Influence of four antimicrobials on methane-producing archaea and sulfate-reducing bacteria in anaerobic granular sludge
Copyright policy )Influence of four antimicrobials on methane-producing archaea and sulfate-reducing bacteria in anaerobic granular sludge
The influence of Cephalexin (CLX), Tetracycline (TC), Erythromycin (ERY) and Sulfathiazole (ST) on methane-producing archaea (MPA) and sulfate-reducing bacteria (SRB) in anaerobic sludge was investigated using acetate or ethanol as substrate. With antimicrobial concentrations below 400mgL(-1), the relative specific methanogenic activity (SMA) was above 50%, so that the antimicrobials exerted slight effects on archaea. However ERY and ST at 400mgL(-1) caused a 74.5% and 57.6% inhibition to specific sulfidogenic activity (SSA) when the sludge granules were disrupted and ethanol used as substrate. After disruption, microbial tolerance to antimicrobials decreased, but the rate at which MPA utilized acetate and ethanol increased from 0.95gCOD·(gVSS⋅d)(-1) to 1.45gCOD·(gVSS⋅d)(-1) and 0.90gCOD·(gVSS⋅d)(-1) to 1.15gCOD·(gVSS⋅d)(-1) respectively. The ethanol utilization rate for SRB also increased after disruption from 0.35gCOD·(gVSS⋅d)(-1) to 0.46gCOD·(gVSS⋅d)(-1). Removal rates for CLX approaching 20.0% and 25.0% were obtained used acetate and ethanol respectively. The disintegration of granules improved the CLX removal rate to 65% and 78%, but ST was not removed during this process.
- Nanjing Forestry University China (People's Republic of)
- Nanjing Forestry University China (People's Republic of)
- Xi'an University of Architecture and Technology China (People's Republic of)
- Tohoku University Japan
- Xi'an University of Architecture and Technology China (People's Republic of)
Bacteria, Ethanol, Sewage, Sulfates, Acetates, Archaea, Waste Disposal, Fluid, Biodegradation, Environmental, Bioreactors, Anti-Infective Agents, Desulfovibrio, Anaerobiosis, Methane
Bacteria, Ethanol, Sewage, Sulfates, Acetates, Archaea, Waste Disposal, Fluid, Biodegradation, Environmental, Bioreactors, Anti-Infective Agents, Desulfovibrio, Anaerobiosis, Methane
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