F. Simmons scite author profile

Aims: The goal of this study was to characterize enteric virus concentrations and their infectivity in a variety of limited‐contact recreation and bathing waters, including Great Lakes beaches, inland lakes, rivers, and an effluent‐dominated urban waterway. Additionally, we evaluated associations between point sources of human faecal pollution and enterovirus and adenovirus presence and concentrations. Methods and Results: Quantitative polymerase chain reaction (qPCR) and two cell culture lines were used to identify and quantify viruses in water samples. The presence of human adenoviruses F was strongly associated with effluent‐dominated waters (odds ratio 6·1, confidence interval 2·3, 15·7), as was adenovirus concentration; though, neither enterovirus presence nor concentration was associated with an effluent source. Samples with high concentrations of qPCR targets all tested positive by cell culture on both cell lines, although qPCR target concentrations were not correlated with culture values. Conclusions: Adenovirus was strongly associated with point sources of human faecal pollution while enterovirus was not, indicating that adenovirus measured by qPCR is a better target than enterovirus for identifying wastewater discharges in recreational freshwaters. Significance and Impact of the Study: The development of monitoring for enteric human viral pathogens at recreational waters should include adenovirus testing. Further research is needed to interpret the results of qPCR testing in relationship to the presence of infectious viruses using cell culture.

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A new set of PCR assays for the identification of multiple human adenovirus species in environmental samples

Kuo¹,

Simmons²,

Xagoraraki³

2009

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Aims: To assess human adenovirus (HAdV) diversity in environmental samples based on sequence comparisons of hexon gene fragments amplified using newly designed HAdV‐specific polymerase chain reaction (PCR) assays. Methods and Results: Six PCR primer sets were designed based on 56 aligned hexon sequences from NCBI GenBank to amplify different hexon gene sections (241–349 bp) of the six HAdV species. The amplified hexon genes from wastewater samples were cloned, sequenced, and compared with those in publicly accessible databases (i.e. NCBI GenBank) by using the Blast program. A total of 46 analysed positive clones were affiliated to five HAdV serotypes, i.e. 1, 2, 12, 31 and 41. Similarities between the cloned and database hexon sequences ranged from 95·9 to 100% (with an average of 98·1 ± 1·0%). Conclusion: The designed primers showed higher amplification efficiencies when compared with the existing assays. Using the new assays, HAdV species A, C, and F (serotypes 1, 2, 12, 31 and 41 in particular) were identified in the studied municipal wastewater. Significance and Impact of the Study: The six PCR primer sets developed in this study can be used to efficiently amplify hexon gene fragments in HAdV. Multiple HAdV serotypes identified in the municipal wastewater provide new information about HAdV diversity in environmental samples.

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F. Simmons

Assessment of human adenovirus removal in a full-scale membrane bioreactor treating municipal wastewater

Release of infectious human enteric viruses by full-scale wastewater utilities

Removal of human enteric viruses by a full-scale membrane bioreactor during municipal wastewater processing

Occurrence of adenovirus and other enteric viruses in limited-contact freshwater recreational areas and bathing waters

A new set of PCR assays for the identification of multiple human adenovirus species in environmental samples

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