In Situ Dynamics of F-Specific RNA Bacteriophages in a Small River: New Way to Assess Viral Propagation in Water Quality Studies

The occurrence and propagation of enteric viruses in rivers constitute a major public health issue. However, little information is available on the in situ transport and spread of viruses in surface water. In this study, an original in situ experimental approach using the residence time of the river...

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Published in	Food and environmental virology Vol. 9; no. 1; pp. 89 - 102
Main Authors	Fauvel, Blandine, Gantzer, Christophe, Cauchie, Henry-Michel, Ogorzaly, Leslie
Format	Journal Article
Language	English
Published	New York Springer US 01.03.2017 Springer Nature B.V Springer
Subjects	Biomedical and Life Sciences Biomedicine Chemistry/Food Science Contamination Ecology, environment Environmental conditions Environmental impact Environmental monitoring Flow velocity Food Science Genotyping Infectivity Life Sciences Microbiology and Parasitology Original Paper Particle decay Phages Propagation Public health Quality assessment Recreation areas Ribonucleic acid Risk assessment Rivers Rivers - chemistry Rivers - virology RNA RNA phages RNA Phages - classification RNA Phages - genetics RNA Phages - isolation & purification Surface water Temperature Temperature effects Virology Viruses Water Pollution - analysis Water Quality Water temperature Water In situ propagation modelling F-specific RNA bacteriophages Sediment In situ survival RNA bacteriophages F-specific
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Abstract	The occurrence and propagation of enteric viruses in rivers constitute a major public health issue. However, little information is available on the in situ transport and spread of viruses in surface water. In this study, an original in situ experimental approach using the residence time of the river water mass was developed to accurately follow the propagation of F-specific RNA bacteriophages (FRNAPHs) along a 3-km studied river. Surface water and sediment of 9 sampling campaigns were collected and analyzed using both infectivity and RT-qPCR assays. In parallel, some physico-chemical variables such as flow rate, water temperature, conductivity and total suspended solids were measured to investigate the impact of environmental conditions on phage propagation. For campaigns with low flow rate and high temperature, the results highlight a decrease of infectious phage concentration along the river, which was successfully modelled according to a first-order negative exponential decay. The monitoring of infectious FRNAPHs belonging mainly to the genogroup II was confirmed with direct phage genotyping and total phage particle quantification. Reported k decay coefficients according to exponential models allowed for the determination of the actual in situ distance and time necessary for removing 90 % of infectious phage particles. This present work provides a new way to assess the true in situ viral propagation along a small river. These findings can be highly useful in water quality and risk assessment studies to determine the viral contamination spread from a point contamination source to the nearest recreational areas.
AbstractList	The occurrence and propagation of enteric viruses in rivers constitute a major public health issue. However, little information is available on the in situ transport and spread of viruses in surface water. In this study, an original in situ experimental approach using the residence time of the river water mass was developed to accurately follow the propagation of F-specific RNA bacteriophages (FRNAPHs) along a 3-km studied river. Surface water and sediment of 9 sampling campaigns were collected and analyzed using both infectivity and RT-qPCR assays. In parallel, some physico-chemical variables such as flow rate, water temperature, conductivity and total suspended solids were measured to investigate the impact of environmental conditions on phage propagation. For campaigns with low flow rate and high temperature, the results highlight a decrease of infectious phage concentration along the river, which was successfully modelled according to a first-order negative exponential decay. The monitoring of infectious FRNAPHs belonging mainly to the genogroup II was confirmed with direct phage genotyping and total phage particle quantification. Reported k decay coefficients according to exponential models allowed for the determination of the actual in situ distance and time necessary for removing 90 % of infectious phage particles. This present work provides a new way to assess the true in situ viral propagation along a small river. These findings can be highly useful in water quality and risk assessment studies to determine the viral contamination spread from a point contamination source to the nearest recreational areas. The occurrence and propagation