Distribution of antibiotic resistance genes and bacteria from six atmospheric environments: Exposure risk to human

生物 污染物 细菌 寄主(生物学) 抗生素 环境化学 微生物学 生态学 四环素 环境科学 化学 遗传学
作者
Yizhu Wang,Can Wang,Song Lu
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:694: 133750-133750 被引量:86
标识
DOI:10.1016/j.scitotenv.2019.133750
摘要

Antibiotic resistance genes (ARGs), as an emerging environmental pollutant, have received widespread attention. There are many studies on ARGs in water and soil. However, there are few studies on airborne ARGs. We used qPCR to detect 19 ARG subtypes in six atmospheric environments. Among the different atmospheric environments including wastewater treatment plant (fine screens and sludge thickener), bathroom, laboratory, hospital and outdoor, the highest total concentration of ARGs is detected in the haze outdoor (9 × 105 copies/m3), while the lowest is in the bathroom atmosphere (4.2 × 104 copies/m3). Furthermore, β-lactam ARGs are found to be the dominant ARGs in these 6 atmospheric environments. Due to the large number and widespread use of antibiotics, the airborne ARGs in hospital have the highest diversity and equitability. The β-lactam ARGs are significantly positively correlated with sulfonamides ARGs, indicating the mechanism of co-resistance since these two ARGs may be on the same genetic elements and thus simultaneously exhibit both resistances. The network analysis provides potential host information between the airborne ARGs and the coexisted microbial taxa. Sphingomonas and Bradyhizoblum strains presumably host for tetracycline and β-lactam ARGs, respectively. The ADDoutdoor of blaTEM-1 was 7.8 × 105 copies/d/kg, more than the ADD (7.6 × 103 copies/d/kg) of blaTEM-1 by drinking water. We can't ignore ARGs in the atmospheric environments.
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