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New Metal Emission Patterns in Road Traffic Environments 总被引:10,自引:0,他引:10
The increased awareness of traffic as a major diffuse metal emission source emphasizes the need for more detailed information
on the various traffic-related sources and how and where the metals are dispersed. In this study, metal emission patterns
in the road traffic environment were examined from the perspective of different surrounding factors, e.g. the importance of
intersections, deceleration, vehicle speed and traffic density. A total of 148 topsoil samples from 18 south Swedish roads
were analysed (using GFAAS) for traffic-emitted metals, i.e. Cd, Cr, Cu, Ni, Pb, Sb and Zn. The roadside topsoil metal concentrations
were used to examine correlations between metals and surrounding factors. The studied metals were divided into three groups
corresponding to different emission sources: metals from decelerating activities (Cu, Sb and Zn), metals as historical residues
from the combustion of petrol (Pb and Cd), and non-source-specific metals (Cr and Ni). It was found that Cu and Sb, despite
their rather short history as traffic-emitted metals, have increased more than eightfold in roadside soils compared to background
levels. The major source of road traffic related Cu and Sb is brake linings. The significant increase of Cu and Sb in roadside
topsoil stresses the need for metal transport studies as well as effect studies of these metals. Metals emitted due to decelerating
activities were not correlated to elevated concentrations near road junctions. Emission patterns of traffic-related metals
alongside roads are crucial in order to be able to evaluate the optimal localization of storm water treatment ponds. 相似文献
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Hjortenkrans DS Bergbäck BG Häggerud AV 《Journal of environmental monitoring : JEM》2008,10(6):739-746
Today there is consensus concerning the road traffic's role as a metal source. However, there are so far only a few studies which focus on the road side immission patterns regarding distance from roads, and especially in combination with the leachability of heavy metals down the soil profile. In this study, the aim was to analyse concentrations of traffic related metals in road side soils, at different depths and distances from roads, both to analyse the immission patterns as well as to explain the importance of the road construction design of the road side terrain. The BCR sequential extraction procedure was performed to be able to address the environmental risk in terms of metal mobility. Approximately 80 soil samples were analysed for seven metals; antimony (Sb), cadmium (Cd), copper (Cu), chromium (Cr), lead (Pb), nickel (Ni) and zinc (Zn). The results showed that, depending on metal, the total metal concentrations in road side soils have increased 3-16 times compared to regional background during the last decades. Each metal had a limited dispersal distance from the roads as well as down in the soil profile and the road construction significantly affected the metal immission distance. Elevated metal concentrations were mostly found for top soils and down to 10 cm in the soil profiles. The labile fractions counted for more than 40% of the total concentrations for Cd, Cu, Ni, Pb and Zn, indicating a potential mobilization of the metals if the road side soils become disturbed. The present soil metal concentration levels are not alarming, but metals with a high accumulation rate might gradually be an upcoming problem if nothing is done to their emission sources. 相似文献
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