Your search keyword '"Nayak, Bina"' showing total 22 results

1. Operators Need to Know Nuisance Macroorganisms in Water.

Author

Adams, Hunter, Nayak, Bina, Van Lieverloo, Hein, Rochelle, Paul A., Kimpo, Angela, Ash, Steve, and Southard, Mark

Subjects

CONSUMER complaints, NUISANCES, WATER purification, WATER treatment plants, ZEBRA mussel

Abstract

Understanding how to control macroorganisms in source water and during treatment can help operators suppress their proliferation in the distribution system and prevent customer complaints. [ABSTRACT FROM AUTHOR]

Published

2024

2. Prokaryotic community profiling of local algae wastewaters using advanced 16S rRNA gene sequencing

Author

Limayem, Alya, Micciche, Andrew, Nayak, Bina, and Mohapatra, Shyam

Published

2018

3. Research Collaborations With Water and Wastewater Utilities.

Author

Adams, Hunter, Eyring, Adam, Albert, John, Hendricks, Adam, Ahmad, Rasheed, Wyatt, Andrea, Kaymak, Baris, Ikehata, Keisuke, Isazadeh, Siavash, Furatian, Laith, Nayak, Bina, Norton, John, and Horne, Daniel

Subjects

WATER utilities, GOVERNMENT agencies, NONPROFIT organizations

Abstract

Key Takeaways: A research program is an important opportunity for a utility to optimize processes, support permitting, and inform more cost‐effective future planning decisions. A successful utility research program should engage internal and external stakeholders, including government agencies, nonprofits, consultants, and academics. Starting with a small research project that is affordable and likely to be successful is a way to initiate a utility research program. Case studies demonstrate the value of research collaboration to shift from a reactive focus toward a preventive, risk‐based approach. [ABSTRACT FROM AUTHOR]

Published

2023

4. Microbes and the Water Industry: What to Expect by 2050.

Author

Nayak, Bina, Adams, Hunter, Roy, Dhritikshama, Gomez‐Alvarez, Vicente, Kroll, Dan, and Garner, Emily

Subjects

ENTEROVIRUSES, CRISPRS, VIRUS removal (Water purification)

Published

2023

5. The importance of sediment and submerged aquatic vegetation as potential habitats for persistent strains of enterococci in a subtropical watershed

Author

Badgley, Brian D., Nayak, Bina S., and Harwood, Valerie J.

Published

2010

6. Lysimeter comparison of the role of waste characteristics in the formation of mineral deposits in leachate drainage systems

Author

Cardoso, Antonio J., Levine, Audrey D., Nayak, Bina S., Harwood, Valerie J., and Rhea, Lisa R.

Subjects

Lysimetry -- Usage -- Research, Alternative energy sources -- Research -- Usage, Soils -- Leaching, Drainage -- Research -- Usage, Environmental services industry, Usage, Research

Abstract

A common operational problem in leachate collection systems is clogging due to the formation of deposits within pore spaces and collection pipes. The role of co-disposal of municipal solid waste [...]

Published

2006

7. High-Throughput Detection of Bacterial Community and Its Drug-Resistance Profiling From Local Reclaimed Wastewater Plants.

Author

Limayem, Alya, Wasson, Sarah, Mehta, Mausam, Pokhrel, Anaya Raj, Patil, Shrushti, Nguyen, Minh, Chen, Jing, and Nayak, Bina

Subjects

ENTEROCOCCUS faecium, ACINETOBACTER baumannii, BACTERIAL communities, STREPTOCOCCUS pneumoniae, ESCHERICHIA, ENTEROBACTER, KLEBSIELLA pneumoniae, BACTERIAL population

