Application of a microbial and pathogen source tracking toolbox to identify infrastructure problems in stormwater drainage networks: a case study.

IF 3.7 2区 生物学 Q2 MICROBIOLOGY
Microbiology spectrum Pub Date : 2024-09-03 Epub Date: 2024-08-07 DOI:10.1128/spectrum.00337-24
Liam R Carson, Clint Goodman, Bert van Duin, Norman F Neumann
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引用次数: 0

Abstract

Water scarcity and increasing urbanization are forcing municipalities to consider alternative water sources, such as stormwater, to fill in water supply gaps or address hydromodification of receiving urban streams. Mounting evidence suggests that stormwater is often contaminated with human feces, even in stormwater drainage systems separate from sanitary sewers. Pinpointing sources of human contamination in drainage networks is challenging given the diverse sources of fecal pollution that can impact these systems and the non-specificity of traditional fecal indicator bacteria (FIB) for identifying these host sources. As such, we used a toolbox approach that encompassed microbial source tracking (MST), FIB monitoring, and bacterial pathogen monitoring to investigate microbial contamination of stormwater in an urban municipality. We demonstrate that human sewage frequently contaminated stormwater (in >50% of routine samples), based on the presence of the human fecal marker HF183, and often exceeded microbial water quality criteria. Arcobacter butzleri, a pathogen of emerging concern, was also detected in >50% of routine samples, with 75% of these pathogen-positive samples also being positive for the human fecal marker HF183, suggesting human municipal sewage as the likely source for this pathogen. MST and FIB were used to track human fecal pollution in the drainage network to the most likely point source of contamination, for which a sewage cross-connection was identified and confirmed using tracer dyes. These results point to the ubiquitous presence of human sewage in stormwater and also provide municipalities with the tools to identify sources of anthropogenic contamination in storm drainage networks.IMPORTANCEWater scarcity, increased urbanization, and population growth are driving municipalities worldwide to consider stormwater as an alternative water source in urban environments. However, many studies suggest that stormwater is relatively poor in terms of microbial water quality, is frequently contaminated with human sewage, and therefore could represent a potential health risk depending on the type of exposure (e.g., irrigation of community gardens). Traditional monitoring of water quality based on fecal bacteria does not provide any information about the sources of fecal pollution contaminating stormwater (i.e., animals/human feces). Herein, we present a case study that uses fecal bacterial monitoring, microbial source tracking, and bacterial pathogen analysis to identify a cross-connection that contributed to human fecal intrusion into an urban stormwater network. This microbial toolbox approach can be useful for municipalities in identifying infrastructure problems in stormwater drainage networks to reduce risks associated with water reuse.

应用微生物和病原体源追踪工具箱识别雨水排放网络中的基础设施问题:案例研究。
水资源的稀缺和城市化进程的加快迫使市政当局考虑采用雨水等替代水源来填补供水缺口或解决受纳城市河流的水文改良问题。越来越多的证据表明,雨水经常受到人类粪便的污染,即使在与卫生下水道分开的雨水排水系统中也是如此。由于影响这些系统的粪便污染源多种多样,而且传统的粪便指示菌(FIB)在识别这些宿主源时没有特异性,因此在排水管网中准确定位人类污染源具有挑战性。因此,我们采用了一种工具箱方法,其中包括微生物源追踪 (MST)、FIB 监测和细菌病原体监测,以调查一个城市雨水的微生物污染情况。根据人类粪便标记物 HF183 的存在,我们证明人类污水经常污染雨水(在超过 50% 的常规样本中),并且经常超过微生物水质标准。在超过 50% 的常规样本中还检测到了新出现的病原体 Arcobacter butzleri,其中 75% 的病原体阳性样本的人类粪便标记物 HF183 也呈阳性,这表明人类城市污水可能是这种病原体的来源。利用 MST 和 FIB 追踪排水管网中的人类粪便污染,找到最有可能的污染点源,并利用示踪染料确定和确认了污水交叉连接。这些结果表明,人类排泄物在雨水中无处不在,同时也为市政当局提供了识别雨水排放网络中人为污染源的工具。 重要意义水资源短缺、城市化进程加快以及人口增长,促使世界各地的市政当局考虑将雨水作为城市环境中的替代水源。然而,许多研究表明,雨水的微生物水质相对较差,经常受到人类污水的污染,因此根据接触类型(如灌溉社区花园)的不同,可能会对健康造成潜在风险。传统的以粪便细菌为基础的水质监测无法提供任何有关污染雨水的粪便污染源(即动物/人类粪便)的信息。在本文中,我们介绍了一个案例研究,利用粪便细菌监测、微生物源追踪和细菌病原体分析来确定导致人类粪便侵入城市雨水网络的交叉连接。这种微生物工具箱方法可以帮助市政当局识别雨水排水管网中的基础设施问题,从而降低与中水回用相关的风险。
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来源期刊
Microbiology spectrum
Microbiology spectrum Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
3.20
自引率
5.40%
发文量
1800
期刊介绍: Microbiology Spectrum publishes commissioned review articles on topics in microbiology representing ten content areas: Archaea; Food Microbiology; Bacterial Genetics, Cell Biology, and Physiology; Clinical Microbiology; Environmental Microbiology and Ecology; Eukaryotic Microbes; Genomics, Computational, and Synthetic Microbiology; Immunology; Pathogenesis; and Virology. Reviews are interrelated, with each review linking to other related content. A large board of Microbiology Spectrum editors aids in the development of topics for potential reviews and in the identification of an editor, or editors, who shepherd each collection.
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