Your search keyword '"Natcha Chyerochana"' showing total 17 results

1. Human Fecal Pollution Monitoring and Microbial Risk Assessment for Water Reuse Potential in a Coastal Industrial–Residential Mixed-Use Watershed

Author

Akechai Kongprajug, Thammanitchpol Denpetkul, Natcha Chyerochana, Skorn Mongkolsuk, and Kwanrawee Sirikanchana

Subjects

fecal indicator, microbial source tracking, industrial estate, land use, non-potable water reuse, freshwater, Microbiology, QR1-502

Abstract

Rapid economic development has caused industrial expansion into residential communities, leading to higher fecal pollution loads that could be discharged into aquatic environments. However, little is known regarding the potential microbial impact on human health. This study investigated microbial contamination from coastal industrial–residential community areas in nine sampling sites in waterways during three dry events. A general microbial source tracking (MST) marker, GenBac3, was detected in all samples from all three events, indicating continuing fecal pollution in the area, mostly from human sewage contamination. This was shown by the human-specific genetic marker crAssphage (88.9%) and human polyomavirus (HPyVs; 92.6%) detection. Enteric human adenovirus (HAdV40/41) showed three positive results only from residential sites in the first event. No spatial difference was observed for MST markers and traditional fecal indicators (total coliforms and Escherichia coli) in each event. Still, a significantly lower abundance of GenBac3, HPyVs, and total coliforms in the first sampling event was detected. Spearman’s rho analysis indicated a strong correlation among certain pairs of microbial parameters. Multivariate analysis revealed two clusters of samples separated by land use type (industrial vs. residential). According to factor analysis of mixed data, the land use parameter was more associated with physicochemical parameters (i.e., salinity, conductivity, water temperature, and dissolved oxygen). A Quantitative Microbial Risk Assessment (QMRA) was then conducted to estimate the annual infection risks of HAdV40/41 for non-potable water reuse purposes using predicted concentrations from crAssphage and HPyVs. The highest risks (95th percentiles) were ranked by food crop irrigation, aquaculture, and toilet flushing, at 10–1, 10–2, and 10–3 per person per year (pppy). Required treatment levels to achieve a 10–4 pppy annual infection risk were estimated. QMRA-based water treatment scenarios were suggested, including chlorination for toilet flushing reuse and depth filtration prior to chlorination for aquaculture and food crop irrigation. Microbial monitoring combined with a QMRA could provide better insights into fecal pollution patterns and the associated risks, facilitating effective water quality management and appropriate prior treatments for water reuse.

Published

2021

2. PCR data and comparative performance of Bacteroidales microbial source tracking genetic markers

Author

Pornjira Somnark, Natcha Chyerochana, Akechai Kongprajug, Skorn Mongkolsuk, and Kwanrawee Sirikanchana

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

We reported modified endpoint PCR results analyzed by universal and human-, swine-, and cattle-specific Bacteroidales gene markers with human sewage and animal fecal samples (i.e., swine, cattle, chicken, goat, sheep, buffalo, and duck) from Tha Chin and Chao Phraya watersheds. Annealing locations of PCR primers were illustrated by maps of 16s rRNA Bacteroidales genes. We also summarized previously published work on the performance of the PCR assays. For further discussion of the data presented here, please refer to Somnark et al., Performance evaluation of Bacteroidales genetic markers for human and animal microbial source tracking in tropical agricultural watersheds, Environ. Pollut. 236 (2018) 100–110. Keywords: Endpoint PCR, Fecal pollution, Microbial source tracking, Bacteroidales, Sensitivity, Specificity, Water quality

Published

2018

3. Simultaneous Detection of Feces-specific Bacteriophages of Bacteroides fragilis with a Duplex PCR Assay

Author

Natcha Chyerochana, Benjarath Pupacdi Javed, Pornjira Somnark, Skorn Mongkolsuk, and Kwanrawee Sirikanchana

Subjects

Polymerase chain reaction (PCR), Microbial source tracking, Bacteriophage, Bacteroides fragilis, Water quality, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350