Abstract

Treated wastewater from reclaimed facilities (WWTP) has become a reusable source for a variety of applications, such as agricultural irrigation. However, it is also a potential reservoir of clinically-relevant multidrug resistant (MDR) pathogens, including ESKAPE (Enterococcus faecium and Streptococcus surrogates, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa , and Enterobacter species along with the emerging nosocomial Escherichia strains). This study was performed to decipher the bacterial community structure through Illumina high throughput 16S rRNA gene sequencing, and to determine the resistance profile using the Sensititre antimicrobial susceptibility test (AST) conforming to clinical lab standards (NCCLS). Out of 1747 bacterial strains detected from wastewater influent and effluent, Pseudomonas was the most predominant genus related to ESKAPE in influent, with sequence reads corresponding to 21.356%, followed by Streptococcus (6.445%), Acinetobacter (0.968%), Enterococcus (0.063%), Klebsiella (0.038%), Escherichia (0.028%) and Staphylococcus (0.004%). Despite the different treatment methods used, the effluent still revealed the presence of some Pseudomonas strains (0.066%), and a wide range of gram-positive cocci, including Staphylococcus (0.194%), Streptococcus (0.63%) and Enterococcus (0.037%), in addition to gram-negative Acinetobacter (0.736%), Klebsiella (0.1%), and Escherichia sub-species (0.811%). The AST results indicated that the strains Escherichia along with Klebsiella and Acinetobacter , isolated from the effluent, displayed resistance to 11 antibiotics, while Pseudomonas was resistant to 7 antibiotics, and Streptococcus along with Staphylococcus were resistant to 9 antibiotics. Results herein, proved the existence of some nosocomial MDR pathogens, known for ESKAPE, with potential drug resistance transfer to the non-pathogen microbes, requiring targeted remediation. [ABSTRACT FROM AUTHOR]

Published

2019

8. AWWA's Organisms in Water Committee: Hot Topics in Water Quality.

Author

Albert, John and Nayak, Bina

Subjects

WATER quality, HOT water, COLIFORMS, FECAL contamination, WATER treatment plant residuals, WATER pollution, CONTAMINATION of drinking water

Abstract

The mission of AWWA's Organisms in Water Committee, which is part of the association's Water Quality and Technology Division (WQTD), is to synthesize and communicate the current science on organisms in water, including pathogens, toxin producers, invasive species, indicators, and nuisance organisms. The Organisms in Water Committee routinely meets at AWWA's Water Quality Technology Conference, along with AWWA's Microbiological Contaminants Research Committee. 1 B Author's note: b I This column, prepared on behalf of the AWWA Organisms in Water Committee, is the eighth in the series "Hot Topics in Water Quality", presented by the AWWA Water Quality Technology Division and introduced in the April 2019 issue of i Journal AWWA. [Extracted from the article]

Published

2019

9. Distribution of Legionella and bacterial community composition among regionally diverse US cooling towers.

Author

Llewellyn, Anna C., Lucas, Claressa E., Roberts, Sarah E., Brown, Ellen W., Nayak, Bina S., Raphael, Brian H., and Winchell, Jonas M.

Subjects

LEGIONELLA, LEGIONNAIRES' disease, BACTERIAL communities, INHALATION administration, AEROSOLS, COOLING towers

Abstract

Cooling towers (CTs) are a leading source of outbreaks of Legionnaires’ disease (LD), a severe form of pneumonia caused by inhalation of aerosols containing Legionella bacteria. Accordingly, proper maintenance of CTs is vital for the prevention of LD. The aim of this study was to determine the distribution of Legionella in a subset of regionally diverse US CTs and characterize the associated microbial communities. Between July and September of 2016, we obtained aliquots from water samples collected for routine Legionella testing from 196 CTs located in eight of the nine continental US climate regions. After screening for Legionella by PCR, positive samples were cultured and the resulting Legionella isolates were further characterized. Overall, 84% (164) were PCR-positive, including samples from every region studied. Of the PCR-positive samples, Legionella spp were isolated from 47% (78), L. pneumophila was isolated from 32% (53), and L. pneumophila serogroup 1 (Lp1) was isolated from 24% (40). Overall, 144 unique Legionella isolates were identified; 53% (76) of these were Legionella pneumophila. Of the 76 L. pneumophila isolates, 51% (39) were Lp1. Legionella were isolated from CTs in seven of the eight US regions examined. 16S rRNA amplicon sequencing was used to compare the bacterial communities of CT waters with and without detectable Legionella as well as the microbiomes of waters from different climate regions. Interestingly, the microbial communities were homogenous across climate regions. When a subset of seven CTs sampled in April and July were compared, there was no association with changes in corresponding CT microbiomes over time in the samples that became culture-positive for Legionella. Legionella species and Lp1 were detected frequently among the samples examined in this first large-scale study of Legionella in US CTs. Our findings highlight that, under the right conditions, there is the potential for CT-related LD outbreaks to occur throughout the US. [ABSTRACT FROM AUTHOR]

Published

2017

10. Molecular identification and nanoremediation of microbial contaminants in algal systems using untreated wastewater.

Author

Limayem, Alya, Gonzalez, Francisco, Micciche, Andrew, Haller, Edward, Nayak, Bina, and Mohapatra, Shyam

