A review of the bioelectrochemical system as an emerging versatile technology for reduction of antibiotic resistance genes

https://doi.org/10.1016/j.envint.2021.106689Get rights and content
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Highlights

  • The ARG generation and transmission mechanism are discussed in BESs.

  • Less antibiotic pressure and less sludge help BESs reduce ARGs.

  • Additives, antibiotic removal and microbial community affect ARG reduction in BESs.

  • The coupling systems with BESs improve the original performance in reducing ARGs.

Abstract

Antibiotic contamination and the resulting resistance genes have attracted worldwide attention because of the extensive overuse and abuse of antibiotics, which seriously affects the environment as well as human health. Bioelectrochemical system (BES), a potential avenue to be explored, can alleviate antibiotic pollution and reduce antibiotic resistance genes (ARGs). This review mainly focuses on analyzing the possible reasons for the good performance of ARG reduction by BESs and potential ways to improve its performance on the basis of revealing the generation and transmission of ARGs in BES. This system reduces ARGs through two pathways: (1) the contribution of BES to the low selection pressure of ARGs caused by the efficient removal of antibiotics, and (2) inhibition of ARG transmission caused by low sludge yield. To promote the reduction of ARGs, incorporating additives, improving the removal rate of antibiotics by adjusting the environmental conditions, and controlling the microbial community in BES are proposed. Furthermore, this review also provides an overview of bioelectrochemical coupling systems including the BES coupled with the Fenton system, BES coupled with constructed wetland, and BES coupled with photocatalysis, which demonstrates that this method is applicable in different situations and conditions and provides inspiration to improve these systems to control ARGs. Finally, the challenges and outlooks are addressed, which is constructive for the development of technologies for antibiotic and ARG contamination remediation and blocking risk migration.

Keywords

Bioelectrochemical system (BES)
Antibiotic resistance genes (ARGs)
Bioelectrochemical coupling system
Microbial fuel cells (MFCs)
Horizontal gene transfer (HGT)

Abbreviations

BES
Bioelectrochemical system
ARGs
antibiotic resistance genes
MFCs
microbial fuel cells
HGT
horizontal gene transfer
WWTPs
wastewater wastewater treatment plants
ARB
antibiotic-resistant bacteria
MECs
microbial electrolysis cells
SMX
sulfamethoxazole
NFLX
norfloxacin
VGT
vertical gene transfer
MGEs
mobile genetic elements
COINs
conjugation inhibitors
SDZ
sulfadiazine
CNTs
carbon nanotubes
PANI
polyaniline
PPCPs
pharmaceuticals and personal care products
ERY
erythromycin
CW
constructed wetland
UCW-MFC
up-flow microbial fuel cell constructed wetland

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