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

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....

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Bibliographic Details
Published in:Water research (Oxford) 2017-11, Vol.124, p.543-555
Main Authors: 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.
Format: Article
Language:English
Subjects:
Animals
Annan naturresursteknik
assays
bacteroidales
Bacteroidetes
Ecology
Ekologi
Engineering
Environmental Monitoring
Environmental Sciences
Environmental Sciences & Ecology
Feces
Host associated genetic faecal markers
Humans
Joint Danube survey
Large river
markers
Microbial source tracking
Miljövetenskap
network
Oceanografi, hydrologi, vattenresurser
Oceanography, Hydrology, Water Resources
Other Environmental Engineering
qPCR
real-time pcr
ribosomal-rna gene
Rivers
source tracking
Standard faecal indicator bacteria
water
Water Microbiology
Water Pollution
Water Resources
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Summary: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. Longitudinal development of E. coli and Enterococci concentrations along the increasing discharge (grey shaded area) of the Danube in the midstream, at the left (upper line) and the right river-side (lower line) and in the tributaries sampled during JDS 2013. Not-sampled tribtaries are also indiacted on the x-axes. Symbol size varies according to log-transformed E. coli and Enterococci concentrations. Colours depict t
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2017.07.052