Subjects

MICROBIAL contamination, WASTEWATER treatment, CHITOSAN, BIOREMEDIATION, WATER pollution

Abstract

Wastewater-algal biomass is a promising option to biofuel production. However, microbial contaminants constitute a substantial barrier to algal biofuel yield. A series of algal strains,Nannochloris oculataandChlorella vulgarissamples (n = 30), were purchased from the University of Texas, and were used for both stock flask cultures and flat-panel vertical bioreactors. A number of media were used for isolation and differentiation of potential contaminants according to laboratory standards (CLSI). Conventional PCR amplification was performed followed by 16S rDNA sequencing to identify isolates at the species level. Nanotherapeutics involving a nanomicellar combination of natural chitosan and zinc oxide (CZNPs) were tested against the microbial lytic groups through Minimum Inhibitory Concentration (MIC) tests and Transmission Electronic Microscopy (TEM). Results indicated the presence ofPseudomonas spp., Bacillus pumilus/ safensis, Cellulosimicrobium cellulans, Micrococcus luteusandStaphylococcus epidermidisstrains at a substantial level in the wastewater-fed algal reactors. TEM confirmed the effectiveness of CZNPs on the lytic group while the average MICs (mg/mL) detected for the strains,Pseudomonas spp, Micrococcus luteus,andBacillus pumiluswere 0.417, 3.33, and 1.458, respectively. Conclusively, CZNP antimicrobials proved to be effective as inhibitory agents against currently identified lytic microbial group, did not impact algae cells, and shows promise forin situinterventions. [ABSTRACT FROM PUBLISHER]

Published

2016

11. Vancomycin-Resistant Enterococci and Bacterial Community Structure following a Sewage Spill into an Aquatic Environment.

Author

Suzanne Young, Nayak, Bina, Shan Sun, Badgley, Brian D., Rohr, Jason R., and Harwood, Valerie J.

Subjects

*VANCOMYCIN, *ENTEROCOCCUS, *WASTE spills, *POLYMERASE chain reaction, *RNA sequencing, *PUBLIC health

Abstract

Sewage spills can release antibiotic-resistant bacteria into surface waters, contributing to environmental reservoirs and potentially impacting human health. Vancomycin-resistant enterococci (VRE) are nosocomial pathogens that have been detected in environmental habitats, including soil, water, and beach sands, as well as wildlife feces. However, VRE harboring vanA genes that confer high-level resistance have infrequently been found outside clinical settings in the United States. This study found culturable Enterococcus faecium harboring the vanA gene in water and sediment for up to 3 days after a sewage spill, and the quantitative PCR (qPCR) signal for vanA persisted for an additional week. Culturable levels of enterococci in water exceeded recreational water guidelines for 2 weeks following the spill, declining about five orders of magnitude in sediments and two orders of magnitude in the water column over 6 weeks. Analysis of bacterial taxa via 16S rRNA gene sequencing showed changes in community structure through time following the sewage spill in sediment and water. The spread of opportunistic pathogens harboring high-level vancomycin resistance genes beyond hospitals and into the broader community and associated habitats is a potential threat to public health, requiring further studies that examine the persistence, occurrence, and survival of VRE in different environmental matrices. [ABSTRACT FROM AUTHOR]

Published

2016

12. LA35 Poultry Fecal Marker Persistence Is Correlated with That of Indicators and Pathogens in Environmental Waters.

Author

Nayak, Bina, Weidhaas, Jennifer, and Harwood, Valerie J.

Subjects

*ENTEROCOCCAL infections, *MYOGENESIS, *PATHOGENIC microorganisms, *MICROBIAL biotechnology, *SALMONELLA diseases, *INFECTIOUS disease transmission, *POULTRY

