昆明城市气候水平空间分布特征

以昆明城市为研究对象，对城市西南-东北剖线的实测资料比较研究，从气温、水汽压、相对湿度、风速、风向等方面分析了昆明城市气候特征、变化规律及城市热岛效应。研究表明：在昆明存在热岛效应，以夜间最为明显，其最强度效应可达5.0℃，出现时刻（3时）与国内外多数研究结果（傍晚）有所不同；昆明城市昼间呈现明显的干岛效应。所得结论可为探讨昆明城市气候特片和形成机制，城市环境污染防治及建筑规划、设计等提供依据。     

天气学和天气预报的研究进展

全面回顾了75年来中国科学院大气物理研究所科研人员在气团、锋面、梅雨、寒潮、阻高、副高、暴雨、高低空急流、亚澳季风区内涡旋和对流等现象的天气学研究进展及其在不同时期所取得的研究成果,总结了在短中期天气预报及短期气候预测领域在模式发展和改进以及在数值模拟等方面所取得的成就和进展.同时指出模式发展和预测在中国数值天气预报及短期气候预测方面所做出的贡献.     

大气遥感与卫星气象学研究的进展与回顾

大气遥感作为大气科学中的重要基础与技术支柱,是20世纪60年代以来迅速发展的一门年轻学科.中国大气科学工作者在这方面也紧密结合国家需求与国际学术前沿,从20世纪60年代开始在理论研究,技术发展与实验研究,以及在气象、环境和国防应用等多方面开展了活跃的研究与发展工作.作者主要对中国科学界在大气遥感与卫星气象学发展方面作简要回顾,并着重介绍中国科学院大气物理研究所在大气遥感的基础与方法研究方面的一些进展,以及对大气遥感发展中的作用.主要内容包括:中国大气遥感的简要发展过程、卫星气象的早期发展、卫星红外遥感的基     

沙尘暴天气监测预警服务业务系统设计思路及其实现

文中全面介绍了中国西北地区沙尘暴天气监测预警服务业务系统的设计思路及其先进性。该系统由沙尘天气资料库、沙尘天气监测预警和沙尘天气服务3个子系统构成。它的成功建设为西部大开发气象服务提供了有力的技术保障，为西部地区环境保护和环境监测奠定了基础。     

2002年6月9日汉中区域性暴雨过程分析

通过分析2002年6月8～9日汉中大暴雨的环流背景、物理量场的特征及其演变，表明热力、水汽条件在降水开始前24小时有一定的反映，中低层大的正涡度和高空的负涡度集中在非常狭窄的同一地区，是产生强降水的原因之一。     

气象台业务平台和预报制作系统发展的研究--气象台天气分析预报技术走向研究之三

目前，业务平台、预报制作系统技术已成为气象台天气预报的关键技术，也是我国与发达国家技术发展的主要差距之一。本文从科学技术论的角度，研究气象台预报制作系统发展的历史及其发展的阶段性，归纳了技术发展的基本特征，提出了预报制作系统技术跨越式发展的应对措施。     

Quantitative Evaluation of Water Deposited By Dew on Monuments

Samples of White and Green Carrara marble, and three types oflimestone and brick exposed in the field vertically and horizontally were used to evaluate condensationon monuments during clear sky nights. Experiments in a simulation chamber under controlledconditions led to a general equation for the actual amount of water deposited on a surface by dew.This is determined by: How much and for how long the surface temperature falls below the dew point,the moisture content in the air and the ventilation. On clear nights, the condensation on buildingstructures facing the sky may reach some 0.2 kg m^-2 (or 0.2 mm), whereas condensation on verticalsurfaces is very small. Computation of the seasonal trend of night-time condensationshowed that the maximum amount of water condensed per night occurs in the autumn, with the moreabundant concentration of moisture in the air. The total amount of water condensed per month isfound to be a maximum in the summer-autumn period. Morning condensationfor the thermal inertia of monuments is also relevant, and has been calculated to reach the same order of magnitude as thenocturnal dew. A detailed analysis of the temperature and mixing ratio profiles near a condensingsurface has shown two different situations. In still air, the two profiles follow an exponentiallaw and the thermal and the concentration layers lie within a few tens of millimetres. Inthe presence of turbulence, the thickness of these two layers is dramatically reduced. In still air, infront of a vertical, chilly surface, the deposition rate of air pollutants by thermophoresis and/orStefan flow is increased by 3 or 4 times in comparison with a horizontal surface. In the presence ofturbulence, the thickness of the thermal and concentration layers was dramatically reduced, makingthese two kinds of deposition much faster.     

温度客观预报自动化业务系统

介绍了一以Ｔ６３数值预报产品为因子，用卡尔曼滤波方法作４８小时最高，最低温度客观预报方法及其自动化业务系统，能补充目前地市台温度预报主要依靠主观预报的不足，对温度有一定的预报能力。     

Correlation of seismic activity and fumarole temperature at the Mt. Merapi volcano (Indonesia) in 2000

In this paper we present densely sampled fumarole temperature data, recorded continuously at a high-temperature fumarole of Mt. Merapi volcano (Indonesia). These temperature time series are correlated with continuous records of rainfall and seismic waveform data collected at the Indonesian–German multi-parameter monitoring network. The correlation analysis of fumarole temperature and precipitation data shows a clear influence of tropical rain events on fumarole temperature. In addition, there is some evidence that rainfall may influence seismicity rates, indicating interaction of meteoric water with the volcanic system. Knowledge about such interactions is important, as lava dome instabilities caused by heavy-precipitation events may result in pyroclastic flows. Apart from the strong external influences on fumarole temperature and seismicity rate, which may conceal smaller signals caused by volcanic degassing processes, the analysis of fumarole temperature and seismic data indicates a statistically significant correlation between a certain type of seismic activity and an increase in fumarole temperature. This certain type of seismic activity consists of a seismic cluster of several high-frequency transients and an ultra-long-period signal (<0.002 Hz), which are best observed using a broadband seismometer deployed at a distance of 600 m from the active lava dome. The corresponding change in fumarole temperature starts a few minutes after the ultra-long-period signal and simultaneously with the high-frequency seismic cluster. The change in fumarole temperature, an increase of 5 °C on average, resembles a smoothed step. Fifty-four occurrences of simultaneous high-frequency seismic cluster, ultra-long period signal and increase of fumarole temperature have been identified in the data set from August 2000 to January 2001. The observed signals appear to correspond to degassing processes in the summit region of Mt. Merapi.     

基于常规扫描仪的植物叶面积计算系统

以计算机和扫描仪的组合技术为基础 ,用ViscalBasic 6 0语言 ,建立了Lea fArea1 0植物叶面积计算系统 ,经过对扫描图片的像素分析 ,实现了植物叶面积测定 ,其测定的误差小于 2‰ ,是一项易于业务化的应用系统。