Fate of Antibiotics and Antibiotic Resistance during Digestion and Composting: A Review

Antibiotics and antibiotic‐resistant bacteria (ARB) enter the environment through municipal and agricultural waste streams and pose a potential risk to human and livestock health through either direct exposure to antibiotic‐resistant pathogens or selective pressure on the soil microbial community. T...

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Veröffentlicht in:	Journal of environmental quality 2016-03, Vol.45 (2), p.537-545
Hauptverfasser:	Youngquist, Caitlin P., Mitchell, Shannon M., Cogger, Craig G.
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Sprache:	eng
Schlagworte:	Anti-Bacterial Agents - metabolism Anti-Bacterial Agents - pharmacology Bacteria Composting DNA, Bacterial - metabolism Drug Resistance, Microbial - genetics Humans Manure
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container_title	Journal of environmental quality
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creator	Youngquist, Caitlin P. Mitchell, Shannon M. Cogger, Craig G.
description	Antibiotics and antibiotic‐resistant bacteria (ARB) enter the environment through municipal and agricultural waste streams and pose a potential risk to human and livestock health through either direct exposure to antibiotic‐resistant pathogens or selective pressure on the soil microbial community. This review summarizes current literature on the fate of antibiotics, ARB, and antibiotic resistance genes (ARGs) during anaerobic digestion and composting of manure and wastewater residuals. Studies have shown that removal of antibiotics varies widely during mesophilic anaerobic digestion, even within the same class of antibiotics. Research on ARB shows a wide range of removal under mesophilic conditions, with nearly complete removal under thermophilic conditions. Research on 16 antibiotics in 11 different studies using both bench‐scale and farm‐scale composting systems demonstrates that composting significantly reduces levels of extractable antibiotics in livestock manure in nearly all cases. Calculated half‐lives ranged from 0.9 to 16 d for most antibiotics. There is more limited evidence that levels of ARB are also reduced by composting. Studies of the fate of ARGs show mixed evidence for removal during both mesophilic and thermophilic anaerobic digestion and during thermophilic composting. Antibiotic resistance genes are DNA structures, so they may persist until the DNA structure is degraded, yet the bacterium may have been rendered nonviable long before the DNA is completely degraded. Additional research would be of value to determine optimum anaerobic digestion and composting conditions for removal of ARB and to increase understanding of the fate of ARGs during anaerobic digestion and composting. Core Ideas Anaerobic digestion temperature affects the removal efficiency of antibiotics. Many antibiotics degrade during composting; half‐lives typically range from 0.9 to 16 d. Some ARB and ARGs persist during mesophilic anaerobic digestion. Thermophilic treatments are more effective at decreasing ARB and ARGs.
doi_str_mv	10.2134/jeq2015.05.0256
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This review summarizes current literature on the fate of antibiotics, ARB, and antibiotic resistance genes (ARGs) during anaerobic digestion and composting of manure and wastewater residuals. Studies have shown that removal of antibiotics varies widely during mesophilic anaerobic digestion, even within the same class of antibiotics. Research on ARB shows a wide range of removal under mesophilic conditions, with nearly complete removal under thermophilic conditions. Research on 16 antibiotics in 11 different studies using both bench‐scale and farm‐scale composting systems demonstrates that composting significantly reduces levels of extractable antibiotics in livestock manure in nearly all cases. Calculated half‐lives ranged from 0.9 to 16 d for most antibiotics. There is more limited evidence that levels of ARB are also reduced by composting. Studies of the fate of ARGs show mixed evidence for removal during both mesophilic and thermophilic anaerobic digestion and during thermophilic composting. Antibiotic resistance genes are DNA structures, so they may persist until the DNA structure is degraded, yet the bacterium may have been rendered nonviable long before the DNA is completely degraded. Additional research would be of value to determine optimum anaerobic digestion and composting conditions for removal of ARB and to increase understanding of the fate of ARGs during anaerobic digestion and composting. Core Ideas Anaerobic digestion temperature affects the removal efficiency of antibiotics. Many antibiotics degrade during composting; half‐lives typically range from 0.9 to 16 d. Some ARB and ARGs persist during mesophilic anaerobic digestion. 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Studies of the fate of ARGs show mixed evidence for removal during both mesophilic and thermophilic anaerobic digestion and during thermophilic composting. Antibiotic resistance genes are DNA structures, so they may persist until the DNA structure is degraded, yet the bacterium may have been rendered nonviable long before the DNA is completely degraded. Additional research would be of value to determine optimum anaerobic digestion and composting conditions for removal of ARB and to increase understanding of the fate of ARGs during anaerobic digestion and composting. Core Ideas Anaerobic digestion temperature affects the removal efficiency of antibiotics. Many antibiotics degrade during composting; half‐lives typically range from 0.9 to 16 d. Some ARB and ARGs persist during mesophilic anaerobic digestion. 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subjects	Anti-Bacterial Agents - metabolism Anti-Bacterial Agents - pharmacology Bacteria Composting DNA, Bacterial - metabolism Drug Resistance, Microbial - genetics Humans Manure
title	Fate of Antibiotics and Antibiotic Resistance during Digestion and Composting: A Review
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