顾及垂直递减率函数的中国区域大气加权平均温度模型

大气加权平均温度(Tm)是全球导航卫星系统(GNSS)水汽监测的关键参数。针对中国区域地形起伏较大的特点,本文构建了顾及精细季节变化的Tm垂直递减率函数模型,在此基础上,利用2007—2014年的Global Geodetic Observing System(GGOS)atmosphere格网数据建立了中国区域的Tm格网新模型(简称为CTm模型)。以2015年GGOS格网数据和无线电探空资料为参考值,对CTm模型进行精度检验,并与常用的Bevis公式和GPT2w模型进行比较分析。结果表明:①以GGOS格网数据为参考值,CTm模型的年均偏差和均方根误差(RMS)分别为-0.52 K和3.28 K,相比于GPT2w-5和GPT2w-1模型,精度(RMS值)分别提高了27%和13%;②以探空数据为参考值,CTm模型的年均偏差和RMS误差分别为0.26 K和3.75 K,相对于GPT2w-5和GPT2w-1模型,精度分别提高了21%和16%,尤其在中国西部地区,CTm模型表现出更为显著的优势。此外,将CTm模型用于GNSS水汽计算,其引起的水汽计算RMS误差和相对误差分别为0.29 mm和1.36%。CTm模型不需要实测气象参数,因此,在中国区域的GNSS实时高精度水汽探测中具有重要的应用。     

Vertical Structure in the Marine Atmospheric Boundary Layer and its Implication for the Inertial Dissipation Method

The structure of the marine atmospheric boundarylayer and the validity ofMonin–Obukhov similarity theory over the seahave been investigated using longterm measurements. Three levels of turbulencemeasurements (at 10 m, 18 mand 26 m) at Östergarnsholm in themiddle of the Baltic Sea have beenanalysed. The results show that turbulentparameters have a strong dependenceon the actual height due to wave influence.The wind profile and thus thenormalised wind gradient are very sensitiveto wave state. The lower part of theboundary layer can be divided into three heightlayers, a wave influenced layerclose to the surface, a transition layer andan undisturbed ordinary surfacelayer; the depth of the layers is determinedby the wave state. This heightstructure can, however, not be found for thenormalised dissipation, which is onlya function of the stability, except duringpronounced swell where the actualheight also has to be accounted for. Theresults have implications for the heightvariation of the turbulent kinetic energy(TKE) budget. Thus, the imbalancebetween production and dissipation willalso vary with height according to thevariation of wave state. This, in turn,will of course have strong implicationsfor the inertial dissipation method, inwhich a parameterisation of the TKEbudget is used.     

全球水循环研究进展

以国际组织围绕全球变化问题执行的一系列与水循环相关的研究计划为背景,总结了近40年来陆地-大气间水循环研究的重要成果,并探讨了在全球气候变化的背景下,水循环需要进一步研究的突出问题。     

用神舟三号中分辨率成像光谱仪数据反演大气水汽

2002年3月中国神舟三号飞船发射成功，所携带的中分辨率成像光谱仪获取了一批940nm波段的遥感数据。本文用其中的部分资料做了反演水汽的试验，给出一些结果和分析。     

利用太阳光度计测值估算北京上空水汽含量

基于CE318自动跟踪太阳光度计水汽通道（936nm）和一个窗区通道（870nm）的北京上空太阳直射辐射观测数据，利用修改的兰勒方法对大气柱水汽含量的估算方法，开展了太阳光度计的标定和北京上空水汽含量的计算等。利用探空观测结果对太阳光度计测量水汽量的标定显示，二者的线性相关性为0．986，定标不确定度为0．024g／cm^2。利用该方法对从2002至2004年观测的北京地区水汽含量进行了估算，结果表明在1，2，3，11，12月份，北京地区大气柱的水汽含量基本上小于0．5g／cm^2，三年中同月份水汽含量的平均值有较好的一致性。     

