Human and animal microbial source tracking in a tropical river with multiple land use activities

The enhancement and restoration of the water quality of deteriorating surface water resources can be challenging, particularly for rivers with multiple usages, such as agriculture, animal husbandry, human residence, and industries. Recently, the performance of DNA-based microbial source tracking (MS...

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Bibliographic Details
Published in:International journal of hygiene and environmental health 2019-05, Vol.222 (4), p.645-654
Main Authors: Kongprajug, Akechai, Chyerochana, Natcha, Somnark, Pornjira, Leelapanang Kampaengthong, Pinida, Mongkolsuk, Skorn, Sirikanchana, Kwanrawee
Format: Article
Language:English
Subjects:
Animals
Bacteroidales
Cattle
Environmental Monitoring - methods
Fecal indicators
Human Activities
Humans
Microbial source tracking
PCR
qPCR
Rivers - microbiology
Sewage
Swine
Thailand
Water Microbiology
Water Pollution - analysis
Water Quality
Water quality monitoring
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Summary:The enhancement and restoration of the water quality of deteriorating surface water resources can be challenging, particularly for rivers with multiple usages, such as agriculture, animal husbandry, human residence, and industries. Recently, the performance of DNA-based microbial source tracking (MST) indicators detected by end-point and quantitative PCR assays for identifying sources of fecal pollution from human sewage, swine, and cattle and non-host-specific (universal) fecal pollution in the Tha Chin River basin, Thailand, was evaluated. The present study monitored these validated MST markers and various physicochemical and microbial water quality parameters in samples collected from twelve stations along the Tha Chin River during four sampling events in the wet and dry seasons. No significant difference in precipitation was observed between the wet and dry samplings. Universal markers (both PCR and qPCR) were detected in all 48 samples, indicating persistent and continuing fecal contamination. The sewage- and swine-specific qPCR marker concentrations did not vary among the sampling events, whereas cattle-specific qPCR markers were detected only in the wet season. Animal-specific markers were detected in the lower Tha Chin River section, which is characterized by intensive animal farming. Sewage-specific markers were also found in the lower section and near an upstream residential area. The high agreement (87.5–100%) between the PCR and qPCR results suggested that PCR could serve as a lower-cost MST screening test that requires less technical expertise. A multivariate analysis conducted using the survival analysis procedure to include censored data also emphasized the high pollution in the lower section of the river at all sampling events. Universal and swine-specific markers showed moderate correlations with microbial indicators, including total coliforms, fecal coliforms, E. coli, and enterococci. None of the MST markers or microbial parameters were associated with the measured physicochemical parameters. This study provides the first evaluation of MST markers for monitoring surface freshwater in Thailand, and the findings might aid the pollution surveillance of impaired water bodies and the development of strategies for improving their water quality. [Display omitted] •The first MST monitoring study in Thailand's surface freshwater.•Universal markers were present in all 12 stations at all samplings.•Sewage- and swine-specific markers were found in a
ISSN:1438-4639
1618-131X
DOI:10.1016/j.ijheh.2019.01.005