The Acute Impact of Arsenic As(III) on the Prokaryotic Community Composition and Selected Bacterial Strains Based on Microcosm Experiments

IF 2.2 4区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES

Geomicrobiology Journal Pub Date : 2023-02-23 DOI:10.1080/01490451.2023.2181469

R. Farkas, M. Toumi, Gorkhmaz Abbaszade, K. Bóka, K. Takáts, E. Tóth

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Abstract

Abstract In the present study, a 3-week microcosm experiment was conducted to assess the acute effect of arsenic trioxide [As(III)] at various concentrations (2.03, 4.06, 7.61, and 25.38 mM) on the bacterial communities. Water from a drinking water system (DWS) containing 6 µg/L (0.0000881 mM) of arsenic was used as a basis for microcosm experiments. Tolerance for As(III) of selectively isolated bacteria was checked based on optical density (OD) measurements which revealed As tolerance of Acidovorax facilis and Pseudomonas extremaustralis strains even at 25.38 mM of As(III). Compared to the control samples, the cell count values of the treated microcosms (DAS1_1, DAS2_1, DAS3_1 and DAS1_2, DAS2_2, DAS3_2) were higher by at least one or two orders of magnitude, even though, diversity indices, calculated from the NGS analysis, decreased. Results of NGS have shown that the structure of the bacterial community has changed as an effect of arsenic: representatives of Planctomycetes (3–6%) decreased while there was a proportional increase in the abundance of Proteobacteria (48–93%). Actinobacteria (2–8%), Bacteroidetes (4–7%), Patescibacteria (3–10%) and Verrucomicrobia (2–4%) were also abundant in the As(III)-treated microcosms. Phyla that contributes to less than 1% of the samples have disappeared already at 2.03 mM of As(III). The most frequent Archaea belonged to Nanoarchaeota (Woesearchaeia) (22–57%) and Thaumarchaeota (Nitrosopumilaceae) (9–40%) in both the control samples and microcosms with 2.03–23.38 mM of As(III). The cell structure of tested bacteria showed partial destruction after As(III) exposure. The ecotoxicological test revealed a cytotoxic effect above 6.67 mM concentration of As(III), genotoxicity could not be proven. Even though, microbes in our microcosms can be characterized by As(III) resistance and show measurable reactions to high As(III) concentrations, low concentrations of arsenic also trigger changes in the composition and diversity indices of the microbial communities. It is possible to cultivate arsenic tolerant microorganisms utilizing As(III) up to 25.38 mM to use them in bioremediation procedures contributing to water-purification processes.

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基于微观实验的砷对原核生物群落组成和菌株选择的急性影响

摘要在本研究中，进行了一项为期3周的微观实验，以评估不同浓度（2.03、4.06、7.61和25.38）的三氧化二砷[As（III）]的急性影响 mM）对细菌群落的影响。来自饮用水系统（DWS）的水，包含6 µg/L（0.0000881 mM）的砷用作微观宇宙实验的基础。根据光密度（OD）测量结果检查选择性分离细菌对As（III）的耐受性，结果显示，即使在25.38 mM的As（III）。与对照样品相比，处理的微宇宙（DAS1_1、DAS2_1、DAS3_1和DAS1_2、DAS2_2、DAS3_2）的细胞计数值高出至少一个或两个数量级，尽管根据NGS分析计算的多样性指数降低了。NGS的结果表明，细菌群落的结构因砷的影响而发生了变化：浮游菌的代表性（3-6%）减少，而变形菌的丰度则成比例增加（48–93%）。在As（III）处理的微宇宙中，放线菌（2-8%）、拟杆菌门（4-7%）、Patescibacteria（3-10%）和Verrucomirobia（2-4%）也很丰富。占样本不到1%的Phyla在2.03时已经消失 mM的As（III）。在对照样品和微宇宙中，最常见的古生物属于纳米古生物（Woesearchaeia）（22-57%）和陶古生物（Nitrosopumilaceae）（9-40%），其数量为2.03–23.38 mM的As（III）。受试细菌的细胞结构在As（III）暴露后显示出部分破坏。生态毒理学测试显示细胞毒性作用高于6.67 mM浓度的As（III），遗传毒性无法证明。尽管我们微观世界中的微生物可以表现出对As（III）的耐药性，并对高As（Ⅲ）浓度表现出可测量的反应，但低浓度的砷也会引发微生物群落的组成和多样性指数的变化。利用高达25.38的As（III）培养耐砷微生物是可能的 mM将它们用于有助于水净化过程的生物修复程序中。

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来源期刊

Geomicrobiology Journal 环境科学-地球科学综合

CiteScore

4.80

自引率

8.70%

发文量

审稿时长

3.3 months

期刊介绍： Geomicrobiology Journal is a unified vehicle for research and review articles in geomicrobiology and microbial biogeochemistry. One or two special issues devoted to specific geomicrobiological topics are published each year. General articles deal with microbial transformations of geologically important minerals and elements, including those that occur in marine and freshwater environments, soils, mineral deposits and rock formations, and the environmental biogeochemical impact of these transformations. In this context, the functions of Bacteria and Archaea, yeasts, filamentous fungi, micro-algae, protists, and their viruses as geochemical agents are examined. Articles may stress the nature of specific geologically important microorganisms and their activities, or the environmental and geological consequences of geomicrobiological activity. The Journal covers an array of topics such as: microbial weathering; microbial roles in the formation and degradation of specific minerals; mineralization of organic matter; petroleum microbiology; subsurface microbiology; biofilm form and function, and other interfacial phenomena of geological importance; biogeochemical cycling of elements; isotopic fractionation; paleomicrobiology. Applied topics such as bioleaching microbiology, geomicrobiological prospecting, and groundwater pollution microbiology are addressed. New methods and techniques applied in geomicrobiological studies are also considered.