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Effect of temperature on removal of antibiotic resistance genes by anaerobic digestion of activated sludge revealed by metagenomic approach

بواسطة Pruden, Amy , Yang, Ying , Zhang, Tong

في Activated sludge / Anaerobic digestion / Anaerobiosis / Analysis / Antibiotic resistance / Antibiotics / Bacteria / Biogas / Biomedical and Life Sciences / Bioreactors / Biotechnology / digestion / DNA / Drug resistance / Drug Resistance, Bacterial - radiation effects / Effluents / Efflux / Environmental Biotechnology / Erythromycin / esterases / Gene mutation / Genes / Genes, Bacterial / Genetic aspects / Genetics / Genomics / Horizontal transfer / hydrolysis / Life Sciences / Metagenomics / Microbial drug resistance / Microbial Genetics and Genomics / Microbiology / Pathogens / Relative abundance / Sewage - microbiology / Sludge / Sludge digestion / Staphylococcus infections / Studies / Temperature / Temperature effects / transporters / Waste Water - microbiology / wastewater / Water treatment

2015

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Effect of temperature on removal of antibiotic resistance genes by anaerobic digestion of activated sludge revealed by metagenomic approach

بواسطة Pruden, Amy , Yang, Ying , Zhang, Tong

2015

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Effect of temperature on removal of antibiotic resistance genes by anaerobic digestion of activated sludge revealed by metagenomic approach

بواسطة Pruden, Amy , Yang, Ying , Zhang, Tong

2015

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Journal Article

Effect of temperature on removal of antibiotic resistance genes by anaerobic digestion of activated sludge revealed by metagenomic approach

Pruden, Amy,

Yang, Ying,

Zhang, Tong

2015

نظرة عامة

As antibiotic resistance continues to spread globally, there is growing interest in the potential to limit the spread of antibiotic resistance genes (ARGs) from wastewater sources. In particular, operational conditions during sludge digestion may serve to discourage selection of resistant bacteria, reduce horizontal transfer of ARGs, and aid in hydrolysis of DNA. This study applied metagenomic analysis to examine the removal efficiency of ARGs through thermophilic and mesophilic anaerobic digestion using bench-scale reactors. Although the relative abundance of various ARGs shifted from influent to effluent sludge, there was no measureable change in the abundance of total ARGs or their diversity in either the thermophilic or mesophilic treatment. Among the 35 major ARG subtypes detected in feed sludge, substantial reductions (removal efficiency >90 %) of 8 and 13 ARGs were achieved by thermophilic and mesophilic digestion, respectively. However, resistance genes of aadA, macB, and sul1 were enriched during the thermophilic anaerobic digestion, while resistance genes of erythromycin esterase type I, sul1, and tetM were enriched during the mesophilic anaerobic digestion. Efflux pump remained to be the major antibiotic resistance mechanism in sludge samples, but the portion of ARGs encoding resistance via target modification increased in the anaerobically digested sludge relative to the feed. Metagenomic analysis provided insight into the potential for anaerobic digestion to mitigate a broad array of ARGs.

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الناشر

Springer Berlin Heidelberg,Springer,Springer Nature B.V

موضوع

Activated sludge

/ Anaerobic digestion

/ Anaerobiosis

/ Analysis

/ Antibiotic resistance

/ Antibiotics

/ Bacteria