Anaerobic Growth of Microorganisms with Chlorate as an Electron Acceptor

机译：以氯酸盐为电子受体的微生物的厌氧生长

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The ability of microorganisms to use chlorate (ClO3^-) as an electron acceptor for respiration under anaerobic conditions was studied in batch and continuous tests. Complex microbial communities were cultivated anaerobically in defined media containing chlorate, all essential minerals, and acetate as the sole energy and carbon source. It was shown that chlorate was reduced to chloride, while acetate was oxidized to carbon dioxide and water and used as the carbon source for synthesis of new biomass. A biomass yield of 1.9 to 3.8 g of volatile suspended solids per equivalent of available electrons was obtained, showing that anaerobic growth with chlorate as an electron acceptor gives a high energy yield. This indicates that microbial reduction of chlorate to chloride in anaerobic systems is coupled with electron transport phosphorylation.

机译：分批和连续测试研究了微生物在无氧条件下利用氯酸盐（ClO3 ^{-）作为电子受体进行呼吸的能力。在含氯酸盐，所有必需矿物质和乙酸盐作为唯一能源和碳源的特定培养基中厌氧培养复杂的微生物群落。结果表明，氯酸盐被还原成氯化物，而乙酸盐被氧化成二氧化碳和水，并被用作合成新生物质的碳源。每当量可用电子获得的生物质产量为1.9至3.8 g挥发性悬浮固体，这表明以氯酸盐为电子受体的厌氧生长可产生高能量。这表明在厌氧系统中微生物将氯酸盐还原为氯化物与电子传递磷酸化有关。}

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期刊名称 Applied and Environmental Microbiology
作者
Åsa Malmqvist; Thomas Welander; Lars Gunnarsson;
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作者单位

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年(卷),期 1991(57),8
年度 1991
页码 2229–2232
总页数 4
原文格式 PDF
正文语种
中图分类应用微生物学;微生物学;
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专利

1. Anaerobic Growth of Microorganisms with Chlorate as an Electron Acceptor [J] . ?sa Malmqvist, Thomas Welander, Lars Gunnarsson Applied and Environmental Microbiology . 1991,第8期

机译：以氯酸盐为电子受体的微生物的厌氧生长
2. (Per)Chlorate-Reducing Bacteria Can Utilize Aerobic and Anaerobic Pathways of Aromatic Degradation with (Per)Chlorate as an Electron Acceptor [J] . Charlotte I. Carlstr?m, Dana Loutey, Stefan Bauer, MBio . 2015,第2期

机译：减少（氯酸盐）的细菌可以利用（氯）酸盐作为电子受体的好氧和厌氧途径进行芳香分解。
3. Growth of Pseudomonas chloritidismutans AW-1~T on n-alkanes with chlorate as electron acceptor [J] . Mehboob F., Junca H., Schraa G., Applied Microbiology and Biotechnology . 2009,第4期

机译：氯酸假单胞菌AW-1〜T在氯酸为电子受体的正构烷烃上的生长
4. Non-steady Growth Modeling of Anaerobic Consortium of Microorganisms around Methane Seepage [C] . Tetsuo Yamazaki, Rika Takeuchi, Daisuke Monoe, The proceedings of the eighteenth (2008) international offshore and polar engineering conference (ISOPE-2008) . 2008

机译：沼气渗流微生物厌氧菌群的非稳态生长模型
5. Impacts of anaerobic methane oxidation, electron acceptors, and physical controls on net methane emissions from northern peatlands in Alaska and Finland [D] . Miller, Kimberley Elizabeth. 2014

机译：厌氧甲烷氧化，电子受体和物理控制对阿拉斯加和芬兰北部泥炭地甲烷净排放的影响
6. (Per)Chlorate-Reducing Bacteria Can Utilize Aerobic and Anaerobic Pathways of Aromatic Degradation with (Per)Chlorate as an Electron Acceptor [O] . Charlotte I. Carlström, Dana Loutey, Stefan Bauer, 2015

机译：减少（氯酸盐）的细菌可以利用（氯）盐作为电子受体的好氧和厌氧途径进行芳香分解。
7. (Per)Chlorate-Reducing Bacteria Can Utilize Aerobic and Anaerobic Pathways of Aromatic Degradation with (Per)Chlorate as an Electron Acceptor [O] . Charlotte I. Carlström, Dana Loutey, Stefan Bauer, 2015

机译：（每种）氯酸盐还原细菌可以利用芳族降解的有氧和厌氧途径与（每）氯酸盐作为电子受体
8. Humic Substances as Electron Acceptors and Electron Shuttlers in Anaerobic Marine Sediments [R] . McKnight, D. 1998

机译：腐殖质作为厌氧海洋沉积物中的电子受体和电子穿梭器

Anaerobic Growth of Microorganisms with Chlorate as an Electron Acceptor

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