Single-/Co-Driving of Tetracycline, Triclocarban and Zinc on Microbial Community, Resistome and Function in the Cyanobacteria-Blooming Freshwater Ecosystem.

IF 2.7 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Bulletin of Environmental Contamination and Toxicology Pub Date : 2024-07-30 DOI:10.1007/s00128-024-03928-4
Fang-Zhou Gao, Kai-Sheng Yao, Li-Juan Tan, Liang-Ying He, You-Sheng Liu, Guang-Guo Ying
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Abstract

Environmental concentrations of antimicrobials can inhibit Cyanobacteria, but little is known about their effects on Cyanobacteria-blooming freshwater ecosystem. Here, a 21 days' outdoor freshwater mesocosm experiment was established to study effects of single and combined tetracycline, triclocarban and zinc at environmental concentrations on microbial community, microbial function and antimicrobial resistance using amplicon- and metagenomic-based methods. Results showed that three chemicals reshaped the microbial community with magnified effects by chemical combinations. Relative abundance of Cyanobacteria was decreased in all chemical groups, especially from 74.5 to 0.9% in combination of three chemicals. Microbial community networks were more simplified after exposure. Proteobacteria and Bacteroidetes predominated in Cyanobacteria-degraded ecosystems, and their relative abundances were significantly correlated with antibiotic resistome, suggesting that they might host antibiotic resistance genes. Notably, relative abundance (copy per 16 S rRNA gene) of total antibiotic resistome reached five to nine folds higher than the initial abundance in chemical-combined groups. The affected antibiotic resistance genes referred to a wide range of antibiotic classes. However, weak effects were detected on biocide/metal resistance and microbial virulence. Three chemicals posed complicated effects on microbial function, some of which had consistent variations across the groups, while some varied greatly in chemical groups. The findings highlight sensitivity of Cyanobacteria-blooming ecosystem to antimicrobials.

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四环素、三氯卡班和锌对蓝藻-开花淡水生态系统中微生物群落、抗体和功能的单一/联合驱动作用
环境浓度的抗菌剂可抑制蓝藻,但人们对其对蓝藻繁殖的淡水生态系统的影响知之甚少。本文建立了一个为期 21 天的室外淡水中观实验,采用扩增子和元基因组学方法,研究环境浓度下单一或联合使用四环素、三氯卡班和锌对微生物群落、微生物功能和抗菌剂耐药性的影响。结果表明,三种化学物质重塑了微生物群落,化学物质组合的影响更大。在所有化学组中,蓝藻的相对丰度都有所下降,尤其是在三种化学物的组合中,蓝藻的相对丰度从 74.5% 降至 0.9%。接触后,微生物群落网络更加简化。在蓝藻降解的生态系统中,蛋白质细菌和类杆菌占主导地位,它们的相对丰度与抗生素耐药性组显著相关,表明它们可能寄生着抗生素耐药性基因。值得注意的是,总抗生素耐药性组的相对丰度(每个 16 S rRNA 基因的拷贝数)比化学合成组的初始丰度高出 5 到 9 倍。受影响的抗生素耐药性基因涉及多种抗生素类别。不过,对生物杀灭剂/金属抗性和微生物毒力的影响较弱。三种化学物质对微生物的功能产生了复杂的影响,其中一些化学物质在各组中的变化是一致的,而另一些则在化学组中有很大差异。研究结果凸显了蓝藻绽放生态系统对抗菌剂的敏感性。
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来源期刊
CiteScore
5.60
自引率
3.70%
发文量
230
审稿时长
1.7 months
期刊介绍: The Bulletin of Environmental Contamination and Toxicology(BECT) is a peer-reviewed journal that offers rapid review and publication. Accepted submissions will be presented as clear, concise reports of current research for a readership concerned with environmental contamination and toxicology. Scientific quality and clarity are paramount.
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