Insight into using a novel ultrasound followed by peracetic acid / ultraviolet disinfection system to inactivate microorganisms in sewage based on synergy and metagenomics

During the epidemic (SARS-CoV-2 virus), although chlorination played a vital role in disinfecting sewage of isolated areas, excessive chlorine disinfectants also led to serious secondary pollution. In order to avoid secondary pollution caused by traditional disinfection, we constructed a sequential ultrasonic combined with peracetic acid/ultraviolet (US→PAA/UV) system to disinfect actual sewage. The result indicated that the US→PAA/UV had an excellent synergistic disinfection effect on coliform, reaching 2.78-log, which was higher than the sum of the reductions achieved by ultrasound (0.04-log), UV (1.93-log) and PAA (0.36-log). Furthermore, metagenomic sequencing showed that US→PAA/UV treatment could significantly reduce the relative abundance of opportunistic pathogens, specifically Acinetobacter (7.22 % to 5.61 %), Moraxella (7.11 % to 1.38 %) and Cloacibacterium (3.5 % to 1.68 %). This reduction was achieved by disrupting the normal expression of several functional genes (TraI, LuxR, mqsR, lasR and galE) involved in quorum sensing and extracellular polymeric substance (EPS) secretion. In addition, the antibiotics resistance gene (ARGs) analysis based on CARD database found that the number of ARGs subtypes changed little, with 921 and 927, respectively, before and after US→PAA/UV. Overall, The results demonstrated that US→PAA/UV could not only effectively inactivate multiple pathogens but also pose no risk of increasing bacterial resistance, providing new insights for the emergency disinfection of raw sewage during public health emergencies.