Abstract

Disposal of fecally contaminated poultry litter by land application can deliver pathogens and fecal indicator bacteria (FIB) into receiving waters via runoff. While water quality is regulated by FIB enumeration, FIB testing provides inadequate information about contamination source and health risk. This microbial source tracking (MST) study compared the persistence of the Brevibacterium sp. strain LA35 16S rRNA gene (marker) for poultry litter with that of pathogens and FIB under outdoor, environmentally relevant conditions in freshwater, marine water, and sediments over 7 days. Salmonella enterica, Campylobacter jejuni, Campylobacter coli, Bacteroidales, and LA35 were enumerated by quantitative PCR (qPCR), and Enterococcus spp. and E. coli were quantified by culture and qPCR. Unlike the other bacteria, C. jejuni was not detectable after 48 h. Bacterial levels in the water column consistently declined over time and were highly correlated among species. Survival in sediments ranged from a slow decrease over time to growth, particularly in marine microcosms and for Bacteroidales. S. enterica also grew in marine sediments. Linear decay rates in water (k) ranged from -0.17 day-1 for LA35 to -3.12 day-1 for C. coli. LA35 levels correlated well with those of other bacteria in the water column but not in sediments. These observations suggest that, particularly in the water column, the fate of LA35 in aquatic environments is similar to that of FIB, C. coli, and Salmonella, supporting the hypothesis that the LA35 marker gene can be a useful tool for evaluating the impact of poultry litter on water quality and human health risk. [ABSTRACT FROM AUTHOR]

Published

2015

13. A Novel Microbial Source Tracking Microarray for Pathogen Detection and Fecal Source Identification in Environmental Systems.

Author

Xiang Li, Harwood, Valerie J., Nayak, Bina, Staley, Christopher, Sadowsky, Michael J., and Weidhaas, Jennifer

Published

2015

14. Beware of Superbugs in a Post‐COVID World.

Author

Nayak, Bina and Parshionikar, Sandhya

Subjects

MULTIDRUG resistance in bacteria, PANDEMICS, PUBLIC health surveillance, HEALTH risk assessment, COVID-19 pandemic, COMMUNICABLE diseases, DISINFECTION & disinfectants

Published

2021

15. Comparison of Genotypic and Phylogenetic Relationships of Environmental Enterococcus Isolates by BOX-PCR Typing and 16S rRNA Gene Sequencing.

Author

Nayak, Bina S., Badgley, Brian, and Harwood, Valerie J.

Subjects

*STREPTOCOCCACEAE, *ANTHROPOMETRY, *ENTEROCOCCUS, *GENES, *MOLECULAR genetics

Abstract

Environmental Enterococcus spp. were compared by BOX-PCR genotyping and 16S rRNA gene sequencing to clarify the predictive relationship of BOX-PCR fingerprints to species designation. BOX-PCR and 16S rRNA gene relationships agreed for 77% of strains. BOX-PCR provided superior intraspecies discrimination but incorrectly identified some strains to the species level and divided some species into multiple groups. [ABSTRACT FROM AUTHOR]

Published

2011

16. Ultrafiltration and Microarray for Detection of Microbial Source Tracking Marker and Pathogen Genes in Riverine and Marine Systems.

Author

Xiang Li, Harwood, Valerie J., Nayak, Bina, and Weidhaas, Jennifer L.

Subjects

*ULTRAFILTRATION, *PROTEIN microarrays, *PATHOGENIC microorganisms, *TETRACYCLINE, *PROTOZOA

Abstract

Pathogen identification and microbial source tracking (MST) to identify sources of fecal pollution improve evaluation of water quality. They contribute to improved assessment of human health risks and remediation of pollution sources. An MST microarray was used to simultaneously detect genes for multiple pathogens and indicators of fecal pollution in freshwater, marine water, sewage-contaminated freshwater and marine water, and treated wastewater. Dead-end ultrafiltration (DEUF) was used to concentrate organisms from water samples, yielding a recovery efficiency of >95% for Escherichia coli and human polyomavirus. Whole-genome amplification (WGA) increased gene copies from ultrafiltered samples and increased the sensitivity of the microarray. Viruses (adenovirus, bocavirus, hepatitis A virus, and human polyomaviruses) were detected in sewage-contaminated samples. Pathogens such as Legionella pneumophila, Shigella flexneri, and Campylobacter fetus were detected along with genes conferring resistance to aminoglycosides, beta-lactams, and tetracycline. Nonmetric dimensional analysis of MST marker genes grouped sewage-spiked freshwater and marine samples with sewage and apart from other fecal sources. The sensitivity (percent true positives) of the microarray probes for gene targets anticipated in sewage was 51 to 57% and was lower than the specificity (percent true negatives; 79 to 81%). A linear relationship between gene copies determined by quantitative PCR and microarray fluorescence was found, indicating the semiquantitative nature of the MST microarray. These results indicate that ultrafiltration coupled with WGA provides sufficient nucleic acids for detection of viruses, bacteria, protozoa, and antibiotic resistance genes by the microarray in applications ranging from beach monitoring to risk assessment. [ABSTRACT FROM AUTHOR]

Published

2016

17. Microbes and the Water Industry: What to Expect by 2050.

Author

Nayak B, Adams H, Roy D, Gomez-Alvarez V, Kroll D, and Garner E

Published

2023

18. Beware of Superbugs in a Post-COVID World.

Author

Nayak B and Parshionikar S

Published

2021

19. Vancomycin-Resistant Enterococci and Bacterial Community Structure following a Sewage Spill into an Aquatic Environment.