Abstract

Bacteriophages of the Bacteroides fragilis strains HSP40 and RYC2056 are used as indicators of human-specific and general (non-host specific) fecal pollution in water bodies. However, conventional anaerobic cultivation methods require 1-2 days of incubation. To overcome this limitation, in this study, we developed a DNA-based method to simultaneously detect representative bacteriophages (B40-8 and B56-3) that infect B. fragilis strains HSP40 and RYC2056, respectively. Both phages yielded a 224-bp amplicon with the primer pair BT5414/BT5415, and an additional 152-bp PCR product was observed for B40-8 with the primer pair BT5579/BT5580. The detection limits for B40-8 and B56-3 were 10-5 and 10-4 ng of pure DNA, and 1 and 50 ng of DNA template when 5 and 5,000 PFU/mL were spiked into distilled water, respectively. The assay exhibited a higher sensitivity for sewage samples, with < 0.1 and 15 PFU/mL of phages infecting HSP40 and RYC2056, respectively. The assay did not produce false positive results for the Bacteroides phages PG76, HB13, and GA17 or for the enterococcal phages AIM06 and SR14. The assay also detected RYC2056 phages that were isolated from sewage samples and the phage B40-8 when it was spiked into raw sewage. Thus, the newly developed PCR assay demonstrated potential for the environmental monitoring of Bacteroides bacteriophages, decreasing the analysis time to a few hours.

Published

2017

4. SARS-CoV-2 RNA surveillance in large to small centralized wastewater treatment plants preceding the third COVID-19 resurgence in Bangkok, Thailand

Author

Nonnarit Sriporatana, Montakarn Sresung, Yong Poovorawan, Surapong Rattanakul, Natcha Chyerochana, Akechai Kongprajug, Nasamon Wanlapakorn, Skorn Mongkolsuk, Jatuwat Sangsanont, and Kwanrawee Sirikanchana

Subjects

Wastewater-Based Epidemiological Monitoring, Environmental Engineering, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Population, COVID-19 pandemic, Wastewater-based epidemiology, Biology, Wastewater, Article, Water Purification, Environmental health, Environmental Chemistry, Humans, education, Waste Management and Disposal, education.field_of_study, SARS-CoV-2, Incidence (epidemiology), Outbreak, COVID-19, RNA surveillance, Thailand, Pollution, Sewage treatment plants, RNA, Viral, Human sewage, Sewage treatment, Environmental surveillance, Viral load

Abstract

Wastewater surveillance for SARS-CoV-2 RNA has been a successful indicator of COVID-19 outbreaks in populations prior to clinical testing. However, this has been mostly conducted in high-income countries, which means there is a dearth of performance investigations in low- and middle-income countries with different socio-economic settings. This study evaluated the applicability of SARS-CoV-2 RNA monitoring in wastewater (n = 132) to inform COVID-19 infection in the city of Bangkok, Thailand using CDC N1 and N2 RT-qPCR assays. Wastewater influents (n = 112) and effluents (n = 20) were collected from 19 centralized wastewater treatment plants (WWTPs) comprising four large, four medium, and 11 small WWTPs during seven sampling events from January to April 2021 prior to the third COVID-19 resurgence that was officially declared in April 2021. The CDC N1 assay showed higher detection rates and mostly lower Ct values than the CDC N2. SARS-CoV-2 RNA was first detected at the first event when new reported cases were low. Increased positive detection rates preceded an increase in the number of newly reported cases and increased over time with the reported infection incidence. Wastewater surveillance (both positive rates and viral loads) showed strongest correlation with daily new COVID-19 cases at 22–24 days lag (Spearman's Rho = 0.85–1.00). Large WWTPs (serving 432,000–580,000 of the population) exhibited similar trends of viral loads and new cases to those from all 19 WWTPs, emphasizing that routine monitoring of the four large WWTPs could provide sufficient information for the city-scale dynamics. Higher sampling frequency at fewer sites, i.e., at the four representative WWTPs, is therefore suggested especially during the subsiding period of the outbreak to indicate the prevalence of COVID-19 infection, acting as an early warning of COVID-19 resurgence., Graphical abstract Unlabelled Image

Published

2022

5. Microbial Source Tracking Using Molecular and Cultivable Methods in a Tropical Mixed-Use Drinking Water Source to Support Water Safety Plans

