B. Martinsson, G. Frank, S. Cederfelt, Olle H. Berg, B. Mentes, G. Papaspiropoulos, E. Swietlicki, Jingchuan Zhou, M. Flynn, K. Bower, T. Choularton, J. Mäkelä, A. Virkkula, R. Dingenen
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引用次数: 24
摘要
在第二次气溶胶表征实验(ACE-2)中,研究了与气溶胶有关的地形云的微观结构。观测到非常高的云滴数浓度(接近3000 cm(-3))。当来自欧洲的污染气团在特内里费岛的一个山坡上形成云层时,这种高浓度就出现了,这些污染气团在大西洋上空输送了大约1000公里。通过与云上游气溶胶和云间隙气溶胶测量值的比较,研究了所测液滴数浓度的有效性。根据测量值之间的比值分布,采用最大偏差为30%的三个标准对测量值进行有效性检验。88%的案例是一致的。验证的数据集跨越了150 - 3000 cm(-3)的液滴数浓度。经模式计算,云形成过程中的上升气流速度为2.2 m s(-1),为典型的积雨云。本研究的结果与文献中先前报道的云滴数浓度有关。在评估气溶胶的间接气候效应方面,强调了促进对气溶胶/云相互作用的机理理解和使用云微物理参数验证程序的重要性。
Validation of very high cloud droplet number concentrations in air masses transported thousands of kilometres over the ocean
The microstructure of orographic clouds related to the aerosol present was studied during the second Aerosol Characterisation Experiment (ACE-2). Very high cloud droplet number concentrations (almost 3000 cm(-3)) were observed. These high concentrations occurred when clouds formed on a hill slope at Tenerife in polluted air masses originating in Europe that had transported the order of 1000 km over the Atlantic Ocean. The validity of the measured droplet number concentrations was investigated by comparing with measurements of the aerosol upstream of the cloud and cloud interstitial aerosol. Guided by distributions of the ratios between the measurements, three criteria of typically 30% in maximum deviation were applied to the measurements to test their validity. Agreement was found for 88% of the cases. The validated data set spans droplet number concentrations of 150 3000 cm(-3). The updraught velocity during the cloud formation was estimated to 2.2 m s(-1) by model calculations, which is typical of cumuliform clouds. The results of the present study are discussed in relation to cloud droplet number concentrations previously reported in the literature. The importance of promoting the mechanistic understanding of the aerosol/cloud interaction and the use of validation procedures of cloud microphysical parameters is stressed in relation to the assessment of the indirect climatic effect of aerosols.
期刊介绍:
Tellus B: Chemical and Physical Meteorology along with its sister journal Tellus A: Dynamic Meteorology and Oceanography, are the international, peer-reviewed journals of the International Meteorological Institute in Stockholm, an independent non-for-profit body integrated into the Department of Meteorology at the Faculty of Sciences of Stockholm University, Sweden. Aiming to promote the exchange of knowledge about meteorology from across a range of scientific sub-disciplines, the two journals serve an international community of researchers, policy makers, managers, media and the general public.