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W4377089041 abstract "There is a lack of simple and effective methods to quantify the fate processes of persistent organic pollutants (POPs) in bioretention systems. In this study, the fate and elimination processes of three typical 13C-labeled POPs in regularly added bioretention columns were quantified using stable carbon isotope analysis techniques. The results showed that the modified media bioretention column removed more than 90% of Pyrene, PCB169 and p,p'-DDT. Media adsorption was the dominant removal mechanism for the reduction of the three exogenous organic compounds (59.1–71.8% of the input) although plant uptake (5.9–18.0%) was also important. Mineralization was effective in degrading pyrene (13.1%) but had a very limited effect on p,p'-DDT and PCB169 removal (<2.0%), the reason for which may be related to the aerobic conditions of the filter column. Volatilization was relatively weak and negligible (<1.5%). The presence of heavy metals inhibited the removal of POPs to some extent: media adsorption, mineralization and plant uptake were reduced by 4.3–6.4%, 1.8–8.3% and 1.5–3.6% respectively. This study suggests that bioretention systems are an effective measure for the sustainable removal of POPs from stormwater and that heavy metals can inhibit the overall performance of the system. Stable carbon isotope analysis techniques can help to investigate the migration and transformation of POPs in bioretention systems." @default.
W4377089041 created "2023-05-20" @default.
W4377089041 creator A5080655703 @default.
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W4377089041 date "2023-09-01" @default.
W4377089041 modified "2023-10-03" @default.
W4377089041 title "The fate of three typical persistent organic pollutants in bioretention columns as revealed by stable carbon isotopes" @default.
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W4377089041 doi "https://doi.org/10.1016/j.chemosphere.2023.138996" @default.
W4377089041 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37211166" @default.
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