Author

Montakarn Sresung, Phongsawat Paisantham, Pacharaporn Ruksakul, Akechai Kongprajug, Natcha Chyerochana, Tharindu Pollwatta Gallage, Thitima Srathongneam, Surapong Rattanakul, Siriwara Maneein, Chatsinee Surasen, Somsak Passananon, Skorn Mongkolsuk, and Kwanrawee Sirikanchana

Subjects

History, Environmental Engineering, Polymers and Plastics, Environmental Chemistry, Business and International Management, Pollution, Waste Management and Disposal, Industrial and Manufacturing Engineering

Published

2022

6. Assessing human‐specific CrAssphage recovery after acidification‐filtration concentrating method in environmental water

Author

Akechai Kongprajug, Skorn Mongkolsuk, Thitirat Petcharat, Natcha Chyerochana, Kwanrawee Sirikanchana, and Watsawan Sangkaew

Subjects

Pollution, media_common.quotation_subject, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, law.invention, Feces, 020401 chemical engineering, law, Humans, Environmental Chemistry, 0204 chemical engineering, Water pollution, Waste Management and Disposal, Effluent, Filtration, 0105 earth and related environmental sciences, Water Science and Technology, media_common, Sewage, Ecological Modeling, Water Pollution, Water, Hydrogen-Ion Concentration, Pulp and paper industry, Wastewater, Environmental science, Sewage treatment, Seawater, Water quality, Water Microbiology, Environmental Monitoring

Abstract

Pinpointing water pollution sources using host-specific gastrointestinal microbes, known as microbial source tracking (MST), have significant benefits for countries with water quality management issues related to pollution. A recently discovered bacteriophage, crAssphage, shows promise as a human-specific MST marker. However, loss of genetic materials during the recovery and the detection processes could alter the ability to measure virus quantities in a water sample. This study determined the crAssphage recovery efficiencies in water sources, including seawater, freshwater, and influent and effluent from a wastewater treatment plant, by spiking natural crAssphage concentrates prior to DNA extraction and quantitative PCR analysis. The results showed that river and seawater with no or low crAssphage background experienced no recovery loss. Evaluating recovery efficiencies in samples with high crAssphage backgrounds posed a challenge due to the inability to prepare high crAssphage titers. This study highlights the importance of intra-laboratory assessment of recovery efficiency in environmental samples for retrieving absolute crAssphage quantification with correction of bias among water samples and increase in data accuracy. PRACTITIONER POINTS: In laboratory assessment of recovery efficiency is crucial for bias correction and data accuracy for absolute crAssphage quantification in water samples. No loss in crAssphage recovery was observed in river and seawater that contained no or low crAssphage backgrounds. Inability to prepare high crAssphage spike concentrations remains the major limitation for evaluating recovery in samples with high crAssphage backgrounds. The results underline the importance of evaluating method recovery in real environmental samples that reflect actual matrix effect. Absolute crAssphage quantification, as human-specific pollution marker, could be used for prioritizing water quality restoration and area-based management plan.

Published

2019

7. Integrated analyses of fecal indicator bacteria, microbial source tracking markers, and pathogens for Southeast Asian beach water quality assessment

Author

Pornjira Somnark, Yupin Patarapongsant, Montakarn Sresung, Akechai Kongprajug, Thammanitchpol Denpetkul, Surapong Rattanakul, Natcha Chyerochana, Watsawan Sangkaew, Kanokpon Tomyim, Skorn Mongkolsuk, and Kwanrawee Sirikanchana

Subjects

Pollution, Veterinary medicine, Environmental Engineering, media_common.quotation_subject, Indicator bacteria, Sewage, Vibrio vulnificus, Southeast asian, Feces, Water Quality, Waste Management and Disposal, Water Science and Technology, Civil and Structural Engineering, media_common, biology, Bacteria, business.industry, Ecological Modeling, Vibrio parahaemolyticus, Water Pollution, biology.organism_classification, Fecal coliform, Water quality, business, Water Microbiology, Environmental Monitoring

