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    水环境中阿莫西林的分布特征及其风险研究进展

    Research Advances on the Distribution and Risk of Amoxicillin in Aquatic Ecosystems

    • 摘要: 阿莫西林作为一种常用的广谱抗生素,在各种水环境介质中被广泛检出,其环境赋存和生态风险亟待关注.基于文献调研,系统梳理了2003~2022年81篇有关水环境中阿莫西林污染调查的研究数据,构建了水环境中阿莫西林浓度数据库,总结分析了阿莫西林在污水处理厂进出水、地表水、地下水和饮用水中的分布特征和风险.研究结果表明,阿莫西林在水环境的浓度为ng/L至μg/L,其在污水处理厂进出水和地表水中的浓度和检出率显著高于地下水和饮用水(p<0.05,Kruskal Wallis ANOVA).在欠发达国家或新兴经济体国家地表水中,阿莫西林的污染较严重,最高浓度可达n×100μg/L.与湖泊和水库相比,河流中阿莫西林的浓度较高,这与河流受人类活动干扰程度较高密切相关.在人类活动较密集的城市河流和近海中,阿莫西林对藻类具有高生态风险,其对细菌耐药性的影响也不容忽视.

       

      Abstract: Amoxicillin,as one of the most commonly used broad-spectrum antibiotics clinically,has been widely detected in diverse aquatic environments,wherein their distribution and risk need urgent attention.Concentrations and detection frequencies of amoxicillin in aquatic ecosystems were compiled from 81 relevant articles published from 2003 to 2022.We established a database of amoxicillin and analyzed its distribution and risk in influents and effluents of sewage treatment plants,surface water,groundwater,and drinking water.The results showed that amoxicillin concentrations ranged from ng/L to μg/L across different water systems.Significantly higher concentrations and detection frequencies of amoxicillin were observed in influents and effluents of sewage treatment plants and surface water compared to groundwater and drinking water (p<0.05,Kruskal Wallis ANOVA).Surface water in less developed countries or emerging economies exhibited substantial pollution levels,with the highest concentrations reaching several hundreds of μg/L.Rivers generally showed relatively higher amoxicillin concentrations than lakes and reservoirs,likely due to the increased anthropogenic disturbances.Amoxicillin posed high risks to algae in urban rivers and coastal waters characterized by intensive human activities,and its potential to promote the development of antimicrobial resistance cannot be overlooked.

       

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