Publication Details |
| Category | Text Publication |
| Reference Category | Journals |
| DOI | 10.1021/acs.est.4c00368 |
Licence  |
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| Title (Primary) | Sequential anaerobic-aerobic treatment enhances sulfamethoxazole removal: From batch cultures to observations in a large-scale wastewater treatment plant |
| Author | Akay, C.
; Ulrich, N.; Ding, C.; Nunes da Rocha, U.; Adrian, L.
|
| Source Titel | Environmental Science & Technology |
| Year | 2024 |
| Department | EXPO; AME; MEB |
| Volume | 58 |
| Issue | 28 |
| Page From | 12609 |
| Page To | 12620 |
| Language | englisch |
| Topic | T7 Bioeconomy T9 Healthy Planet |
| Supplements | https://pubs.acs.org/doi/suppl/10.1021/acs.est.4c00368/suppl_file/es4c00368_si_001.pdf |
| Keywords | antibiotics; biotransformation; transformation products; sulfate-reducing condition; nitrate-reducing condition; wastewater treatment |
| Abstract | Sulfamethoxazole (SMX) passes through conventional wastewater treatment plants (WWTPs) mainly unaltered. Under anoxic conditions sulfate-reducing bacteria can transform SMX but the fate of the transformation products (TPs) and their prevalence in WWTPs remain unknown. Here, we report the anaerobic formation and aerobic degradation of SMX TPs. SMX biotransformation was observed in nitrate- and sulfate-reducing enrichment cultures. We identified 10 SMX TPs predominantly showing alterations in the heterocyclic and N4-arylamine moieties. Abiotic oxic incubation of sulfate-reducing culture filtrates led to further degradation of the major anaerobic SMX TPs. Upon reinoculation under oxic conditions, all anaerobically formed TPs, including the secondary TPs, were degraded. In samples collected at different stages of a full-scale municipal WWTP, anaerobically formed SMX TPs were detected at high concentrations in the primary clarifier and digested sludge units, where anoxic conditions were prevalent. Contrarily, their concentrations were lower in oxic zones like the biological treatment and final effluent. Our results suggest that anaerobically formed TPs were eliminated in the aerobic treatment stages, consistent with our observations in batch biotransformation experiments. More generally, our findings highlight the significance of varying redox states determining the fate of SMX and its TPs in engineered environments. |
| Persistent UFZ Identifier | https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=29289 |
| Akay, C., Ulrich, N., Ding, C., Nunes da Rocha, U., Adrian, L. (2024): Sequential anaerobic-aerobic treatment enhances sulfamethoxazole removal: From batch cultures to observations in a large-scale wastewater treatment plant Environ. Sci. Technol. 58 (28), 12609 - 12620 10.1021/acs.est.4c00368 |
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