Abstract

The degradation of coastal water quality from fecal pollution poses a health risk to visitors at recreational beaches. Fecal indicator bacteria (FIB) are a proxy for fecal pollution; however the accuracy of their representation of fecal pollution health risks at recreational beaches impacted by non-point sources is disputed due to non-human derivation. This study aimed to investigate the relationship between FIB and a range of culturable and molecular-based microbial source tracking (MST) markers and pathogenic bacteria, and physicochemical parameters and rainfall. Forty-two marine water samples were collected from seven sampling stations during six events at two tourist beaches in Thailand. Both beaches were contaminated with fecal pollution as evident from the GenBac3 marker at 88%-100% detection and up to 8.71 log10 copies/100 mL. The human-specific MST marker human polyomaviruses JC and BK (HPyVs) at up to 4.33 log10 copies/100 mL with 92%-94% positive detection indicated that human sewage was likely the main contamination source. CrAssphage showed lower frequencies and concentrations; its correlations with the FIB group (i.e., total coliforms, fecal coliforms, and enterococci) and GenBac3 diminished its use as a human-specific MST marker for coastal water. Human-specific culturable AIM06 and SR14 bacteriophages and general fecal indicator coliphages also showed less sensitivity than the human-specific molecular assays. The applicability of the GenBac3 endpoint PCR assay as a lower-cost prescreening step prior to the GenBac3 qPCR assay was supported by its 100% positive predictive value, but its limited negative predictive values required subsequent qPCR confirmation. Human enteric adenovirus and Vibrio cholerae were not found in any of the samples. The HPyVs related to Vibrio parahaemolyticus, Vibrio vulnificus, and 5-d rainfall records, all of which were more prevalent and concentrated during the wet season. More monitoring is therefore recommended during wet periods. Temporal differences but no spatial differences were observed, suggesting the need for a sentinel site at each beach for routine monitoring. The exceedance of FIB water quality standards did not indicate increased prevalence or concentrations of the HPyVs or Vibrio spp. pathogen group, so the utility of FIB as an indicator of health risks at tropical beaches maybe challenged. Accurate assessment of fecal pollution by incorporating MST markers could lead to developing a more effective water quality monitoring plan to better protect human health risks in tropical recreational beaches.

Published

2021

8. Superior performance of human wastewater-associated viral markers compared to bacterial markers in tropical environments

Author

Warish Ahmed, Kwanrawee Sirikanchana, Akechai Kongprajug, Watsawan Sangkaew, Skorn Mongkolsuk, and Natcha Chyerochana

Subjects

Bacteriophage, Veterinary medicine, biology, Wastewater, business.industry, Lachnospiraceae, Sewage, Viral Markers, Bacteroides, biology.organism_classification, business, Feces, Water quality management

Abstract

Identifying human sewage contamination via microbial source tracking (MST) marker genes has proven useful for effective water quality management worldwide; however, performance evaluations for these genes in tropical areas are limited. Therefore, this research assessed four human-associated MST marker genes in aquatic environments of Central Thailand: human polyomaviruses (JC and BK viruses [HPyVs]), bacteriophage crAssphage (CPQ_056),LachnospiraceaeLachno3, andBacteroidesBacV6-21. HPyV and crAssphage assays were highly sensitive and specific to sewage (n= 19), with no cross-detection in 120 swine, cattle, chicken, duck, goat, sheep, and buffalo composite fecal samples. Lachno3 and BacV6-21 demonstrated high sensitivity but moderate specificity; however, using both markers could improve specificity to >0.80 (max value of 1.00). The most abundant markers in sewage were Lachno3 and BacV6-21 (5.42-8.02 and non-detected-8.05 log10copies/100 mL), crAssphage (5.28-7.38 log10copies/100 mL), and HPyVs (3.66-6.53 log10copies/100 mL), respectively. HPyVs showed higher levels (up to 4.33 log10copies/100 mL) and higher detection rates (92.7%) in two coastal beaches (n= 41) than crAssphage (up to 3.51 log10copies/100 mL and 56.1%). HPyVs were also found at slightly lower levels (up to 5.10 log10copies/100 mL), but at higher detection rates (92.6%), in a freshwater canal (n= 27) than crAssphage (up to 5.21 log10copies/100 mL and 88.9%). Overall, both HPyVs and crAssphage are suggested as human sewage-associated MST markers in aquatic environments of Central Thailand. This study underlines the importance of characterizing and validating MST markers in host groups and environmental waters before including them in a water quality management toolbox.

