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Characterizing phenol-removing consortia under methanogenic and sulfate-reducing conditions: potential metabolic pathways.

Leandro Augusto Gouvêa de GodoiLucas Tadeu FuessTiago Palladino DelfornoEugênio ForestiMarcia Helena Rissato Zamariolli Damianovic
Published in: Environmental technology (2018)
Phenol removal was investigated in anaerobic fixed-structured bed reactors, namely R1 and R2, treating synthetic wastewater simulating the soluble fraction of vinasse under strictly methanogenic (R1) and simultaneous methanogenic/sulfidogenic conditions (R2). Next-generation sequencing (Illumina MiSeq System) was used to further characterize the microbial communities in both systems. Phenol was completely and stably removed in R1 after a short operating period (≈55 days). Conversely, phenol removal in R2 required a longer period for biomass acclimation (≈125 days) to reach levels equivalent to R1. Volatile fatty acids (VFA) accumulation in R2, mainly due to the inhibition of the acetoclastic methanogenesis by sulfide, may have limited phenol removal in the initial operating phases, as intermediate steps from phenol degradation are thermodynamically dependent on the removal of acetate, hydrogen and bicarbonate. Overall, the potential for anaerobically removing phenol from complex wastewaters was confirmed, even at low phenol/COD ratios. 16S rRNA gene sequencing analysis showed a high correlation of taxonomic profile between R1 and the inoculum, whereas a lower correlation was observed between R2 and the inoculum samples. Functional inference further indicated that Syntrophus and Bacillus genera in R1 and Clostridium genus in both reactors possibly played a key-role in phenol degradation.
Keyphrases
  • anaerobic digestion
  • sewage sludge
  • wastewater treatment
  • microbial community
  • copy number
  • risk assessment
  • heavy metals
  • human health
  • transcription factor
  • liquid chromatography
  • data analysis