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从寒冷、重度氮污染含水层中获得的厌氧氨氧化菌、硝化细菌和反硝化细菌富集培养物的特性分析

Characterization of Enrichment Cultures of Anammox, Nitrifying and Denitrifying Bacteria Obtained from a Cold, Heavily Nitrogen-Polluted Aquifer.

作者信息

Botchkova Ekaterina, Vishnyakova Anastasia, Popova Nadezhda, Sukhacheva Marina, Kolganova Tatyana, Litti Yuriy, Safonov Alexey

机构信息

Winogradsky Institute of Microbiology, "Fundamentals of Biotechnology" Federal Research Center, Russian Academy of Sciences, 117312 Moscow, Russia.

Frumkin Institute of Physical Chemistry and Electrochemistry, Russian Academy of Sciences, 117312 Moscow, Russia.

出版信息

Biology (Basel). 2023 Jan 30;12(2):221. doi: 10.3390/biology12020221.

DOI:10.3390/biology12020221
PMID:36829499
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9952944/
Abstract

Anammox bacteria related to Scalindua were recently discovered in a cold (7.5 °C) aquifer near sludge repositories containing solid wastes of uranium and processed polymetallic concentrate. Groundwater has a very high level of nitrate and ammonia pollution (up to 10 and 0.5 g/L, respectively) and a very low content of organic carbon (2.5 mg/L). To assess the potential for bioremediation of polluted groundwater in situ, enrichment cultures of anammox, nitrifying, and denitrifying bacteria were obtained and analyzed. Fed-batch enrichment of anammox bacteria was not successful. Stable removal of ammonium and nitrite (up to 100%) was achieved in a continuous-flow reactor packed with a nonwoven fabric at 15 °C, and enrichment in anammox bacteria was confirmed by FISH and qPCR assays. The relatively low total N removal efficiency (up to 55%) was due to nonstoichiometric nitrate buildup. This phenomenon can be explained by a shift in the metabolism of anammox bacteria towards the production of more nitrates and less N at low temperatures compared to the canonical stoichiometry. In addition, the too high an estimate of specific anammox activity suggests that N cycle microbial groups other than anammox bacteria may have contributed significantly to N removal. Stable nitrite production was observed in the denitrifying enrichment culture, while no "conventional" nitrifiers were found in the corresponding enrichment cultures. was a common taxon for all microbial communities, indicating its exclusive role in this ecosystem. This study opens up new knowledge about the metabolic capabilities of N cycle bacteria and potential approaches for sustainable bioremediation of heavily N-polluted cold ecosystems.

摘要

最近,在一个寒冷(7.5°C)的含水层中发现了与“Scalindua”相关的厌氧氨氧化细菌,该含水层靠近含有铀固体废物和加工过的多金属精矿的污泥储存库。地下水的硝酸盐和氨污染水平非常高(分别高达10克/升和0.5克/升),而有机碳含量非常低(2.5毫克/升)。为了评估原位生物修复受污染地下水的潜力,获得并分析了厌氧氨氧化、硝化和反硝化细菌的富集培养物。厌氧氨氧化细菌的补料分批富集未成功。在15°C下填充无纺布的连续流反应器中实现了铵和亚硝酸盐的稳定去除(高达100%),通过荧光原位杂交(FISH)和定量聚合酶链反应(qPCR)分析确认了厌氧氨氧化细菌的富集。总氮去除效率相对较低(高达55%)是由于硝酸盐的非化学计量积累。与标准化学计量相比,这种现象可以解释为在低温下厌氧氨氧化细菌的代谢向产生更多硝酸盐和更少氮的方向转变。此外,对特定厌氧氨氧化活性的过高估计表明,除厌氧氨氧化细菌外的氮循环微生物群可能对氮的去除有显著贡献。在反硝化富集培养物中观察到亚硝酸盐的稳定产生,而在相应的富集培养物中未发现“传统”硝化细菌。 是所有微生物群落的常见分类群,表明其在该生态系统中的独特作用。这项研究为氮循环细菌的代谢能力以及重度氮污染寒冷生态系统可持续生物修复的潜在方法开辟了新的知识领域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b7cb/9952944/687149f777fa/biology-12-00221-g008a.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b7cb/9952944/36c83ecef119/biology-12-00221-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b7cb/9952944/687149f777fa/biology-12-00221-g008a.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b7cb/9952944/0bf98dd47230/biology-12-00221-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b7cb/9952944/4bed65218b0c/biology-12-00221-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b7cb/9952944/83e91ad2db93/biology-12-00221-g006.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b7cb/9952944/687149f777fa/biology-12-00221-g008a.jpg

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Nitrogen cycling and microbial cooperation in the terrestrial subsurface.陆地地下环境中的氮循环与微生物协同作用。
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Feammox in alluvial-lacustrine aquifer system: Nitrogen/iron isotopic and biogeochemical evidences.
在冲积-湖泊含水层系统中的 Feammox:氮/铁同位素和生物地球化学证据。
Water Res. 2022 Aug 15;222:118867. doi: 10.1016/j.watres.2022.118867. Epub 2022 Jul 15.
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Risk of colloidal and pseudo-colloidal transport of actinides in nitrate contaminated groundwater near a radioactive waste repository after bioremediation.在放射性废物处置库附近受硝酸盐污染的地下水中,经过生物修复后锕系元素胶体和类胶体迁移的风险。
Sci Rep. 2022 Mar 16;12(1):4557. doi: 10.1038/s41598-022-08593-3.
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