Published

2020

9. Effect of Quantitative Polymerase Chain Reaction Data Analysis Using Sample Amplification Efficiency on Microbial Source Tracking Assay Performance and Source Attribution

Author

Akechai Kongprajug, Natcha Chyerochana, Kwanrawee Sirikanchana, and Skorn Mongkolsuk

Subjects

Data Analysis, Swine, Sample (statistics), Computational biology, 010501 environmental sciences, Real-Time Polymerase Chain Reaction, 01 natural sciences, Polymerase Chain Reaction, law.invention, Feces, Abundance (ecology), law, Environmental Chemistry, Animals, Humans, Polymerase chain reaction, 0105 earth and related environmental sciences, Microbial source tracking, Sewage, Chemistry, Water Pollution, General Chemistry, Real-time polymerase chain reaction, Cattle, Water Microbiology, human activities, Environmental Monitoring

Abstract

The widely used microbial source tracking (MST) technique, quantitative polymerase chain reaction (qPCR), quantifies host-specific gene abundance in polluted water to identify and prioritize contamination sources. This study characterized the effects of a qPCR data analysis using the sample PCR efficiencies (the LinRegPCR model) on gene abundance and compared them with the standard curve-based method (the mixed model). Five qPCR assays were evaluated: the universal GenBac3, human-specific HF183/BFDrev and CPQ_056, swine-specific Pig-2-Bac, and cattle-specific Bac3qPCR assays. The LinRegPCR model increased the low-copy amplification, especially in the HF183/BFDrev assay, thus lowering the specificity to 0.34. Up to 1.41 log

Published

2020

10. PCR data and comparative performance of Bacteroidales microbial source tracking genetic markers

Author

Akechai Kongprajug, Natcha Chyerochana, Kwanrawee Sirikanchana, Skorn Mongkolsuk, and Pornjira Somnark

Subjects

0301 basic medicine, Microbial source tracking, 030106 microbiology, Pcr assay, Sewage, Fecal pollution, Endpoint PCR, lcsh:Computer applications to medicine. Medical informatics, 03 medical and health sciences, Sensitivity, lcsh:Science (General), Feces, Bacteroidales, Genetics, Multidisciplinary, biology, business.industry, biology.organism_classification, 16S ribosomal RNA, 030104 developmental biology, Water quality, Genetic marker, Specificity, lcsh:R858-859.7, business, Environmental Sciences, lcsh:Q1-390

Abstract

We reported modified endpoint PCR results analyzed by universal and human-, swine-, and cattle-specific Bacteroidales gene markers with human sewage and animal fecal samples (i.e., swine, cattle, chicken, goat, sheep, buffalo, and duck) from Tha Chin and Chao Phraya watersheds. Annealing locations of PCR primers were illustrated by maps of 16s rRNA Bacteroidales genes. We also summarized previously published work on the performance of the PCR assays. For further discussion of the data presented here, please refer to Somnark et al., Performance evaluation of Bacteroidales genetic markers for human and animal microbial source tracking in tropical agricultural watersheds, Environ. Pollut. 236 (2018) 100–110. Keywords: Endpoint PCR, Fecal pollution, Microbial source tracking, Bacteroidales, Sensitivity, Specificity, Water quality

Published

2018

11. Persisting antibiotic resistance gene pollution and its association with human sewage sources in tropical marine beach waters

Author

Nopadol Precha, Kwanrawee Sirikanchana, Skorn Mongkolsuk, Prasert Makkaew, Natcha Chyerochana, Akechai Kongprajug, and Montakarn Sresung

Subjects

Pollutant, Wet season, Pollution, Veterinary medicine, Sewage, business.industry, media_common.quotation_subject, Public Health, Environmental and Occupational Health, Indicator bacteria, Drug Resistance, Microbial, Biology, Anti-Bacterial Agents, Fecal coliform, Genes, Bacterial, Tropical marine climate, Humans, Ecosystem, business, media_common

