Performance and microbial metabolic mechanism of imidacloprid removal in a microbial electrolysis cell-integrated adsorption biological coupling system
[Display omitted] •MEC-integrated adsorption biological coupling system was constructed.•MEC enhanced the relative abundance of Proteobacteria and Brevundimonas.•MEC up-regulated the abundance of the coding genes GCK, PK, and pstA.•IMI was degraded into intermediates with smaller molecular weights b...
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Veröffentlicht in: | Bioresource technology 2023-10, Vol.386, p.129513-129513, Article 129513 |
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Format: | Artikel |
Sprache: | eng |
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•MEC-integrated adsorption biological coupling system was constructed.•MEC enhanced the relative abundance of Proteobacteria and Brevundimonas.•MEC up-regulated the abundance of the coding genes GCK, PK, and pstA.•IMI was degraded into intermediates with smaller molecular weights by MEC.
Coke used as a filler to treat imidacloprid (IMI) wastewater by both adsorption biological coupling and microbial electrolysis cells (MEC)-adsorption biological coupling technologies, the removal efficiencies on pollutions in wastewater containing IMI were investigated, and the key functional genes related to IMI degradation pathways were also revealed. Results showed that the removal rates of COD, ammonia nitrogen, TP, and IMI under the adsorption biological coupling treatment and MEC-adsorption biological coupling treatment were 94.61–95.54%, 93.37–95.79%, 73.69–83.80%, and 100%, respectively. MEC increased the relative abundance of Proteobacteria by 9.01% and transformed the dominant bacteria from Lysobacter and Reyranella to Brevundimonas and Aquincola. Moreover, MEC up-regulated the abundance of the coding genes PK (9.30%), narG (2.26%), pstS (3.63%), and phnD (1.32%), and converted the IMI degradation products to smaller molecular weight C6H8N2 and C6H6ClNO. This study provided an important reference information for efficient treatment of IMI wastewater using the MEC-adsorption biological coupling technology. |
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ISSN: | 0960-8524 1873-2976 |
DOI: | 10.1016/j.biortech.2023.129513 |