4.7 Article

Spatiotemporal dynamic changes of antibiotic resistance genes in constructed wetlands and associated influencing factors*

期刊

ENVIRONMENTAL POLLUTION
卷 303, 期 -, 页码 -

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.envpol.2022.119176

关键词

Constructed wetland; Sulfonamides; Antibiotic resistance genes; Driving factors; Selection mode

资金

  1. National Key R & D Program of China [2018YFE0103300]
  2. Strategic Priority Research Program of the Chinese Academy of Sciences [XDA23030203]

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This study explored the spatiotemporal dynamics of sulfonamide antibiotic resistance genes (ARGs) in vertical upflow subsurface flow constructed wetlands (VUSFCW). The results showed that the distribution of ARGs varied among different layers, with the bottom layer being the main stage of removal. Physical-chemical factors, microorganisms, and antibiotics indirectly influenced the distribution of ARGs through mobile genetic elements. Potential host species of ARGs were more abundant in summer compared to winter. VUSFCW showed effectiveness in reducing the abundance of ARGs and the risk of pathogens carrying ARGs.
A better understanding of the spatiotemporal dynamics and influencing factors of sulfonamide antibiotic resistance genes (ARGs) distribution in subsurface flow constructed wetlands is essential to improve the ARGs removal efficiency. The spatiotemporal dynamics of sulfonamide ARGs were explored in the vertical upflow subsurface flow constructed wetland (VUSFCW). The results showed that the absolute abundance of ARGs presented a trend of bottom layer > middle layer > top layer. The relative abundance of ARGs decreased significantly from the bottom layer to the middle layer, but increased in the top layer. The bottom layer was the main stage to remove ARGs. The absolute abundance of ARGs at each point in summer was significantly higher than that in winter. Based on the spatiotemporal distribution of ARGs, the internal mechanism of ARGs dynamic change was explored by the partial least square path analysis model. The results showed that physical-chemical factors, microorganisms and antibiotics indirectly affected the spatiotemporal distribution of ARGs mainly through mobile genetic elements. The indirect influence coefficients of physical-chemical factors, microorganisms and antibiotics on the spatiotemporal distribution of ARGs were 0.505, 0.221 and 0.98 respectively. The direct influence coefficient of MGEs on the spatiotemporal distribution of ARGs was 0.895. The results of network analysis showed that the potential host species of ARGs in summer were more abundant than those in winter. The selection mode of sulfonamide ARGs to potential hosts was nonspecific. There is a risk of sulfonamide ARGs infecting pathogens in VUSFCW. Fortunately, VUSFCW has proven effective in reducing the absolute abundance of ARGs and the potential risk of pathogens carrying ARGs. These findings provide a model simulation and theoretical basis for effectively reducing the threat of ARGs.

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