Atmospheric Chemistry and Physics Discussions
www.atmos-chem-phys-discuss.net
1680-7367
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3
2003
10.5194/acpd-3-2739-2003
http://www.atmos-chem-phys-discuss.net/3/2739/2003/
http://www.atmos-chem-phys-discuss.net/3/2739/2003/acpd-3-2739-2003.html
http://www.atmos-chem-phys-discuss.net/3/2739/2003/acpd-3-2739-2003.pdf
2739
2782
2003-05-23
Fine and ultrafine particles in the Zürich (Switzerland) area measured with a mobile laboratory. An assessment of the seasonal and regional variation throughout a year
N. Bukowiecki
J. Dommen
A. S. H. Prévôt
E. Weingartner
U. Baltensperger
Laboratory of Atmospheric Chemistry, Paul Scherrer Institut, CH-5232 Villigen PSI, Switzerland
On occasion of the project YOGAM (year of gas phase and aerosol measurements), the
spatial and temporal variation of selected aerosol and gas phase parameters was assessed for
the Zürich (Switzerland) area with a new mobile pollutant measurement laboratory. This
assessment based on on-road measurements along a specified route on selected days during
different seasons in 2001/2002, covering urban, suburban and rural regions. Special focus was
put on the investigation and characterization of particles in the fine (<2.5 mm) and ultrafine
(<100 nm) size ranges. Analysis of Variance (ANOVA) showed that the variance of all
considered fine and ultrafine aerosol parameters (i.e. particle background and total number
concentration for particles larger than 3 nm, number concentrations in the size ranges
7–30 nm and 80–140 nm, as well as the active surface area concentration) was considerably larger for
day-to-day than for spatial variation. However, Principal Component Analysis (PCA) found a
similar regional pollution pattern within every single measuring day. Lowest particle
background levels were found in rural areas at higher elevation 15 000 cm<sup>−3</sup>), while
corresponding mean background values for urban and freeway-influenced areas were
typically 35 000 cm<sup>−3</sup> and >80 000 cm<sup>−3</sup>, respectively. Meteorology, i.e. prevailing weather
conditions not only governed the day-to-day concentration variations in the selected area, but
also influenced the formation of both primary (directly traffic-related) and secondary
(biogenic or indirectly traffic-related) ultrafine particles. Overall, low temperatures regularly
enhanced primary ultrafine particle formation in urban areas. There was however indication for
relatively low number concentrations of secondary ultrafine particles during only a few warm and
sunny spring days. Mobile measurements as described in this study have been shown to be
suitable for long-term pollutant assessments, to obtain good information on spatial variability
and reasonable information on the temporal variability. For aspects concerning spatial
resolution, an experimental design using a mobile measurement may even be more
appropriate than a network of stationary measuring sites.