Abstract
Abstract. In this study, we present results from 12 years of black carbon (BC) measurements at 14 sites around the Helsinki metropolitan area (HMA) and at one background site outside the HMA. The main local sources of BC in the HMA are traffic and residential wood combustion in fireplaces and sauna stoves. All BC measurements were conducted optically, and therefore we refer to the measured BC as equivalent BC (eBC). Measurement stations were located in different environments that represented traffic environment, detached housing area, urban background, and regional background. The measurements of eBC were conducted from 2007 through 2018; however, the times and the lengths of the time series varied at each site. The largest annual mean eBC concentrations were measured at the traffic sites (from 0.67 to 2.64 µg m−3) and the lowest at the regional background sites (from 0.16 to 0.48 µg m−3). The annual mean eBC concentrations at the detached housing and urban background sites varied from 0.64 to 0.80 µg m−3 and from 0.42 to 0.68 µg m−3, respectively. The clearest seasonal variation was observed at the detached housing sites where residential wood combustion increased the eBC concentrations during the cold season. Diurnal variation in eBC concentration in different urban environments depended clearly on the local sources that were traffic and residential wood combustion. The dependency was not as clear for the typically measured air quality parameters, which were here NOx concentration and mass concentration of particles smaller that 2.5 µm in diameter (PM2.5). At four sites which had at least a 4-year-long time series available, the eBC concentrations had statistically significant decreasing trends that varied from −10.4 % yr−1 to −5.9 % yr−1. Compared to trends determined at urban and regional background sites, the absolute trends decreased fastest at traffic sites, especially during the morning rush hour. Relative long-term trends in eBC and NOx were similar, and their concentrations decreased more rapidly than that of PM2.5. The results indicated that especially emissions from traffic have decreased in the HMA during the last decade. This shows that air pollution control, new emission standards, and a newer fleet of vehicles had an effect on air quality.
Highlights
Air pollution is one of the biggest environmental health risks in the world
This study analyzed the time series of atmospheric equivalent BC (eBC) concentrations in traffic, detached house, urban background, and regional background environments measured in the years 2007–2018 in the Helsinki metropolitan area (HMA) and at one background site outside the HMA
The overall mean eBC concentration varied in the range of 0.77 to 2.08 μg m−3 at traffic site (TR) stations, 0.64 to 0.80 μg m−3 at detached housing area (DH) stations, and 0.51 to 0.53 μg m−3 at urban background (UB) stations
Summary
Air pollution is one of the biggest environmental health risks in the world. Lelieveld et al (2015) estimated that particles smaller than 2.5 μm in diameter (PM2.5) and ozone (O3) together caused about 3.3 million premature deaths globally in 2010. A majority of these premature deaths were due to PM2.5 (approximately 1.9 million). More than 65 % of the premature deaths caused by PM2.5 were re-. K. Luoma et al.: Spatiotemporal variation and trends lated to cardiovascular diseases, the second largest cause for the PM2.5-related premature deaths were lung and respiratory diseases, and a small fraction was due to lung cancer (Lelieveld et al, 2015). The causes for the adverse health effects of PM are the PM-induced inflammation and toxic materials which are transported in the respiratory system by the particles
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