of enteric viruses in rivers constitute a major public health issue. However, little information is available on the in situ transport and spread of viruses in surface water. In this study, an original in situ experimental approach using the residence time of the river water mass was developed to accurately follow the propagation of F-specific RNA bacteriophages (FRNAPHs) along a 3-km studied river. Surface water and sediment of 9 sampling campaigns were collected and analyzed using both infectivity and RT-qPCR assays. In parallel, some physico-chemical variables such as flow rate, water temperature, conductivity and total suspended solids were measured to investigate the impact of environmental conditions on phage propagation. For campaigns with low flow rate and high temperature, the results highlight a decrease of infectious phage concentration along the river, which was successfully modelled according to a first-order negative exponential decay. The monitoring of infectious FRNAPHs belonging mainly to the genogroup II was confirmed with direct phage genotyping and total phage particle quantification. Reported k decay coefficients according to exponential models allowed for the determination of the actual in situ distance and time necessary for removing 90 % of infectious phage particles. This present work provides a new way to assess the true in situ viral propagation along a small river. These findings can be highly useful in water quality and risk assessment studies to determine the viral contamination spread from a point contamination source to the nearest recreational areas. The occurrence and propagation of enteric viruses in rivers constitute a major public health issue. However, little information is available on the in situ transport and spread of viruses in surface water. In this study, an original in situ experimental approach using the residence time of the river water mass was developed to accurately follow the propagation of F-specific RNA bacteriophages (FRNAPHs) along a 3-km studied river. Surface water and sediment of 9 sampling campaigns were collected and analyzed using both infectivity and RT-qPCR assays. In parallel, some physico-chemical variables such as flow rate, water temperature, conductivity and total suspended solids were measured to investigate the impact of environmental conditions on phage propagation. For campaigns with low flow rate and high temperature, the results highlight a decrease of infectious phage concentration along the river, which was successfully modelled according to a first-order negative exponential decay. The monitoring of infectious FRNAPHs belonging mainly to the genogroup II was confirmed with direct phage genotyping and total phage particle quantification. Reported k decay coefficients according to exponential models allowed for the determination of the actual in situ distance and time necessary for removing 90 % of infectious phage particles. This present work provides a new way to assess the true in situ viral propagation along a small river. These findings can be highly useful in water quality and risk assessment studies to determine the viral contamination spread from a point contamination source to the nearest recreational areas.
Author	Fauvel, Blandine Gantzer, Christophe Ogorzaly, Leslie Cauchie, Henry-Michel
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Keywords	Water In situ propagation modelling F-specific RNA bacteriophages Sediment In situ survival RNA bacteriophages F-specific
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Snippet	The occurrence and propagation of enteric viruses in rivers constitute a major public health issue. However, little information is available on the in situ...
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SubjectTerms	Biomedical and Life Sciences Biomedicine Chemistry/Food Science Contamination Ecology, environment Environmental conditions Environmental impact Environmental monitoring Flow velocity Food Science Genotyping Infectivity Life Sciences Microbiology and Parasitology Original Paper Particle decay Phages Propagation Public health Quality assessment Recreation areas Ribonucleic acid Risk assessment Rivers Rivers - chemistry Rivers - virology RNA RNA phages RNA Phages - classification RNA Phages - genetics RNA Phages - isolation & purification Surface water Temperature Temperature effects Virology Viruses Water Pollution - analysis Water Quality Water temperature
Title	In Situ Dynamics of F-Specific RNA Bacteriophages in a Small River: New Way to Assess Viral Propagation in Water Quality Studies
URI	https://link.springer.com/article/10.1007/s12560-016-9266-0 https://www.ncbi.nlm.nih.gov/pubmed/27771874 https://www.proquest.com/docview/1880771064 https://search.proquest.com/docview/1835538447 https://hal.univ-lorraine.fr/hal-01891132 https://pubmed.ncbi.nlm.nih.gov/PMC5309317
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