Litcius/Paper detail

Responses of the Soil Bacterial Community, Resistome, and Mobilome to a Decade of Annual Exposure to Macrolide Antibiotics

Liam Brown, Roger Murray, Andrew Scott, Yuan-Ching Tien, Calvin Ho‐Fung Lau, Vera Tai, Edward Topp

2022Applied and Environmental Microbiology25 citationsDOIOpen Access PDF

Abstract

Biosolids, produced from the treatment of sewage sludge, are rich in plant nutrients and are a valuable alternative to inorganic fertilizer when applied to agricultural soil. However, the use of biosolids in agriculture, which are frequently contaminated with pharmaceuticals, such as macrolide antibiotics, may pose a risk to human health by selecting for antibiotic resistance genes that could be transferred to plant-based food destined for human consumption. The consequences of long-term, repeated macrolide antibiotic exposure on the diversity of the soil bacterial community, resistome, and mobilome were evaluated. At unrealistically high concentrations, macrolide antibiotics alter the overall diversity of the resistome and mobilome, enriching for antibiotic resistance genes and mobile genetic elements of concern to human health. However, at realistic antibiotic concentrations, no effect on these endpoints was observed, suggesting that current biosolids land management practices are unlikely to pose a risk to human health due to macrolide antibiotic contamination alone.

Topics & Concepts

ResistomeAntibioticsMacrolide AntibioticsBiologyMicrobiologySoil microbiologyBacteriaAntibiotic resistanceErythromycinGeneticsIntegronPharmaceutical and Antibiotic Environmental ImpactsGut microbiota and healthAntibiotics Pharmacokinetics and Efficacy
Responses of the Soil Bacterial Community, Resistome, and Mobilome to a Decade of Annual Exposure to Macrolide Antibiotics | Litcius