Recent advancements in antibiotics containing wastewater treatment by integrated bio-electrochemical-constructed wetland systems (BES-CWs)

Recent advances in the integrated bioelectrochemical-constructed wetland systems (BES-CWs) for antibiotics removal are gaining momentum due to having electrode bio-carrier and electro-active bacteria (EAB) that could stimulate degradation via extracellular electron transfer. BES-CWs system performs well in removing antibiotics, and it is proven more competitive in environmental friendly than physicochemical methods. Hence, under-standing the reaction features, operation manners, economic and ecological benefits of BES-CWs can provide valuable information for further technological development. In contrast, the successful application of BES-CWs to antibiotics-containing wastewater remediation requires a deeper evaluation of its performance, mechanism, typical attributes and a comprehensive potential evaluation of BES-CWs' practical application in terms of environmental and economic analysis. In this review, the degradation mechanism, abiotic transformations of antibiotics and involved functional microorganisms in BES-CWs were comprehensively analyzed to draw critical suggestions and new insights. Furthermore, the device configurations, operational conditions, environmental impact, and economic evaluation of the BES-CWs was addressed as follows the principle for practical applica-tions. Overall, this review would provide useful information for developing BES-CW technologies to abate an-tibiotics in wastewater.