Studying the effect of bioswales on nutrient pollution in urban combined sewer systems

The objective of this study was to evaluate the impact of bioswales on nutrient pollution in an urban combined sewershed. This evaluation was based on two criteria: the ability of bioswales to (1) remove nutrient pollution from stormwater runoff directly and (2) decrease sewer overflow volumes, whic...

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Bibliographic Details
Published in:The Science of the total environment 2019-05, Vol.665, p.944-958
Main Authors: Shetty, Nandan H., Hu, Ranran, Mailloux, Brian J., Hsueh, Diana Y., McGillis, Wade R., Wang, Mark, Chandran, Kartik, Culligan, Patricia J.
Format: Article
Language:English
Subjects:
Bioswales
Combined sewer overflow
Nitrogen
Phosphorus
Water quality
Water retention
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Summary:The objective of this study was to evaluate the impact of bioswales on nutrient pollution in an urban combined sewershed. This evaluation was based on two criteria: the ability of bioswales to (1) remove nutrient pollution from stormwater runoff directly and (2) decrease sewer overflow volumes, which indirectly reduces total sewershed nutrient pollution during a storm event. Bioswales' direct nutrient removal was determined by analyzing nitrogen and phosphorus levels in water samples at seven bioswales located in the Bronx, New York City (NYC) over 42 storm events, while a bioswale's indirect nutrient removal through combined sewer overflow reduction was estimated by quantifying water retention at one of the bioswales. The study results indicated that: 1) the bioswale retained about 40% of stormwater conveyed to it from a drainage area 231 times its size, 2) bioswales leach nutrients into the subsurface, and 3) nitrogen leaching from bioswales varied seasonally, while phosphorus leaching decreased steadily over the study period. Although the studied bioswales leached a median 1.3 kg nitrogen per year into the subsurface, they provided an aggregate decrease in watershed nutrient pollution, from 7.7 to 6 kg nitrogen per year, due to their reduction of combined sewer overflow via stormwater retention. [Display omitted] •Bioswale water retention averaged 40%•Nitrogen leaching increased in warmer months•Phosphorus leaching decreased over the study period•The studied bioswales reduce overall nitrogen pollution in a combined sewershed.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2019.02.121