Abstract

Antibiotic-resistant bacteria (ARB) and antibiotic resistance genes (ARGs) are pollutants of worldwide concern that threaten human health and ecosystems. Anthropogenic activities and wastewater could be ARB and ARG pollution sources; however, research on ARG abundance and microbial source tracking (MST) of contamination in tropical marine waters is limited. This study examined spatiotemporal variations of six ARGs (blaNDM, blaTEM, blaVIM, mcr-1, sul1, and tetQ) against the widely used antibiotic groups and a class 1 integron-integrase gene (intI1) at two Thai tropical recreational beaches (n = 41). Correlations between ARGs and sewage-specific MST markers (i.e., crAssphage and human polyomaviruses [HPyVs]) and fecal indicator bacteria (i.e., total coliforms, fecal coliforms, and enterococci) were also investigated. BlaTEM, intI1, sul1, and tetQ were ubiquitous at both beaches (85.4–100% detection rate); intI1 was the most abundant (3–6 orders in log10 copies/100 mL), followed by blaTEM (2–4 orders), sul1 (2–3 orders), and tetQ (2–4 orders). BlaNDM was found in 7.3% (up to 4 orders), and no mcr-1 was detected. Interestingly, blaVIM was prevalent at one beach (2–5 orders; n = 17), but found in only one sample at the other (4 orders). Temporal, but not spatial, differences were noticed; blaTEM was at higher levels in the wet season. IntI1 correlated with sul1 and tetQ (Spearman's rho = 0.47–0.97), suggesting potential horizontal gene transfer. CrAssphage, but not HPyVs, correlated with intI1, sul1, and tetQ (Spearman's rho = 0.50–0.74). Higher numbers of ARGs tended to co-occur in samples with higher crAssphage concentrations, implying sewage contribution to the marine water, with a persisting ARG background. This study provides insight into the ARG pollution status of tropical coastal waters and suggests crAssphage as a proxy for ARG pollution, which could facilitate effective management policies to minimize ARG dissemination in marine environments.

Published

2021

12. Sewage-specific enterococcal bacteriophages and multiple water quality parameters for coastal water quality assessment

Author

Kanyaluck Jantakee, Skorn Mongkolsuk, Kwanrawee Sirikanchana, Natcha Chyerochana, Akechai Kongprajug, and Namfon Booncharoen

Subjects

Environmental Engineering, Sewage, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Enterococcus faecalis, Feces, 020401 chemical engineering, Water Quality, Bacteriophages, Seawater, 0204 chemical engineering, Water pollution, 0105 earth and related environmental sciences, Water Science and Technology, Total suspended solids, biology, business.industry, Water Pollution, Environmental engineering, Sampling (statistics), biology.organism_classification, Risk evaluation, Environmental science, Water quality, business, Water Microbiology, Enterococcus, Environmental Monitoring

Abstract

Coastal water quality is deteriorating worldwide. Water quality monitoring is therefore essential for public health risk evaluation and the management of water bodies. This study investigated the feasibility of using bacteriophages of Enterococcus faecalis as sewage-specific faecal indicators, together with physicochemical (dissolved oxygen, pH, temperature and total suspended solids) and biological parameters, to assess coastal water quality using multivariate analysis incorporating non-detects. The principal component and cluster analyses demonstrated that coastal water quality was mostly influenced by biological parameters, including Escherichia coli and total coliforms, which were found in all 31 sampling sites, and enterococci, which was found in all but two sampling sites. The enterococcal bacteriophages AIM06 and SR14 were detected in 17 and 18 samples at concentrations up to 1,815 and 2,790 PFU/100 mL, respectively. Both bacteriophages co-presented in approximately 80% of phage-positive samples, and the concentrations at each site were not significantly different. Overall, either bacteriophage could be used to differentiate high- and low-level coastal water pollution, as grouped by cluster analysis. This study is the first to investigate the suitability of sewage-specific bacteriophages of E. faecalis for monitoring coastal water quality and emphasises the importance of a multivariate analysis with non-detects to facilitate coastal water quality monitoring and management.

