气溶胶与云相互作用的研究进展

doi:10.11867/j.issn.1001-8166.2008.03.0252

气溶胶和云在气候系统中扮演着重要角色，近年来随着人们对它们重要作用的深入认识，气溶胶与云的相互作用也逐渐成为气候研究的一个重要方向。对该领域的研究方法和近20年来国内外的相关研究做了全面回顾。飞机观测、卫星观测、以及观测和模式模拟相结合3种研究方法被主要应用于该项研究。大量观测和模拟都证明了气溶胶对辐射、云滴以及降水的影响；云凝结核作为气溶胶和云相互作用过程中的重要环节，近些年在观测技术上有了较大进展，对相关理论的研究也随着观测水平的进步有了较大发展。我国在该领域的研究也从单一的观测资料分析逐渐转向模式模拟、多种方法综合分析。最后结合国内外研究进展，对该领域未来的发展进行了展望。

关键词: 气溶胶, 云, 相互作用, 气溶胶间接效应, 云凝结核

Aerosol and cloud play important roles in determining the earth's climate. Along with the further knowledge about these important roles, the researches on the interaction between aerosol and cloud became more and more important. A comprehensive review about the research methods and the development in recent twenty years on this field is discussed in this paper. The observation by airplane, satellite and the composite method of observation and model were the main research method in this research. Some data of observation and the model results have given evidences of the influence between aerosol and the other cloud physical characteristics including radiation, cloud drop and precipitation. Aerosol can transform to the cloud condensation nucleus (CCN) in some special situations. Through this process, aerosol influences the cloud characteristics. Therefore, the CCN is an important link in all interaction theory between aerosol and cloud. There were great progresses in the observation technology of CCN. The nonlinear relationship between saturated water vapor pressure and temperature was used to make the instrument to observe the CCN. The related theories about CCN and cloud also have made some progresses. In China, the research methods were changed from the analyzing single observation data to the way of using model and the methods combining observation and model. Finally, several pieces of proposal are brought forward in this research area.

Key words: Aerosol, Cloud, Interaction, Aerosol indirect effects, CCN.

中图分类号:

P426.5

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Progress in Researches on Interaction between Aerosol and Cloud