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Interactive effects of temperature organic carbon and pipe material on microbiota composition and Legionella pneumophila in hot water plumbing systems

机译：温度有机碳和管道材料对热水管道系统中微生物群组成和嗜肺军团菌的相互作用的影响

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BackgroundSeveral biotic and abiotic factors have been reported to influence the proliferation of microbes, including Legionella pneumophila, in hot water premise plumbing systems, but their combined effects have not been systematically evaluated. Here, we utilize simulated household water heaters to examine the effects of stepwise increases in temperature (32–53 °C), pipe material (copper vs. cross-linked polyethylene (PEX)), and influent assimilable organic carbon (0–700 μg/L) on opportunistic pathogen gene copy numbers and the microbiota composition, as determined by quantitative polymerase chain reaction and 16S rRNA gene amplicon sequencing.

机译：背景技术已经报道了几种生物和非生物因素会影响热水前提下的管道系统中微生物的繁殖，包括嗜肺军团菌，但尚未对其综合效果进行系统评估。在这里，我们利用模拟家用热水器检查温度（32–53°C），管道材料（铜与交联聚乙烯（PEX））和进水可吸收有机碳（0–700μg）逐步升高的影响/ L），通过定量聚合酶链反应和16S rRNA基因扩增子测序确定机会性病原体基因拷贝数和微生物群组成。

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期刊名称 Microbiome
作者
Caitlin R. Proctor; Dongjuan Dai; Marc A. Edwards; Amy Pruden;
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作者单位

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年(卷),期 2017(5),-1
年度 2017
页码 130
总页数 15
原文格式 PDF
正文语种
中图分类微生物学;
关键词
Hot water Premise plumbing Legionella Opportunistic pathogen Temperature control Pipe material;

机译：热水;室内水暖;军团菌;机会病原体;温度控制;管道材料;
入库时间 2022-08-17 11:42:40

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专利

1. Interactive effects of temperature, organic carbon, and pipe material on microbiota composition and Legionella pneumophila in hot water plumbing systems [J] . Caitlin R. Proctor, Dongjuan Dai, Marc A. Edwards, Microbiome . 2017,第1期

机译：温度，有机碳和管材在热水管道系统中微生物群组合物和军团肺炎的互动影响
2. Influence of temperature and plumbing material selection on biofilm formation and growth of Legionella pneumophila in a model potable water system containing complex microbial flora. [J] . J Rogers, A B Dowsett, P J Dennis, Applied and Environmental Microbiology . 1994,第5期

机译：在包含复杂微生物菌群的模型饮用水系统中，温度和管道材料选择对嗜肺军团菌生物膜形成和生长的影响。
3. Effect of heat shock on hot water plumbing microbiota and Legionella pneumophila control [J] . Pan Ji, William J. Rhoads, Marc A. Edwards, Microbiome . 2018,第1期

机译：热冲击对热水管道微生物菌和军团菌肺炎控制的影响
4. Inactivation of Legionella pneumophila with Chlorine in Established Simulated Premise Plumbing Systems [C] . Rebekah Martin, Marc Edwards, Amy Pruden, American Water Works Association annual conference & exposition;American Water Works Association . 2015

机译：在已建立的模拟管道系统中用氯灭活嗜肺军团菌
5. Forecasting in the Unseeable: A Mixed Methods Model of Planktonic and Biofilm-Bound Legionella pneumophila in Building Water Systems [D] . Mraz, Alexis Layman. 2018

机译：看不见的预测：建筑自来水系统中浮游生物和生物膜结合的肺炎军团菌的混合方法模型
6. Influence of temperature and plumbing material selection on biofilm formation and growth of Legionella pneumophila in a model potable water system containing complex microbial flora. [O] . J Rogers, A B Dowsett, P J Dennis, 1994

机译：在包含复杂微生物菌群的模型饮用水系统中温度和管道材料选择对嗜肺军团菌生物膜形成和生长的影响。
7. Convective Mixing in Distal Pipes Exacerbates Legionella pneumophila Growth in Hot Water Plumbing [O] . William J. Rhoads, Amy Pruden, Marc A. Edwards 2016

机译：远端管道中的对流混合加剧了热水管道中嗜肺军团菌的生长
8. Relationship between Colonization of Hospital Buildings with 'Legionella pneumophila' and Hot Water Temperatures [R] . Plouffe, J. F. , Webster, L. R. , Hackman, B. 1983

机译：医院建筑物“嗜肺军团菌”定殖与热水温度的关系

Interactive effects of temperature organic carbon and pipe material on microbiota composition and Legionella pneumophila in hot water plumbing systems

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