Author

Young S, Nayak B, Sun S, Badgley BD, Rohr JR, and Harwood VJ

Subjects

Bacterial Load, Bacterial Proteins genetics, Bacterial Structures, Carbon-Oxygen Ligases genetics, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Enterococcus faecium classification, Enterococcus faecium genetics, Humans, RNA, Ribosomal, 16S genetics, Real-Time Polymerase Chain Reaction, Sequence Analysis, DNA, Time Factors, United States, Vancomycin-Resistant Enterococci classification, Vancomycin-Resistant Enterococci genetics, Biota, Enterococcus faecium isolation & purification, Geologic Sediments microbiology, Sewage, Vancomycin-Resistant Enterococci isolation & purification, Water Microbiology, Water Pollution

Abstract

Unlabelled: Sewage spills can release antibiotic-resistant bacteria into surface waters, contributing to environmental reservoirs and potentially impacting human health. Vancomycin-resistant enterococci (VRE) are nosocomial pathogens that have been detected in environmental habitats, including soil, water, and beach sands, as well as wildlife feces. However, VRE harboring vanA genes that confer high-level resistance have infrequently been found outside clinical settings in the United States. This study found culturable Enterococcus faecium harboring the vanA gene in water and sediment for up to 3 days after a sewage spill, and the quantitative PCR (qPCR) signal for vanA persisted for an additional week. Culturable levels of enterococci in water exceeded recreational water guidelines for 2 weeks following the spill, declining about five orders of magnitude in sediments and two orders of magnitude in the water column over 6 weeks. Analysis of bacterial taxa via 16S rRNA gene sequencing showed changes in community structure through time following the sewage spill in sediment and water. The spread of opportunistic pathogens harboring high-level vancomycin resistance genes beyond hospitals and into the broader community and associated habitats is a potential threat to public health, requiring further studies that examine the persistence, occurrence, and survival of VRE in different environmental matrices., Importance: Vancomycin-resistant enterococci (VRE) are harmful bacteria that are resistant to the powerful antibiotic vancomycin, which is used as a last resort against many infections. This study followed the release of VRE in a major sewage spill and their persistence over time. Such events can act as a means of spreading vancomycin-resistant bacteria in the environment, which can eventually impact human health., (Copyright © 2016, American Society for Microbiology. All Rights Reserved.)

Published

2016

20. Ultrafiltration and Microarray for Detection of Microbial Source Tracking Marker and Pathogen Genes in Riverine and Marine Systems.

Author

Li X, Harwood VJ, Nayak B, and Weidhaas JL

Subjects

Feces virology, Sensitivity and Specificity, Wastewater microbiology, Wastewater virology, Fresh Water microbiology, Fresh Water virology, Microarray Analysis methods, Seawater microbiology, Seawater virology, Ultrafiltration methods, Water Pollution

Abstract

Pathogen identification and microbial source tracking (MST) to identify sources of fecal pollution improve evaluation of water quality. They contribute to improved assessment of human health risks and remediation of pollution sources. An MST microarray was used to simultaneously detect genes for multiple pathogens and indicators of fecal pollution in freshwater, marine water, sewage-contaminated freshwater and marine water, and treated wastewater. Dead-end ultrafiltration (DEUF) was used to concentrate organisms from water samples, yielding a recovery efficiency of >95% for Escherichia coli and human polyomavirus. Whole-genome amplification (WGA) increased gene copies from ultrafiltered samples and increased the sensitivity of the microarray. Viruses (adenovirus, bocavirus, hepatitis A virus, and human polyomaviruses) were detected in sewage-contaminated samples. Pathogens such as Legionella pneumophila, Shigella flexneri, and Campylobacter fetus were detected along with genes conferring resistance to aminoglycosides, beta-lactams, and tetracycline. Nonmetric dimensional analysis of MST marker genes grouped sewage-spiked freshwater and marine samples with sewage and apart from other fecal sources. The sensitivity (percent true positives) of the microarray probes for gene targets anticipated in sewage was 51 to 57% and was lower than the specificity (percent true negatives; 79 to 81%). A linear relationship between gene copies determined by quantitative PCR and microarray fluorescence was found, indicating the semiquantitative nature of the MST microarray. These results indicate that ultrafiltration coupled with WGA provides sufficient nucleic acids for detection of viruses, bacteria, protozoa, and antibiotic resistance genes by the microarray in applications ranging from beach monitoring to risk assessment., (Copyright © 2016, American Society for Microbiology. All Rights Reserved.)

