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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
20.
Means to improve the effect of in situ bioremediation of contaminated soil: an overview of novel approaches 总被引:16,自引:0,他引:16
Romantschuk M Sarand I Petänen T Peltola R Jonsson-Vihanne M Koivula T Yrjälä K Haahtela K 《Environmental pollution (Barking, Essex : 1987)》2000,107(2):179-185
Different aspects of bacterial degradation of organic contaminants in soil, and how to improve the efficiency and reproducibility is discussed in this review. Although bioremediation in principle includes the use of any type of organism in improving the condition of a contaminated site, most commonly bacteria are the degraders and other organisms, such as soil animals or plant roots, play a role in dissemination of bacteria and, indirectly, plasmids between bacteria, and in providing nutrients and co-substrates for the bacteria active in the degradation process. There are a number of different procedures that have been tested more-or-less successfully in attempts to improve reliability, cost efficiency and speed of bioremediation. The methods range from minimal intervention, such as mere monitoring of intrinsic bioremediation, through in situ introduction of nutrients and/or bacterial inocula or improvement of physico-chemical conditions, all the way to excavation followed by on site or ex situ composting in its different varieties. In the past the rule has been that more intervention (leading to higher costs) has been more reliable, but novel ideas are continuously tried out, both as a means to come up with new truly functional applications and also as a line of studies in basic soil microbial ecology. Both approaches generate valuable information needed when predicting outcome of remediation activities, evaluating environmental risks, deciding on cleaning-up approaches, etc. The emphasis of this review is to discuss some of the novel methods for which the value has not been clearly shown, but that in our view merit continued studies and efforts to make them work, separately or in combination. 相似文献