![Sample our Bioscience journals, sign in here to start your access, Latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/5925/TOC-Subject-Sample-2021-Bioscience.jpg"})
Abstract
Long-term aerosol measurements have been conducted at two sites in Rome, Italy, April 2001 through March 2003, in a traffic-oriented site, and at an urban background site, close to the city center. The main objective was to establish validated and consistent data sets of particle number concentrations (PNC) in Rome to be used for epidemiological analyses of cardiovascular health effects. Particle number concentrations were measured by a condensation particle counter (CPC 3022A, TSI). Other pollutants (PM10, PM2.5, CO, NO2, NO, NOx, O3) were simultaneously measured at the traffic-oriented site. During the study period, the mean (standard deviation) 24-h PNC values were 4.69 × 104 (1.99 × 104) cm−3 and 2.46 × 104 (1.10 × 104) cm−3, respectively, at the traffic-oriented site and at the urban background site. Mean (standard deviation) 24-h mass concentration of PM2.5 was 23.1 (11.9) μg m−3, while for PM10 it was 41.3 (17.9) μg m−3. Higher values for all the pollutants, except ozone, were recorded during the winter period in comparison with the summer period, and a higher variability of the results was also observed during cold months. The comparison between the daily PNC measured at the two sites showed a good correlation (r = .74). CO (r = .77), NO (r = .82), and NOX (r = .83) were all highly correlated with PNC (simultaneous obs. number 576). The diurnal and seasonal pattern of PNC can be attributed to the combined effect of motor vehicle emissions and meteorological conditions.
We gratefully acknowledge Pasi Aalto, Department of Physical Sciences of the University of Helsinki, Finland, for valuable support and assistance in the implementation of standard operating procedures, for performing instruments calibration, for supervision, and for solving the technical problems encountered during the use of the condensation particle counters.
Notes
CAFE Working Group on Particulate Matter 2004. Second position paper on particulate matter, Final draft. 6 April 2004 Brussels.
Comité Européen de Normalisation. 1998. Air quality—Determination of the PM10 fraction of suspended particulate matter—Reference method and field test procedure to demonstrate reference equivalence of measurement methods. European Standard 12341.
Comité Européen de Normalisation. 2005. Ambient air quality—Reference gravimetric measurement method for the determination of the PM2.5 mass fraction of suspended particulate matter. EN 14907, September 2005, Brussels.
European Commission. 1999. Council directive 1999/30/EC of April 1999 relating to limit values for sulphur dioxide, nitrogen dioxide and oxide of nitrogen, particulate matter and lead in ambient air. Off. J. Eur. Commission (26.6.1999) L 163/41–60.
ISO. 1 2003. Workplace atmospheres—Controlling and characterizing errors in weighing collected aerosols. ISO 15767 Geneva.
World Health Organization. 2002. Guidelines for concentration and exposure-response measurement of fine and ultra fine particulate matter for use in epidemiological studies. WHO European Commission, Schwela, D., Morawska, L., Kotzias D. European Commission Joint Research Center and World Health Organization. EUR 20238 EN. Geneva: WHO.