单站GPS遥感水汽含量范围的确定及结果分析

随着GPS技术的日益成熟和研究的不断深入,GPS的定位精度得到了大幅度的提高,为其在测绘、交通、林业资源、石油勘探、精细农业等行业的应用提供了更广阔的空间。GPS气象学(GPS/Meteorology简称GPS/MET)的诞生改善了原有大气监测技术的局限性,极大的提高了气象监测的时空分辨率,但是在将这项技术由试验阶段向推广普及应用的过程中,单站地基GPS监测的有效范围以及水汽解的精度一直为广大气象学家们所忽略,本文在对以往GPS气象数据收集和整理的基础上,根据理论计算和实际验算,得出了一些有益的结论。     

广西大范围暴雨期间孟加拉湾强对流演变及东移特征

分析1980~2002年主汛期(5~7月)广西锋面型大范围暴雨期间孟加拉湾对流云团演变及与之相应高低空环流变化,结果表明:孟加拉湾强对流在广西暴雨发生前3天发展最为旺盛,受孟加拉湾低槽引导,对流云团爬上中南半岛进入广西,当其与高原东移的云团相结合时再次发展,造成广西大范围暴雨。分析200 hPa高度场和流场结果表明:当广西暴雨发生时,孟加拉湾、中南半岛及广西受200 hPa南亚高压控制。分析850 hPa水汽通量矢量场结果表明:广西锋面型暴雨发生时,从孟加拉湾到广西上空有一西南气流的水汽输送带,广西暴雨水汽主要来源于孟加拉湾。     

北京地区单双频地基GPS大气水汽遥测试验与研究

该文对北京地区单双频地基GPS大气水汽监测网布网依据、单频与双频地基GPS测量数据解算技术应用、GAMIT和Bernese地基GPS数据分析处理软件应用、远程遥控GPS数据采集与通讯系统、资料分析与数值同化应用等方面的工作进展进行简要介绍,重点讨论了单双频地基GPS大气水汽资料的解算技术及其应用效果。结果表明:在北京天气敏感区通过单双频地基GPS接收机合理组网布局,可构建并利用高分辨率电离层延迟订正技术将单频接收机的大气水汽监测精度提高到实用水平,为强降水天气预报提供有价值的产品。     

FEATURES OF WATER VAPOR TRANSPORT OF TYPHOON DAN (9914)

The 2.5^。×2.52^。 gridded ECMWF reanalysis data are used to diagnose the genesis, development and dissipation of typhoon Dan by calculated stream function, velocity potential and vapor budget. It is shown in the result that when typhoon Dan moved westwards, water vapor mainly came from the eastern and western boundaries, with most of it was transferred by the easterly flow south of the western North Pacific subtropical high; after Dan swerved northwards, water vapor mainly came from western boundary of the typhoon, and the vapor came from the South China Sea and the Indian Ocean. The transfer of water vapor was mainly concentrated on the mid-lower troposphere, especially the level of 925hPa, at which the most intensive transfer belt was located. During the different period of typhoon Dan, there was great water vapor change as indicated by stream function, velocity potential and vapor budget, which suggest the importance of water vapor in the development of typhoon Dan.     

The thermodynamic structure atop a penetrating convective thunderstorm

The thermodynamic structure on top of a numerically simulated severe storm is examined to explain the satellite observed plume formation above thunderstorm anvils. The same mechanism also explains the formation of jumping cirrus observed by Fujita on board of a research aircraft. A three-dimensional, non-hydrostatic cloud model is used to perform numerical simulation of a supercell that occurred in Montana in 1981. Analysis of the model results shows that both the plume and the jumping cirrus phenomena are produced by the high instability and breaking of the gravity waves excited by the strong convection inside the storm. These mechanisms dramatically enhance the turbulent diffusion process and cause some moisture to detach from the storm cloud and jump into the stratosphere. The thermodynamic structure in terms of the potential temperature isotherms above the simulated thunderstorm is examined to reveal the instability and wave breaking structure. The plumes and jumping cirrus phenomena represent an irreversible transport mechanism of materials from the troposphere to the stratosphere that may have global climatic implications.