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Article Abstract
Ferric oxides play a critical role in transforming organic contaminants within anaerobic aquaculture sediments; however, their effect on the removal of antibiotics and antibiotic resistance genes (ARGs) remains unexplored. This study revealed that the addition of FeO significantly promoted microbial Fe(III) reduction, SMX degradation, and methanogenesis by enhancing metabolic activity and facilitating electron transfer. While nutrient supplementation similarly improved SMX removal, it notably increased ARG abundance, unlike FeO, which effectively suppressed ARGs. Although the presence of the electron shuttle AQDS in FeO-amended systems further stimulated dissimilatory iron reduction, no additional benefit to SMX degradation was observed. Inhibition of methanogenesis reduced SMX degradation by 48 %, whereas FeO supplementation enriched the methane metabolic pathway, suggesting that SMX removal occurred through a conductive network involving FeO and methanogens. Moreover, FeO supplementation induced significant shifts in bacterial community composition, enhanced antioxidase activity, and reduced reactive oxygen species levels. These alterations were associated with the repression of genes related to horizontal gene transfer and a decrease in ARG hosts. Overall, these results indicate that FeO serves as an effective conductor, enhancing antibiotic degradation and limiting ARG propagation in aquaculture sediments.
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