Snowmelt pollutant removal in bioretention areas

Snow accumulating in urban areas and alongside roads can accumulate high pollutant loads and the subsequent snowmelt can produce high pollutant loads in receiving waters. This paper examines the treatment of roadside snowmelt in bioretention with respect to pollutant removal, pollutant pathways, and...

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Bibliographic Details
Published in:Water research (Oxford) 2007-10, Vol.41 (18), p.4061-4072
Main Authors: Muthanna, Tone Merete, Viklander, Maria, Blecken, Godecke, Thorolfsson, Sveinn T.
Format: Article
Language:English
Subjects:
air pollution
Applied sciences
bioremediation
Bioretention
cadmium
Cold climate
copper
effluents
Environmental Pollutants - isolation & purification
Environmental Restoration and Remediation - methods
Exact sciences and technology
Heavy metals
infiltration (hydrology)
lead
mulches
Other industrial wastes. Sewage sludge
plants
Pollution
pollution control
rhizosphere
roads
Snow
Snowmelt
uptake mechanisms
urban areas
Urban Water Engineering
VA-teknik
waste treatment
Wastes
water pollution
Water treatment and pollution
zinc
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Summary:Snow accumulating in urban areas and alongside roads can accumulate high pollutant loads and the subsequent snowmelt can produce high pollutant loads in receiving waters. This paper examines the treatment of roadside snowmelt in bioretention with respect to pollutant removal, pollutant pathways, and major sinks. Bioretention was used to treat snowmelt from three types of urban roads in Trondheim, Norway: residential, medium, and roads with high-density traffic. Metal retention in bioretention boxes had a mass reduction in zinc, copper, lead, and cadmium in the range of 89–99%, and a decrease in outflow concentrations in the range 81–99%. Cadmium was only measured in the water samples, while the other three metals were traced through the system to identify the main sinks. The top mulch layer was the largest sink for the retained metals, with up to 74% of the zinc retained in this mulch layer. The plant metal uptakes were only 2–8% of the total metal retention; however, the plants still play an important role with respect to root zone development and regeneration, which fosters infiltration and reduces the outflow load. Dissolved pollutants in snowmelt tend to be removed with the first flush of meltwater, creating an enrichment ratio with respect to the average pollutant concentrations in the snow. The effect of this enrichment ratio was examined through the bioretention system, and found to be less predominant than that typically reported for untreated snowmelt. The enrichment factors were in the range of 0.65–1.51 for the studied metals.
ISSN:0043-1354
1879-2448
1879-2448
DOI:10.1016/j.watres.2007.05.040