Effect of graphene and graphene oxide on antibiotic resistance genes during copper-contained swine manure anaerobic digestion.
Ranran ZhangJimin LiLiuyuan ZhouHaifeng ZhuangSihan ShenYuheng WangPublished in: Environmental science and pollution research international (2022)
Copper is an important selectors for antibiotic resistance genes (ARGs) transfer because of metal-antibiotic cross-resistance and/or coresistance. Due to carbon-based materials' good adsorption capacity for heavy metals, graphene and graphene oxide have great potential to reduce ARGs abundance in the environment with copper pollution. To figure out the mechanics, this study investigated the effects of graphene and graphene oxide on the succession of ARGs, mobile genetic elements (MGEs), heavy metal resistance genes (HMRGs), and bacterial communities during copper-contained swine manure anaerobic digestion. Results showed that graphene and graphene oxide could reduce ARGs abundance in varying degrees with the anaerobic reactors that contained a higher concentration of copper. Nevertheless, graphene decreased the abundance of ARGs more effectively than graphene oxide. Phylum-level bacteria such as Firmicutes, Bacteroidetes, Spirochaetes, and Verrucomicrobiaat were significantly positively correlated with most ARGs. Network and redundancy analyses demonstrated that alterations in the bacterial community are one of the main factors leading to the changes in ARGs. Firmicutes, Bacteroidetes, and Spirochaetes were enriched lower in graphene reactor than graphene oxide in anaerobic digestion products, which may be the main reason that graphene is superior to graphene oxide in reduced ARGs abundance. Additionally, ARGs were close to HMRGs than MGEs in the treatments with graphene, the opposite in graphene oxide reactors. Therefore, we speculate that the reduction of HMRGs in graphene may contribute to the result that graphene is superior to graphene oxide in reduced ARGs abundance in anaerobic digestion.
Keyphrases
- antibiotic resistance genes
- anaerobic digestion
- sewage sludge
- microbial community
- wastewater treatment
- heavy metals
- room temperature
- municipal solid waste
- carbon nanotubes
- walled carbon nanotubes
- genome wide
- gene expression
- ionic liquid
- transcription factor
- oxide nanoparticles
- air pollution
- health risk assessment
- single molecule
- aqueous solution
- atomic force microscopy
- bioinformatics analysis