AI Article Synopsis
- The study investigated the impact of short- and long-chain perfluorocarboxylic acids (PFCAs) on constructed wetlands using modified basalt fiber bio-nests (MBF-CWs), highlighting significant reductions in removal efficiency for chemical oxygen demand and total phosphorus, particularly due to the effects of perfluorooctanoic acid (PFOA).
- PFOA notably decreased the activity of essential enzymes in microbes, leading to a decline in microbial health and diversity, while perfluorobutanoic acid (PFBA) had less severe impacts.
- The findings suggest that long-chain PFCAs like PFOA pose greater ecological risks, affecting both microbial communities and plant health within MBF-CWs, ultimately questioning the
Article Abstract
The first investigation based on constructed wetlands coupled with modified basalt fiber bio-nest (MBF-CWs) was performed under exposure of short- and long-chain perfluorocarboxylic acids (PFCAs). In general, both perfluorooctanoic acid (PFOA) and perfluorobutanoic acid (PFBA) caused significant decline of chemical oxygen demand removal by 10.83 % and 4.73 %. However, only PFOA led to marked inhibition on total phosphorus removal by 12.51 % in whole duration. Suppression of removal performance resulted from side impacts on microbes by PFOA. For instance, activities of key enzymes like dehydrogenase (DHA), urease (URE), and phosphatase (PST) decreased by 52.77 %, 40.70 %, and 56.94 % in maximum under PFOA stress, while URE could alleviate over time. By contrast, distinct inhibition was only found on PST in later phases with PFBA exposure. PFCAs had adverse influence on alpha diversity of MBF-CWs, particularly long-chain PFOA. Both PFCAs caused enrichment of Proteobacteria, owing to increase of Gammaproteobacteria and Plasticicumulans by 22.04-35.79 % and 22.91-219.77 %. Nevertheless, some dominant phyla (like Bacteroidota and Acidobacteriota) and genera (like SC-I-84, Thauera, Subgroup_10, and Ellin6067) were only suppressed by PFOA, causing more hazards to microbial decontamination than PFBA did. As for plants, chlorophyll contents tend to decrease with PFOA treatment. Whereas, higher antioxidase activities and more lipid peroxidation products were uncovered in PFOA group, demonstrating more reactive oxygen species brought by long-chain PFCAs. This work offered new findings about ecological effects of MBF-CWs under PFCAs exposure, evaluating stability and sustainability of MBF-CW systems to treat sewage containing complex PFCAs.
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| http://dx.doi.org/10.1016/j.chemosphere.2024.143384 | DOI Listing |
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