Full-scale characterization of the effects of a bioretention system on water quality and quantity following the replacement of a mixed stormwater and combined sewer system
Type de ressource
Auteurs/contributeurs
- Le Cauchois, Pia (Auteur)
- Doucet, Samuel (Auteur)
- Bouattour, Ons (Auteur)
- McQuaid, Natasha (Auteur)
- Beral, Henry (Auteur)
- Kõiv-Vainik, Margit (Auteur)
- Bichai, Françoise (Auteur)
- McCarthy, David (Auteur)
- St-Laurent, Julien (Auteur)
- Dagenais, Danielle (Auteur)
- Bennekrela, Nesrine (Auteur)
- Guerra, Juan (Auteur)
- Hachad, Mounia (Auteur)
- Kammoun, Raja (Auteur)
- Dorner, Sarah (Auteur)
Titre
Full-scale characterization of the effects of a bioretention system on water quality and quantity following the replacement of a mixed stormwater and combined sewer system
Résumé
ABSTRACT
Urbanization is leading to more frequent flooding as cities have more impervious surfaces and runoff exceeds the capacity of combined sewer systems. In heavy rainfall, contaminated excess water is discharged into the natural environment, damaging ecosystems and threatening drinking water sources. To address these challenges aggravated by climate change, urban blue-green water management systems, such as bioretention cells, are increasingly being adopted. Bioretention cells use substrate and plants adapted to the climate to manage rainwater. They form shallow depressions, allowing infiltration, storage, and gradual evacuation of runoff. In 2018, the City of Trois-Rivières (Québec, Canada) installed 54 bioretention cells along a residential street, several of which were equipped with access points to monitor performance. Groundwater quality was monitored through the installation of piezometers to detect potential contamination. This large-scale project aimed to improve stormwater quality and reduce sewer flows. The studied bioretention cells reduced the flow and generally improved water quality entering the sewer system, as well as the quality of stormwater, with some exceptions. Higher outflow concentrations were observed for contaminants such as manganese and nitrate. The results of this initiative provide useful recommendations for similar projects for urban climate change adaptation.
Publication
Blue-Green Systems
Volume
7
Numéro
1
Pages
43-62
Date
2025-06-01
Langue
en
ISSN
2617-4782
URL
Consulté le
2025-08-10 22 h 19
Catalogue de bibl.
DOI.org (Crossref)
Référence
Le Cauchois, P., Doucet, S., Bouattour, O., McQuaid, N., Beral, H., Kõiv-Vainik, M., Bichai, F., McCarthy, D., St-Laurent, J., Dagenais, D., Bennekrela, N., Guerra, J., Hachad, M., Kammoun, R., & Dorner, S. (2025). Full-scale characterization of the effects of a bioretention system on water quality and quantity following the replacement of a mixed stormwater and combined sewer system. Blue-Green Systems, 7(1), 43–62. https://doi.org/10.2166/bgs.2025.029
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