Abstract
An analysis of sludge (i.e., 63 samples) and biofilm (i.e., 79 samples) sampled from 13 anaerobic membrane bioreactors (AnMBR) was conducted. Predominant microbial community identification and multivariate analysis indicate that these reactors showed different microbial community structure, but these differences had no impact on the overall AnMBR performance. Instead, core microbial genera which occurred in ≥90% of sludge (20 genera) and biofilm (12 genera) samples could potentially account for the AnMBR performance. A further calculation on net growth rate (NGR) of core genera in sludge suggested distribution into two main groups (i.e., I: low relative abundance and NGR, II: high relative abundance or high NGR). Consistent positive correlations between bacterial genera were observed among those that exhibited either high relative abundance or high NGR. The anaerobic microbial consortium in both sludge and biofilm were largely affected by stochastic dispersal and migration processes (i.e., neutral assembly). However, Acinetobacter spp. and Methanobacterium spp. occurred consistently in higher frequency in the biofilm but in lower occurrence frequency in the AnMBR permeate. Findings from this study suggest first, specific core microorganisms exist in the sludge regardless of the operating conditions of the AnMBRs, and second, prevention of biofoulant layer on anaerobic membranes can be devised by minimizing attachment of microbes on surfaces in a non-selective manner.
Highlights
In recent years, anaerobic membrane bioreactor (AnMBR) technology has been reported as an emerging technology for sustainable municipal wastewater treatment (Lew et al, 2009; Ozgun et al, 2013; Wei et al, 2014)
Despite advantages associated with using AnMBR as a sustainable technology for municipal wastewater treatment, implementation of this technology in the mainstream wastewater treatment train is still not as prevalent, in part due to bottlenecks related to maintaining reliable anaerobic fermentation in low to medium strength municipal wastewaters, as well as membrane biofouling
Several genera were ubiquitously detected across all sludge and biofilm samples, suggesting the presence of core microorganisms in AnMBR systems examined in this study
Summary
Anaerobic membrane bioreactor (AnMBR) technology has been reported as an emerging technology for sustainable municipal wastewater treatment (Lew et al, 2009; Ozgun et al, 2013; Wei et al, 2014). AnMBR, which combines membrane-based filtration process with anaerobic fermentation, has several advantages over conventional aerobic processes typically used by most municipal wastewater treatment plants. Anaerobic fermentation has lower sludge production rates than activated sludge processes, and this would vastly alleviate the cost burden on sludge treatment. Despite advantages associated with using AnMBR as a sustainable technology for municipal wastewater treatment, implementation of this technology in the mainstream wastewater treatment train is still not as prevalent, in part due to bottlenecks related to maintaining reliable anaerobic fermentation in low to medium strength municipal wastewaters, as well as membrane biofouling
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