Published

2019

13. Distributions of enterococci and human-specific bacteriophages of enterococci in a tropical watershed

Author

Skorn Mongkolsuk, Kwanrawee Sirikanchana, Natcha Chyerochana, Akechai Kongprajug, Pinida Leelapanang Kamphaengthong, and Pornjira Somnark

Subjects

DNA, Bacterial, Veterinary medicine, Watershed, food.ingredient, 010501 environmental sciences, Biology, 01 natural sciences, Water quality management, Feces, 03 medical and health sciences, 0302 clinical medicine, food, Rivers, Water Supply, Water Quality, Humans, Agar, Bacteriophages, Water Pollutants, Faecal pollution, 030212 general & internal medicine, Human specific, 0105 earth and related environmental sciences, Microbial source tracking, Tropical Climate, Public Health, Environmental and Occupational Health, Faecal indicator, Thailand, Water quality, Water Microbiology, Enterococcus, Environmental Monitoring

Abstract

The bacteriophages of E. faecalis strains AIM06 (DSM100702) and SR14 (DSM100701) have previously been validated as human-specific microbial source tracking (MST) markers in Thailand. In this study, their spatial and temporal distribution in a freshwater river was investigated for the first time (n = 48). The abundance of enterococci as a standard microbial water quality parameter was evaluated by both the qPCR detection assay with primers and a hydrolysis probe according to the US EPA Method 1611 and the US EPA Method 1600 membrane filtration culture method. AIM06 and SR14 phages were detected by a double layer agar assay and were present in 87.5% and 81.3% of all samples with a co-presence of 92.9% of phage-positive samples. After spiking the representative phages, the ranges of recovery efficiencies were 57.9–99.6% and 49.6–99.9% (n = 48) for AIM06 and SR14 phages, respectively. The absolute abundance of AIM06 and SR14 phages ranged from 0.25 to 221.94 and from 0.25 to 76.66 PFU/100 mL, respectively. Enterococci DNA copies and CFU were detected in all samples ranging from 3.24 to 6.32 log10 copies/100 mL and 100.00 to 1593 CFU/100 mL, respectively. Enterococci in the qPCR assay also showed a moderate correlation with the culture method. The AIM06 and SR14 phage results indicated continuing human faecal pollution along the river with no significant different levels among stations. Interestingly, the higher levels of enterococci in downstream stations for both the qPCR and culture methods along with the significant correlation with other faecal indicator organisms and non-human MST markers implied non-human faecal pollution. In conclusion, this study provides insightful information that could lead to effective water quality management and public health risk reduction from exposure to faecally-contaminated water.

Published

2020

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

Author

Skorn Mongkolsuk, Pinida Leelapanang Kampaengthong, Akechai Kongprajug, Kwanrawee Sirikanchana, Natcha Chyerochana, and Pornjira Somnark

Subjects

Pollution, Veterinary medicine, Swine, media_common.quotation_subject, Sewage, 010501 environmental sciences, Biology, 01 natural sciences, 03 medical and health sciences, 0302 clinical medicine, Rivers, Water Quality, Animals, Humans, Human Activities, 030212 general & internal medicine, Water pollution, 0105 earth and related environmental sciences, media_common, business.industry, Water Pollution, Public Health, Environmental and Occupational Health, Thailand, Coliform bacteria, Fecal coliform, Water resources, Cattle, Water quality, business, Water Microbiology, Surface water, Environmental Monitoring

Abstract

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.

Published

2018

15. Molecular-based Methods for Identifying Sources of Faecal Pollution in Thailand: Performance and Cost Comparison

Author

Kwanrawee Sirikanchana, Akechai Kongprajug, Natcha Chyerochana, Pornjira Somnark, and Skorn Mongkolsuk

Published

2018

16. Simultaneous Detection of Feces-specific Bacteriophages of Bacteroides fragilis with a Duplex PCR Assay

Author

Natcha Chyerochana, Benjarath Pupacdi Javed, Pornjira Somnark, Skorn Mongkolsuk, and Kwanrawee Sirikanchana

