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Uncovering the prevalence and drivers of antibiotic resistance genes in soils across different land-use types

丰度(生态学) 非生物成分 抗性(生态学) 生态学 土地利用 生物 生态系统 农用地 农业 生物多样性 扩增子测序 土壤水分 地理 16S核糖体RNA 遗传学 细菌
作者
Jie Wu,Shumin Guo,Haiyan Lin,Kejie Li,Zhutao Li,Jinyang Wang,William H. Gaze,Jianwen Zou
出处
期刊:Journal of Environmental Management [Elsevier BV]
卷期号:344: 118920-118920 被引量:20
标识
DOI:10.1016/j.jenvman.2023.118920
摘要

The emergence and spread of antibiotic resistance genes (ARGs) in soil due to animal excreta and organic waste is a major threat to human health and ecosystems, and global efforts are required to tackle the issue. However, there is limited knowledge of the variation in ARG prevalence and diversity resulting from different land-use patterns and underlying driving factors in soils. This study aimed to comprehensively characterize the profile of ARGs and mobile genetic elements and their drivers in soil samples collected from 11 provinces across China, representing three different land-use types, using high-throughput quantitative polymerase chain reaction and 16S rRNA amplicon sequencing. Our results showed that agricultural soil had the highest abundance and diversity of ARGs, followed by tea plantation and forest land. A total of 124 unique ARGs were detected in all samples, with shared subtypes among different land-use patterns indicating a common origin or high transmission frequency. Moreover, significant differences in ARG distribution were observed among different geographical regions, with the greatest enrichment of ARGs found in southern China. Biotic and abiotic factors, including soil properties, climatic factors, and bacterial diversity, were identified as the primary drivers associated with ARG abundance, explaining 71.8% of total ARG variation. The findings of our study demonstrate that different land-use patterns are associated with variations in ARG abundance in soil, with agricultural practices posing the greatest risk to human health and ecosystems regarding ARGs. Our identification of biotic and abiotic drivers of ARG abundance provides valuable insights into strategies for mitigating the spread of these genes. This study emphasizes the need for coordinated and integrated approaches to address the global antimicrobial resistance crisis.
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