Lead or cadmium co-contamination alters benzene and toluene degrading bacterial communities

IF 3.1 4区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biodegradation Pub Date : 2023-02-25 DOI:10.1007/s10532-023-10021-w
Aniko Konya, Brice A. Fiddler, Olivia Bunch, Kendra Z. Hess, Cade Ferguson, Mark J. Krzmarzick
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Abstract

Co-contamination of hydrocarbons with heavy metals in soils often complicates and hinders bioremediation. A comprehensive characterization of site-specific degraders at contaminated sites can help determine if in situ bioremediation processes are sufficient. This study aimed to identify differences in benzene and toluene degradation rates and the microbial communities enriched under aerobic conditions when different concentrations of Cd and Pb are introduced. Microcosms were used to study the degradation of 0.23 mM benzene or 0.19 mM toluene under various concentrations of Pb (up to 240 µM) and Cd (up to 440 µM). Soil collected from a stormwater retention basin receiving runoff from a large parking lot was utilized to seed the microcosms. The hydrocarbon degradation time and rates were measured. After further rounds of amendment and degradation of benzene and toluene, 16S rRNA gene amplicon sequencing and quantitative PCR were used to ascertain the microbial communities enriched under the various concentrations of the heavy metals. The initial degradation time for toluene and benzene was 7 to 9 days and 10 to 13 days, respectively. Degradation rates were similar for each hydrocarbon despite the concentration and presence of metal co-contaminant, however, the enriched microbial communities under each condition differed. Microcosms without metal co-contaminant contained a diversity of putative benzene and toluene degrading bacteria. Cd strongly reduced the richness of the microbial communities. With higher levels of heavy metals, genera such as Ralstonia, Cupriavidus, Azoarcus, and Rhodococcus became more dominant under various conditions. The study finds that highly efficient benzene- and toluene-degrading consortia can develop under variations of heavy metal co-contamination, but the consortia are dependent on the heavy metal type and concentrations.

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铅或镉的共同污染改变了苯和甲苯降解细菌群落
土壤中碳氢化合物与重金属的共同污染往往使生物修复变得复杂和阻碍。在污染地点对特定地点的降解物进行全面表征可以帮助确定原位生物修复过程是否足够。本研究旨在了解不同浓度Cd和Pb对好氧条件下苯和甲苯降解速率的影响以及微生物群落的富集情况。在不同浓度的Pb(最高240µM)和Cd(最高440µM)条件下,采用显微实验研究了0.23 mM苯和0.19 mM甲苯的降解情况。从一个大型停车场径流的雨水截留池收集的土壤被用来播种微观世界。测定了烃的降解时间和速率。在对苯和甲苯进行进一步的修饰和降解后,利用16S rRNA基因扩增子测序和定量PCR确定了在不同浓度重金属下富集的微生物群落。对甲苯和苯的初始降解时间分别为7 ~ 9 d和10 ~ 13 d。尽管金属共污染物的浓度和存在,但每种烃的降解率相似,但每种条件下富集的微生物群落不同。没有金属共污染的环境中含有多种苯和甲苯降解细菌。Cd显著降低了微生物群落的丰富度。随着重金属水平的提高,Ralstonia、Cupriavidus、Azoarcus和Rhodococcus等属在各种条件下都变得更占优势。研究发现,在不同重金属共污染条件下,均可形成高效的苯、甲苯降解菌群,但降解菌群与重金属类型和浓度有关。
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来源期刊
Biodegradation
Biodegradation 工程技术-生物工程与应用微生物
CiteScore
5.60
自引率
0.00%
发文量
36
审稿时长
6 months
期刊介绍: Biodegradation publishes papers, reviews and mini-reviews on the biotransformation, mineralization, detoxification, recycling, amelioration or treatment of chemicals or waste materials by naturally-occurring microbial strains, microbial associations, or recombinant organisms. Coverage spans a range of topics, including Biochemistry of biodegradative pathways; Genetics of biodegradative organisms and development of recombinant biodegrading organisms; Molecular biology-based studies of biodegradative microbial communities; Enhancement of naturally-occurring biodegradative properties and activities. Also featured are novel applications of biodegradation and biotransformation technology, to soil, water, sewage, heavy metals and radionuclides, organohalogens, high-COD wastes, straight-, branched-chain and aromatic hydrocarbons; Coverage extends to design and scale-up of laboratory processes and bioreactor systems. Also offered are papers on economic and legal aspects of biological treatment of waste.
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