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Issue 4, 2005
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Relationship between different size classes of particulate matter and meteorology in three European cities

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Abstract

Evidence on the correlation between particle mass and (ultrafine) particle number concentrations is limited. Winter- and springtime measurements of urban background air pollution were performed in Amsterdam (The Netherlands), Erfurt (Germany) and Helsinki (Finland), within the framework of the EU funded ULTRA study. Daily average concentrations of ambient particulate matter with a 50% cut off of 2.5 μm (PM2.5), total particle number concentrations and particle number concentrations in different size classes were collected at fixed monitoring sites. The aim of this paper is to assess differences in particle concentrations in several size classes across cities, the correlation between different particle fractions and to assess the differential impact of meteorological factors on their concentrations. The medians of ultrafine particle number concentrations were similar across the three cities (range 15.1 × 103–18.3 × 103 counts cm−3). Within the ultrafine particle fraction, the sub fraction (10–30 nm) made a higher contribution to particle number concentrations in Erfurt than in Helsinki and Amsterdam. Larger differences across the cities were found for PM2.5 (range 11–17 μg m−3). PM2.5 and ultrafine particle concentrations were weakly (Amsterdam, Helsinki) to moderately (Erfurt) correlated. The inconsistent correlation for PM2.5 and ultrafine particle concentrations between the three cities was partly explained by the larger impact of more local sources from the city on ultrafine particle concentrations than on PM2.5, suggesting that the upwind or downwind location of the measuring site in regard to potential particle sources has to be considered. Also, relationship with wind direction and meteorological data differed, suggesting that particle number and particle mass are two separate indicators of airborne particulate matter. Both decreased with increasing wind speed, but ultrafine particle number counts consistently decreased with increasing relative humidity, whereas PM2.5 increased with increasing barometric pressure. Within the ultrafine particle mode, nucleation mode (10–30 nm) and Aitken mode (30–100 nm) had distinctly different relationships with accumulation mode particles and weather conditions. Since the composition of these particle fractions also differs, it is of interest to test in future epidemiological studies whether they have different health effects.

Graphical abstract: Relationship between different size classes of particulate matter and meteorology in three European cities

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Article information


Submitted
29 Sep 2004
Accepted
04 Feb 2005
First published
23 Feb 2005

J. Environ. Monit., 2005,7, 302-310
Article type
Paper

Relationship between different size classes of particulate matter and meteorology in three European cities

J. J. de Hartog, G. Hoek, A. Mirme, T. Tuch, G. P. A. Kos, H. M. ten Brink, B. Brunekreef, J. Cyrys, J. Heinrich, M. Pitz, T. Lanki, M. Vallius, J. Pekkanen and W. G. Kreyling, J. Environ. Monit., 2005, 7, 302
DOI: 10.1039/B415153D

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