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Powdered activated carbon facilitated degradation of complex organic compounds and tetracycline in stressed anaerobic digestion systems

Yuyin Wang, Bang Du, Guangxue Wu

2024Bioresource Technology23 citationsDOIOpen Access PDF

Abstract

Tetracycline exerts an inhibitory effect on anaerobic digestion, inducing stressed microbial activities and even system failure. Continuous-flow reactors (CFRs) and sequencing batch reactors (SBRs) were employed along with the dosage of powdered activated carbon (PAC) to enhance tetracycline removal during anaerobic digestion of complex organic compounds. PAC increased the maximum methane production rate by 15.6% (CFRs) and 13.8% (SBRs), and tetracycline biodegradation by 24.4% (CFRs) and 19.2% (SBRs). CFRs showed higher tetracycline removal and methane production rates than SBRs. Geobacter was enriched in CFRs, where Methanothrix was enriched with the addition of PAC. Desulfomicrobium harbored abundant propionate degradation-related genes, significantly correlating with tetracycline removal. The genes encoding carbon dioxide reduction in Methanothrix along with the detection of Geobacter might indicate direct interspecies electron transfer for methanogenesis in CFRs and PAC-added reactors. The study offers new insights into anaerobic digestion under tetracycline-stressed conditions and strategies for optimizing tetracycline removal.

Topics & Concepts

TetracyclineGeobacterAnaerobic digestionChemistryMethanogenesisBiodegradationPropionatePowdered activated carbon treatmentEnvironmental chemistryMicrobiologyPulp and paper industryMethaneActivated carbonBacteriaBiochemistryBiologyAdsorptionOrganic chemistryAntibioticsEngineeringGeneticsBiofilmAnaerobic Digestion and Biogas ProductionMicrobial Fuel Cells and BioremediationMethane Hydrates and Related Phenomena
Powdered activated carbon facilitated degradation of complex organic compounds and tetracycline in stressed anaerobic digestion systems | Litcius