You can bring plankton to fecal indicator organisms, but you cannot make the plankton graze: particle contribution to E. coli and MS2 inactivation in surface waters.

IF 3.7 2区 生物学 Q2 MICROBIOLOGY
mSphere Pub Date : 2024-10-29 Epub Date: 2024-10-03 DOI:10.1128/msphere.00656-24
Lauren C Kennedy, Ava M Mattis, Alexandria B Boehm
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引用次数: 0

Abstract

Organisms that are associated with feces ("fecal indicator organisms") are monitored to assess the potential for fecal contamination of surface water bodies in the United States. However, the effect of the complex mixtures of chemicals and the natural microbial community within surface water ("particles") on fecal indicator organism persistence is not well characterized. We aimed to better understand how particles, including biological (e.g., potential grazers) and inert (e.g., minerals) types, affect the fecal indicator organisms Escherichia coli K-12 ("E. coli") and bacteriophage MS2 in surface waters. A gradient of particles captured by a 0.2-µm-pore-size filter ("large particles") was generated, and the additional particles and dissolved constituents that passed through the filter were deemed "small particles." We measured the ratio of MS2 and E. coli that survived over a 24-h incubation period for each condition (0%-1,000% large-particle concentration in raw water) and completed a linear regression that included large- and small-particle coefficients. Particles were characterized by quantifying plankton, total bacterial cells, and total solids. E. coli and MS2 persistence was not significantly affected by large particles, but small particles had an effect in most waters. Small particles in higher-salinity waters had the largest, negative effect on E. coli and MS2 survival ratios: Significant small-particle coefficients ranged from -1.7 to -5.5 day-1 in the marine waters and -0.89 to -3.2 day-1 in the fresh and estuarine waters. This work will inform remediation efforts for impaired surface water bodies.IMPORTANCEMany surface water bodies in the United States have organisms associated with fecal contamination that exceed regulatory standards and prevent safe recreation. The process to remediate impaired water bodies is complicated because these fecal indicator organisms are affected by the local environmental conditions. For example, the effect of particles in surface water on fecal indicator concentrations are difficult to quantify in a way that is comparable between studies and water bodies. We applied a method that overcomes this limitation to assess the effects of large particles, including natural plankton that could consume the seeded fecal indicator organisms. Even in environmental water samples with diverse communities of plankton present, no effect of large particles on fecal indicator concentrations was observed. These findings have implications for the interpretation and design of future studies, including that particle characterization of surface water may be necessary to assess the fate of fecal indicators.

你可以把浮游生物带到粪便指示生物身边,但你不能让浮游生物吃东西:颗粒物对地表水中大肠杆菌和 MS2 失活的影响。
美国对与粪便有关的生物("粪便指示生物")进行监测,以评估地表水体可能受到的粪便污染。然而,地表水中复杂的化学品混合物和天然微生物群落("颗粒物")对粪便指示生物持久性的影响尚未得到很好的描述。我们的目标是更好地了解颗粒(包括生物(如潜在的食草动物)和惰性(如矿物质)类型)如何影响地表水中的粪便指示生物大肠杆菌 K-12("大肠杆菌")和噬菌体 MS2。通过 0.2 微米孔径的过滤器捕获的颗粒("大颗粒")产生梯度,通过过滤器的其他颗粒和溶解成分被视为 "小颗粒"。我们测量了每种条件(原水中大颗粒物浓度为 0%-1,000%)下 24 小时培养期内存活的 MS2 和大肠杆菌的比率,并完成了包含大颗粒物和小颗粒物系数的线性回归。通过量化浮游生物、细菌细胞总数和总固体来确定颗粒物的特征。大肠杆菌和 MS2 的持久性受大颗粒影响不大,但在大多数水域,小颗粒会产生影响。盐度较高水域中的小颗粒对大肠杆菌和 MS2 存活率的负面影响最大:在海水中,显著的小颗粒系数介于-1.7 到-5.5 天-1 之间,在淡水和河口水域中介于-0.89 到-3.2 天-1 之间。这项工作将为受损地表水体的修复工作提供信息。重要意义美国的许多地表水体中都存在与粪便污染有关的生物,这些污染超过了监管标准,妨碍了安全的娱乐活动。修复受损水体的过程非常复杂,因为这些粪便指示生物会受到当地环境条件的影响。例如,地表水中的颗粒物对粪便指示生物浓度的影响很难在不同的研究和水体之间进行量化比较。我们采用了一种克服这一局限性的方法来评估大颗粒的影响,包括可能吞噬粪便指示生物种子的天然浮游生物。即使在浮游生物群落多样的环境水样中,也没有观察到大颗粒对粪便指示生物浓度的影响。这些发现对未来研究的解释和设计有一定的影响,包括地表水的颗粒特征可能是评估粪便指标归宿的必要条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
mSphere
mSphere Immunology and Microbiology-Microbiology
CiteScore
8.50
自引率
2.10%
发文量
192
审稿时长
11 weeks
期刊介绍: mSphere™ is a multi-disciplinary open-access journal that will focus on rapid publication of fundamental contributions to our understanding of microbiology. Its scope will reflect the immense range of fields within the microbial sciences, creating new opportunities for researchers to share findings that are transforming our understanding of human health and disease, ecosystems, neuroscience, agriculture, energy production, climate change, evolution, biogeochemical cycling, and food and drug production. Submissions will be encouraged of all high-quality work that makes fundamental contributions to our understanding of microbiology. mSphere™ will provide streamlined decisions, while carrying on ASM''s tradition for rigorous peer review.
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