Effects and mechanisms of reclaimed water irrigation and tillage treatment on the propagation of antibiotic resistome in soil

被引：0

作者：

Liu, Yiyi ^{[1
]}

Chen, Haiyang ^{[1
,2
]}

Liu, Chang ^{[1
]}

Wang, Rui ^{[1
]}

Zhang, Zhirou ^{[1
]}

机构：

[1] College of Water Sciences, Beijing Normal University, No 19, Xinjiekouwai Street, Beijing

[2] Engineering Research Center of Groundwater Pollution Control and Remediation, Ministry of Education, Beijing

来源：

Science of the Total Environment | 2025年 / 968卷

基金：

中国国家自然科学基金;

关键词：

Antibiotic resistance genes; Metagenomic analysis; Reclaimed water; Resistome risk; Soil irrigation;

D O I：

10.1016/j.scitotenv.2025.178935

中图分类号：

学科分类号：

摘要：

Reclaimed water irrigation can alleviate water resource pressure, while soil tillage is a common agricultural practice to increase crop yield. However, both of these practices may lead to the propagation of antibiotic resistance genes (ARGs). To date, there has been little research that has systematically investigated this issue. To fill this gap, this study has conducted microcosmic experiments to reveal the effect and mechanisms of using reclaimed water for irrigation and tillage treatment on the propagation of ARGs in soil, by utilizing high-throughput sequencing-based metagenomic assembly analysis approaches. The results showed irrigation significantly enhanced the abundance and diversity of ARGs in the soil. Compared to the initial soil, the total coverage of ARGs in the irrigated soil increased by 14.0 % (without tillage) to 22.7 % (with tillage). In particular, tillage treatment facilitated the enhancement of antibiotic resistome in the environment. The analysis with null model suggested soil tillage enabled ecological drift (52.4 %–66.7 %) to dominate the ARGs. Quantitative source apportionment using a machine learning-based microbial source tracking tool showed the irrigation exhibited considerable effect on the ARGs in the soil, with an average contribution of about 13.3 %–17.0 %. Network analysis revealed a close association of ARGs with mobile genetic elements (MGEs) and virulence factors, indicating potential dissemination risk of ARGs in the soil. Microbial communities, MGEs, and environmental factors collectively shaped the ARGs in the environment. Relatively, soil tillage enhanced the complex and stability of network structure and led to the colonization of ARGs in modular manner, resulting in higher contribution of ecological drift to soil resistome. Findings of this study will contribute to the management of resistome risks in reclaimed water utilization and agricultural activities for protecting soil ecosystem safety and public health. © 2025 Elsevier B.V.

引用

共 69 条

[1]

Baral D., Dvorak B.I., Admiraal D., Jia S., Zhang C., Li X., Tracking the sources of antibiotic resistance genes in an urban stream during wet weather using shotgun metagenomic analyses, Environ. Sci. Technol., 52, 16, pp. 9033-9044, (2018)

[2]

Berendonk T.U., Manaia C.M., Merlin C., Fatta-Kassinos D., Cytryn E., Walsh F., Buergmann H., Sorum H., Norstrom M., Pons M., Kreuzinger N., Huovinen P., Stefani S., Schwartz T., Kisand V., Baquero F., Martinez J.L., Tackling antibiotic resistance: the environmental framework, Nat. Rev. Microbiol., 13, 5, pp. 310-317, (2015)

[3]

Brouder S.M., Gomez-Macpherson H., The impact of conservation agriculture on smallholder agricultural yields: a scoping review of the evidence, Agric. Ecosyst. Environ., 187, pp. 11-32, (2014)

[4]

Chase J.M., Stochastic community assembly causes higher biodiversity in more productive environments, Science, 328, pp. 1388-1391, (2010)

[5]

Chen C., Li J., Chen P., Ding R., Zhang P., Li X., Occurrence of antibiotics and antibiotic resistances in soils from wastewater irrigation areas in Beijing and Tianjin, China, Environ. Pollut., 193, pp. 94-101, (2014)

[6]

Chen J., Wei X., Liu Y., Ying G., Liu S., He L., Su H., Hu L., Chen F., Yang Y., Removal of antibiotics and antibiotic resistance genes from domestic sewage by constructed wetlands: optimization of wetland substrates and hydraulic loading, Sci. Total Environ., 565, pp. 240-248, (2016)

[7]

Chen H., Bai X., Li Y., Jing L., Chen R., Teng Y., Source identification of antibiotic resistance genes in a peri-urban river using novel crAssphage marker genes and metagenomic signatures, Water Res., 167, (2019)

[8]

Chen H., Jing L., Yao Z., Meng F., Teng Y., Prevalence, source and risk of antibiotic resistance genes in the sediments of Lake Tai (China) deciphered by metagenomic assembly: a comparison with other global lakes, Environ. Int., 127, pp. 267-275, (2019)

[9]

Chen H., Li Y., Sun W., Song L., Zuo R., Teng Y., Characterization and source identification of antibiotic resistance genes in the sediments of an interconnected river-lake system, Environ. Int., (2020)

[10]

Chen H., Liu C., Teng Y., Zhang Z., Chen Y., Yang Y., Environmental risk characterization and ecological process determination of bacterial antibiotic resistome in lake sediments, Environ. Int., 147, (2021)

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