的低温也不在夏季，而在ENSO当年秋季至次年春季。根据本文结果对目前ENSO影响研究中的有关问题提出了看法。  相似文献