微生物粪便污染的多参数监测揭示了多瑙河全流域人类污染占主导地位。

Multiparametric monitoring of microbial faecal pollution reveals the dominance of human contamination along the whole Danube River.

作者信息

Kirschner A K T, Reischer G H, Jakwerth S, Savio D, Ixenmaier S, Toth E, Sommer R, Mach R L, Linke R, Eiler A, Kolarevic S, Farnleitner A H

机构信息

Medical University of Vienna, Institute for Hygiene and Applied Immunology, Water Hygiene, Kinderspitalgasse 15, A-1090 Vienna, Austria; Interuniversity Cooperation Centre for Water & Health, Austria(1).

Interuniversity Cooperation Centre for Water & Health, Austria(1); Technische Universität Wien, Institute for Chemical, Biological and Environmental Engineering, Research Group of Environmental Microbiology and Molecular Diagnostics 166/5/4, Gumpendorferstrasse 1A, A-1060 Vienna, Austria.

出版信息

Water Res. 2017 Nov 1;124:543-555. doi: 10.1016/j.watres.2017.07.052. Epub 2017 Jul 22.

DOI:10.1016/j.watres.2017.07.052

PMID:28806705

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5718294/

Abstract

The microbial faecal pollution of rivers has wide-ranging impacts on a variety of human activities that rely on appropriate river water quality. Thus, detailed knowledge of the extent and origin of microbial faecal pollution is crucial for watershed management activities to maintain safe water use. In this study, the microbial faecal pollution levels were monitored by standard faecal indicator bacteria (SFIB) along a 2580 km stretch of the Danube, the world's most international river, as well as the Danube's most important tributaries. To track the origin of faecal pollution, host-associated Bacteroidetes genetic faecal marker qPCR assays for different host groups were applied in concert with SFIB. The spatial resolution analysis was followed by a time resolution analysis of faecal pollution patterns over 1 year at three selected sites. In this way, a comprehensive faecal pollution map of the total length of the Danube was created, combining substantiated information on both the extent and origin of microbial faecal pollution. Within the environmental data matrix for the river, microbial faecal pollution constituted an independent component and did not cluster with any other measured environmental parameters. Generally, midstream samples representatively depicted the microbial pollution levels at the respective river sites. However, at a few, somewhat unexpected sites, high pollution levels occurred in the lateral zones of the river while the midstream zone had good water quality. Human faecal pollution was demonstrated as the primary pollution source along the whole river, while animal faecal pollution was of minor importance. This study demonstrates that the application of host-associated genetic microbial source tracking markers in concert with the traditional concept of microbial faecal pollution monitoring based on SFIB significantly enhances the knowledge of the extent and origin of microbial faecal pollution patterns in large rivers. It constitutes a powerful tool to guide target-oriented water quality management in large river basins.

摘要

河流中的微生物粪便污染对依赖适宜河流水质的各种人类活动有着广泛影响。因此，详细了解微生物粪便污染的程度和来源对于流域管理活动以维持安全用水至关重要。在本研究中，沿着多瑙河（世界上最具国际性的河流）及其最重要的支流长达2580公里的河段，通过标准粪便指示菌（SFIB）监测微生物粪便污染水平。为追踪粪便污染的来源，针对不同宿主群体的宿主相关拟杆菌属遗传粪便标志物qPCR检测与SFIB协同应用。在空间分辨率分析之后，对三个选定地点的粪便污染模式进行了为期1年的时间分辨率分析。通过这种方式，创建了多瑙河全长的综合粪便污染地图，结合了关于微生物粪便污染程度和来源的详实信息。在河流的环境数据矩阵中，微生物粪便污染构成一个独立成分，且不与任何其他测量的环境参数聚类。一般来说，中游样本代表性地描绘了各个河位点的微生物污染水平。然而，在一些出人意料的地点，河流的侧向区域出现高污染水平，而中游区域水质良好。人类粪便污染被证明是整条河流的主要污染源，而动物粪便污染的重要性较小。本研究表明，将宿主相关的遗传微生物源追踪标志物与基于SFIB的传统微生物粪便污染监测概念协同应用，显著增强了对大型河流中微生物粪便污染模式的程度和来源的认识。它构成了指导大型流域目标导向水质管理的有力工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4ec7/5718294/3ebff8f7ebe7/emss-75199-f001.jpg

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微生物粪便污染的多参数监测揭示了多瑙河全流域人类污染占主导地位。

Multiparametric monitoring of microbial faecal pollution reveals the dominance of human contamination along the whole Danube River.

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