Subjects

lcsh:GE1-350, Microbial source tracking, 010501 environmental sciences, Polymerase chain reaction (PCR)/ Microbial source tracking/ Bacteriophage/ Bacteroides fragilis/ Water quality, Polymerase chain reaction (PCR), 01 natural sciences, lcsh:TD1-1066, Bacteroides fragilis, 03 medical and health sciences, Water quality, 0302 clinical medicine, 030212 general & internal medicine, lcsh:Environmental technology. Sanitary engineering, Bacteriophage, lcsh:Environmental sciences, 0105 earth and related environmental sciences

Abstract

Bacteriophages of the Bacteroides fragilis strains HSP40 and RYC2056 are used as indicators of human-specific and general (non-host specific) fecal pollution in water bodies. However, conventional anaerobic cultivation methods require 1-2 days of incubation. To overcome this limitation, in this study, we developed a DNA-based method to simultaneously detect representative bacteriophages (B40-8 and B56-3) that infect B. fragilis strains HSP40 and RYC2056, respectively. Both phages yielded a 224-bp amplicon with the primer pair BT5414/BT5415, and an additional 152-bp PCR product was observed for B40-8 with the primer pair BT5579/BT5580. The detection limits for B40-8 and B56-3 were 10-5 and 10-4 ng of pure DNA, and 1 and 50 ng of DNA template when 5 and 5,000 PFU/mL were spiked into distilled water, respectively. The assay exhibited a higher sensitivity for sewage samples, with < 0.1 and 15 PFU/mL of phages infecting HSP40 and RYC2056, respectively. The assay did not produce false positive results for the Bacteroides phages PG76, HB13, and GA17 or for the enterococcal phages AIM06 and SR14. The assay also detected RYC2056 phages that were isolated from sewage samples and the phage B40-8 when it was spiked into raw sewage. Thus, the newly developed PCR assay demonstrated potential for the environmental monitoring of Bacteroides bacteriophages, decreasing the analysis time to a few hours.

Published

2018

17. Performance evaluation of Bacteroidales genetic markers for human and animal microbial source tracking in tropical agricultural watersheds

Author

Natcha Chyerochana, Skorn Mongkolsuk, Kwanrawee Sirikanchana, and Pornjira Somnark

Subjects

0301 basic medicine, DNA, Bacterial, Genetic Markers, Veterinary medicine, Swine, Health, Toxicology and Mutagenesis, 030106 microbiology, Sewage, 010501 environmental sciences, Toxicology, Real-Time Polymerase Chain Reaction, 01 natural sciences, 03 medical and health sciences, Feces, Animals, Humans, 0105 earth and related environmental sciences, Microbial source tracking, biology, business.industry, Bacteroidetes, Agriculture, General Medicine, biology.organism_classification, Thailand, Pollution, Predictive value, Bacteroidales, Real-time polymerase chain reaction, Sample size determination, Genetic marker, Cattle, business, Water Microbiology, Environmental Monitoring

Abstract

Microbial source tracking (MST) DNA-based assays have been used to successfully solve fecal pollution problems in many countries, particularly in developed nations. However, their application in developing countries has been limited but continues to increase. In this study, sixteen endpoint and quantitative PCR (qPCR) assays targeting universal and human-, swine-, and cattle-specific Bacteroidales gene markers were modified for endpoint PCR, evaluated for their performance with sewage and fecal samples from the Tha Chin watershed and subsequently validated with samples from the Chao Phraya watershed, Thailand. Sample sizes of 81 composite samples (from over 1620 individual samples) of farm animals of each type as well as 19 human sewage samples from the Tha Chin watershed were calculated using a stratified random sampling design to achieve a 90% confidence interval and an expected prevalence (i.e., desired assay's sensitivity) of 0.80. The best universal and human-, swine-, and cattle-specific fecal markers were BacUni EP, HF183/BFDrev EP, Pig-2-Bac EP, and Bac3 assays, respectively. The detection limits for these assays ranged from 30 to 3000 plasmid copies per PCR. The positive predictive values were high in universal and swine- and cattle-specific markers (85–100%), while the positive predictive value of the human-specific assay was 52.2%. The negative predictive values in all assays were relatively high (90.8–100%). A suite of PCR assays in Thailand was established for potential MST use in environmental waters, which supports the worldwide applicability of Bacteroidales gene markers. This study also emphasizes the importance of using a proper sample size in assessing the performance of MST markers in a new geographic region.

Published

2017