Effect of ZnO nanoparticles on Zn, Cu, and Pb dissolution in a green bioretention system for urban stormwater remediation

Stormwater runoff from urban and suburban areas can carry hazardous pollutants directly into aquatic ecosystems. These pollutants, such as metals, nutrients, aromatic hydrocarbons, pesticides, and pharmaceuticals, are very toxic to aquatic organisms. Recently, significant amounts of zinc oxide engin...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2021-11, Vol.282, p.131045-131045, Article 131045
Main Authors: Caldelas, C., Gurí, R., Araus, J.L., Sorolla, A.
Format: Article
Language:English
Subjects:
Heavy metals
Nature-based solutions
Phytoremediation
Stormwater runoff
Wastewater
Water pollution
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Summary:Stormwater runoff from urban and suburban areas can carry hazardous pollutants directly into aquatic ecosystems. These pollutants, such as metals, nutrients, aromatic hydrocarbons, pesticides, and pharmaceuticals, are very toxic to aquatic organisms. Recently, significant amounts of zinc oxide engineered nanoparticles (ZnO-NPs) have been detected in urban stormwater and its bioretention systems. This raises concerns about a potential increase of stormwater toxicity and reduced performance of the treatment infrastructures. To tackle these issues, we developed a simple, low-cost bioretention system to remediate stormwater and retain ZnO-NPs. This system retained up to 73% Zn, 66% Cu, and >99% Pb. However, the removal efficiency for Pb was lower after adding ZnO-NPs to the system, possibly due to the remobilization of Pb phosphates. The effect of ZnO-NPs on stormwater toxicity and metal accumulation in wetland plants was also evaluated. •We developed a bioretention system that retained up to 73% Zn, 66% Cu, and >99% Pb.•The ZnO-NPs increased Pb solubility, leading to a loss of bioretention efficiency.•C. vulpina grew more and retained more nutrients and metals than the other species.•Plants made a small contribution to metal extraction from stormwater.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2021.131045