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首页> 外文期刊>Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies >Mixed-culture aerobic anoxygenic photosynthetic bacterial consortia reduce nitrate: Core species dynamics, co-interactions and assessment in raw water of reservoirs
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Mixed-culture aerobic anoxygenic photosynthetic bacterial consortia reduce nitrate: Core species dynamics, co-interactions and assessment in raw water of reservoirs

机译:混合培养有氧缺氧性光合细菌结合降低硝酸盐:核心种类动态,水库原水中的共同相互作用和评估

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摘要

Three consortia of mixed-culture Aerobic Anoxygenic Photosynthetic Bacteria (AAPB) with excellent aerobic denitrifying ability were isolated from drinking water source reservoirs. The results showed that the removal of dissolved organic carbon (DOC) and nitrate nitrogen (NO3--N) by mixed-culture AAPB were higher than 90% and 99%, respectively. The Illumina MiSeq sequencing of pufM gene revealed that the dominant genera and their relative abundance changed over the culture periods. Sphingomonas sanxanigenens was the most dominant species observed at 9 h, whereas at 48 h, the most abundant species was Rhodobacter blasticus. A network analysis demonstrated that the co-interactions among the different genera were complex and variable. Mixed-culture AAPB removed more than 30% of NO3--N and 25% of DOC from the source water and this study suggests that mixed-culture AAPB can be regarded as a latent denitrifying microbial inoculum in the reservoir raw water treatment.
机译:饮用水源贮存器分离出具有优异的有氧脱氮能力的混合培养的有氧含氧氧基氧化光合细菌(AAPB)的三个联盟。 结果表明,除去溶解的有机碳(DOC)和硝酸氮(NO3 - N)分别高于90%和99%。 PUFM基因的Illumina miseq测序显示,主导属及其相对丰度在培养期内变化。 Spingomonas Sanxanigenens是9小时观察到的最主占优势的物种,而在48小时,最丰富的物种是乳腺菌的乳腺菌。 网络分析表明,不同的属之间的共同相互作用是复杂的和可变的。 混合培养AAPB从源水中移除了超过30%的NO3 - N和25%的DOC,本研究表明,混合培养AAPB可以被视为水库原水处理中的潜在歧化的微生物接种物。

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  • 作者

    Zhang Haihan; Wang Yan; Huang Tinglin; Liu Kaiwen; Huang Xin; Ma Ben; Li Nan; Sekar Raju;

  • 作者单位

    Xian Univ Architecture &

    Technol Sch Municipal &

    Environm Engn MOE Shaanxi Key Lab Environm Engn Key Lab Northwest W Xian 710055 Peoples R China;

    Xian Univ Architecture &

    Technol Sch Municipal &

    Environm Engn MOE Shaanxi Key Lab Environm Engn Key Lab Northwest W Xian 710055 Peoples R China;

    Xian Univ Architecture &

    Technol Sch Municipal &

    Environm Engn MOE Shaanxi Key Lab Environm Engn Key Lab Northwest W Xian 710055 Peoples R China;

    Xian Univ Architecture &

    Technol Sch Municipal &

    Environm Engn MOE Shaanxi Key Lab Environm Engn Key Lab Northwest W Xian 710055 Peoples R China;

    Xian Univ Architecture &

    Technol Sch Municipal &

    Environm Engn MOE Shaanxi Key Lab Environm Engn Key Lab Northwest W Xian 710055 Peoples R China;

    Xian Univ Architecture &

    Technol Sch Municipal &

    Environm Engn MOE Shaanxi Key Lab Environm Engn Key Lab Northwest W Xian 710055 Peoples R China;

    Xian Univ Architecture &

    Technol Sch Municipal &

    Environm Engn MOE Shaanxi Key Lab Environm Engn Key Lab Northwest W Xian 710055 Peoples R China;

    Xian Jiaotong Liverpool Univ Dept Biol Sci Suzhou 215123 Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 生物科学;
  • 关键词

    Aerobic anoxygenic photosynthetic bacteria; Co-occurrence; Nitrate removal; pufM gene; Reservoirs;

    机译:有氧缺氧性光合细菌;共同发生;硝酸盐去除;pufm基因;水库;

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