Abstract
The evaluation of effluent wastewater quality mainly relies on the assessment of conventional bacterial indicators, such as fecal coliforms and enterococci; however, little is known about opportunistic pathogens, which can resist chlorination and may be transmitted in aquatic environments. In contrast to conventional microbiological methods, high-throughput molecular techniques can provide an accurate evaluation of effluent quality, although a limited number of studies have been performed in this direction. In this work, high-throughput amplicon sequencing was employed to assess the effectiveness of chlorination as a disinfection method for secondary effluents. Common inhabitants of the intestinal tract, such as Bacteroides, Arcobacter and Clostridium, and activated sludge denitrifiers capable of forming biofilms, such as Acidovorax, Pseudomonas and Thauera, were identified in the chlorinated effluent. Chloroflexi with dechlorination capability and the bacteria involved in enhanced biological phosphorus removal, i.e., Candidatus Accumulibacter and Candidatus Competibacter, were also found to resist chlorination. No detection of Escherichia indicates the lack of fecal coliform contamination. Mycobacterium spp. were absent in the chlorinated effluent, whereas toxin-producing cyanobacteria of the genera Anabaena and Microcystis were identified in low abundances. Chlorination significantly affected the filamentous bacteria Nocardioides and Gordonia, whereas Zoogloea proliferated in the disinfected effluent. Moreover, perchlorate/chlorate- and organochlorine-reducing bacteria resisted chlorination.
Highlights
Introduction published maps and institutional affilWastewater treatment plants (WWTPs) usually focus on the removal of nutrients and suspended solids in order to safely dispose of the effluent in a recipient aquifer
In order to achieve this goal, we investigated the bacterial communities in the effluent prior to and after chlorination using the high-throughput amplicon sequencing approach
Common inhabitants of intestinal tract, i.e., Bacteroides, Arcobacter and Clostridium, were found to survive chlorination and constitute the main microbiota detected in the disinfected effluent
Summary
Introduction published maps and institutional affilWastewater treatment plants (WWTPs) usually focus on the removal of nutrients and suspended solids in order to safely dispose of the effluent in a recipient aquifer. The conventionally treated effluent may still include a pathogenic charge, such as bacteria and protozoa, including harmful cyanobacteria capable of producing toxins under certain conditions [2,3,4]. Chemical contaminants, such as pharmaceuticals and personal care products (PPCPs), are released into the environment, along with the dispersal of antibiotic resistance genes, strengthening environmental concerns [4,5].
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