Published

2016

21. A novel microbial source tracking microarray for pathogen detection and fecal source identification in environmental systems.

Author

Li X, Harwood VJ, Nayak B, Staley C, Sadowsky MJ, and Weidhaas J

Subjects

Animals, Bacteria genetics, Birds, Cattle, DNA, Bacterial metabolism, Drug Resistance, Microbial genetics, Feces virology, Fluorescence, Genome, Bacterial, Gram-Positive Bacteria, High-Throughput Nucleotide Sequencing, Polymerase Chain Reaction, Reproducibility of Results, Swine, Wastewater microbiology, Bacteria isolation & purification, Environmental Microbiology, Feces microbiology, Oligonucleotide Array Sequence Analysis methods

Abstract

Pathogen detection and the identification of fecal contamination sources are challenging in environmental waters. Factors including pathogen diversity and ubiquity of fecal indicator bacteria hamper risk assessment and remediation of contamination sources. A custom microarray targeting pathogens (viruses, bacteria, protozoa), microbial source tracking (MST) markers, and antibiotic resistance genes was tested against DNA obtained from whole genome amplification (WGA) of RNA and DNA from sewage and animal (avian, cattle, poultry, and swine) feces. Perfect and mismatch probes established the specificity of the microarray in sewage, and fluorescence decrease of positive probes over a 1:10 dilution series demonstrated semiquantitative measurement. Pathogens, including norovirus, Campylobacter fetus, Helicobacter pylori, Salmonella enterica, and Giardia lamblia were detected in sewage, as well as MST markers and resistance genes to aminoglycosides, beta-lactams, and tetracycline. Sensitivity (percentage true positives) of MST results in sewage and animal waste samples (21-33%) was lower than specificity (83-90%, percentage of true negatives). Next generation DNA sequencing revealed two dominant bacterial families that were common to all sample types: Ruminococcaceae and Lachnospiraceae. Five dominant phyla and 15 dominant families comprised 97% and 74%, respectively, of sequences from all fecal sources. Phyla and families not represented on the microarray are possible candidates for inclusion in subsequent array designs.

Published

2015

22. Evidence for extraintestinal growth of bacteroidales originating from poultry litter.

Author

Weidhaas J, Mantha S, Hair E, Nayak B, and Harwood VJ

Subjects

Animals, Bacteroides genetics, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Bacterial isolation & purification, Feces microbiology, Microbial Viability, Molecular Sequence Data, Poultry, Real-Time Polymerase Chain Reaction, Sequence Analysis, DNA, Bacteroides growth & development, Bacteroides isolation & purification, Water Microbiology

Abstract

Water quality monitoring techniques that target microorganisms in the order Bacteroidales are potential alternatives to conventional methods for detection of fecal indicator bacteria. Bacteroidales and members of the genus Bacteroides have been the focus of microbial source tracking (MST) investigations for discriminating sources of fecal pollution (e.g., human or cattle feces) in environmental waters. For accurate source apportionment to occur, one needs to understand both the abundance of Bacteroides in host feces and the survival of these host-associated microbial markers after deposition in the environment. Studies were undertaken to evaluate the abundance, persistence, and potential for growth of Bacteroidales originating from poultry litter under oxic and anoxic environmental conditions. Bacteroidales abundance, as determined by quantitative PCR (qPCR) with GenBac primers and probe, increased 2 to 5 log gene copies ml(-1) and 2 log gene copies g litter(-1) under most conditions during incubation of poultry litter in a variety of laboratory microcosm and field mesocosm studies. DNA sequencing of the Bacteroidales organisms in the litter identified taxa with sequences corresponding exactly to the GenBac primer and probe sequences and that were closely related to Bacteroides uniformis, B. ovatus, and B. vulgatus. These results suggest that MST studies using qPCR methods targeting Bacteroidales in watersheds that are affected by poultry litter should be interpreted cautiously. Growth of Bacteroidales originating from poultry litter in environmental waters may occur while Bacteroidales growth from other fecal sources declines, thus confounding the interpretation of MST results., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015