Data_Sheet_5_Passive Samplers, a Powerful Tool to Detect Viruses and Bacteria in Marine Coastal Areas.docx

The detection of viruses and bacteria which can pose a threat either to shellfish health or shellfish consumers remains difficult. The current detection methods rely on point sampling of water, a method that gives a snapshot of the microorganisms present at the time of sampling. In order to obtain b...

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Main Authors: Françoise Vincent-Hubert, Candice Wacrenier, Benjamin Morga, Solen Lozach, Emmanuelle Quenot, Mickaël Mège, Cyrielle Lecadet, Michèle Gourmelon, Dominique Hervio-Heath, Françoise S. Le Guyader
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Microbiology
Microbial Genetics
Microbial Ecology
Mycology
norovirus
Ostreid herpes virus 1 μvar
Vibrio spp
microbial source tracking
sea
passive sampler
oyster (Crassostrea gigas)
Crassostrea gigas
Online Access:https://doi.org/10.3389/fmicb.2021.631174.s005
https://figshare.com/articles/dataset/Data_Sheet_5_Passive_Samplers_a_Powerful_Tool_to_Detect_Viruses_and_Bacteria_in_Marine_Coastal_Areas_docx/14088200
id ftfrontimediafig:oai:figshare.com:article/14088200
record_format openpolar
spelling ftfrontimediafig:oai:figshare.com:article/14088200 2023-05-15T15:58:56+02:00 Data_Sheet_5_Passive Samplers, a Powerful Tool to Detect Viruses and Bacteria in Marine Coastal Areas.docx Françoise Vincent-Hubert Candice Wacrenier Benjamin Morga Solen Lozach Emmanuelle Quenot Mickaël Mège Cyrielle Lecadet Michèle Gourmelon Dominique Hervio-Heath Françoise S. Le Guyader 2021-02-23T04:19:43Z https://doi.org/10.3389/fmicb.2021.631174.s005 https://figshare.com/articles/dataset/Data_Sheet_5_Passive_Samplers_a_Powerful_Tool_to_Detect_Viruses_and_Bacteria_in_Marine_Coastal_Areas_docx/14088200 unknown doi:10.3389/fmicb.2021.631174.s005 https://figshare.com/articles/dataset/Data_Sheet_5_Passive_Samplers_a_Powerful_Tool_to_Detect_Viruses_and_Bacteria_in_Marine_Coastal_Areas_docx/14088200 CC BY 4.0 CC-BY Microbiology Microbial Genetics Microbial Ecology Mycology norovirus Ostreid herpes virus 1 μvar Vibrio spp microbial source tracking sea passive sampler oyster (Crassostrea gigas) Dataset 2021 ftfrontimediafig https://doi.org/10.3389/fmicb.2021.631174.s005 2021-02-24T23:59:12Z The detection of viruses and bacteria which can pose a threat either to shellfish health or shellfish consumers remains difficult. The current detection methods rely on point sampling of water, a method that gives a snapshot of the microorganisms present at the time of sampling. In order to obtain better representativeness of the presence of these microorganisms over time, we have developed passive sampling using the adsorption capacities of polymer membranes. Our objectives here were to assess the feasibility of this methodology for field detection. Different types of membrane were deployed in coastal waters over 2 years and the microorganisms tested using qPCR were: human norovirus (NoV) genogroups (G)I and II, sapovirus, Vibrio spp. and the species Vibrio alginolyticus, V. cholerae, V. vulnificus, and V. parahaemolyticus, OsHV-1 virus, and bacterial markers of fecal contamination. NoV GII, Vibrio spp., and the AllBac general Bacteroidales marker were quantified on the three types of membrane. NoV GII and OsHV-1 viruses followed a seasonal distribution. All membranes were favorable for NoV GII detection, while Zetapor was more adapted for OsHV-1 detection. Nylon was more adapted for detection of Vibrio spp. and the AllBac marker. The quantities of NoV GII, AllBac, and Vibrio spp. recovered on membranes increased with the duration of exposure. This first application of passive sampling in seawater is particularly promising in terms of an early warning system for the prevention of contamination in oyster farming areas and to improve our knowledge on the timing and frequency of disease occurence. Dataset Crassostrea gigas Frontiers: Figshare
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Microbiology
Microbial Genetics
Microbial Ecology
Mycology
norovirus
Ostreid herpes virus 1 μvar
Vibrio spp
microbial source tracking
sea
passive sampler
oyster (Crassostrea gigas)
spellingShingle Microbiology
Microbial Genetics
Microbial Ecology
Mycology
norovirus
Ostreid herpes virus 1 μvar
Vibrio spp
microbial source tracking
sea
passive sampler
oyster (Crassostrea gigas)
Françoise Vincent-Hubert
Candice Wacrenier
Benjamin Morga
Solen Lozach
Emmanuelle Quenot
Mickaël Mège
Cyrielle Lecadet
Michèle Gourmelon
Dominique Hervio-Heath
Françoise S. Le Guyader
Data_Sheet_5_Passive Samplers, a Powerful Tool to Detect Viruses and Bacteria in Marine Coastal Areas.docx
topic_facet Microbiology
Microbial Genetics
Microbial Ecology
Mycology
norovirus
Ostreid herpes virus 1 μvar
Vibrio spp
microbial source tracking
sea
passive sampler
oyster (Crassostrea gigas)
description The detection of viruses and bacteria which can pose a threat either to shellfish health or shellfish consumers remains difficult. The current detection methods rely on point sampling of water, a method that gives a snapshot of the microorganisms present at the time of sampling. In order to obtain better representativeness of the presence of these microorganisms over time, we have developed passive sampling using the adsorption capacities of polymer membranes. Our objectives here were to assess the feasibility of this methodology for field detection. Different types of membrane were deployed in coastal waters over 2 years and the microorganisms tested using qPCR were: human norovirus (NoV) genogroups (G)I and II, sapovirus, Vibrio spp. and the species Vibrio alginolyticus, V. cholerae, V. vulnificus, and V. parahaemolyticus, OsHV-1 virus, and bacterial markers of fecal contamination. NoV GII, Vibrio spp., and the AllBac general Bacteroidales marker were quantified on the three types of membrane. NoV GII and OsHV-1 viruses followed a seasonal distribution. All membranes were favorable for NoV GII detection, while Zetapor was more adapted for OsHV-1 detection. Nylon was more adapted for detection of Vibrio spp. and the AllBac marker. The quantities of NoV GII, AllBac, and Vibrio spp. recovered on membranes increased with the duration of exposure. This first application of passive sampling in seawater is particularly promising in terms of an early warning system for the prevention of contamination in oyster farming areas and to improve our knowledge on the timing and frequency of disease occurence.
format Dataset
author Françoise Vincent-Hubert
Candice Wacrenier
Benjamin Morga
Solen Lozach
Emmanuelle Quenot
Mickaël Mège
Cyrielle Lecadet
Michèle Gourmelon
Dominique Hervio-Heath
Françoise S. Le Guyader
author_facet Françoise Vincent-Hubert
Candice Wacrenier
Benjamin Morga
Solen Lozach
Emmanuelle Quenot
Mickaël Mège
Cyrielle Lecadet
Michèle Gourmelon
Dominique Hervio-Heath
Françoise S. Le Guyader
author_sort Françoise Vincent-Hubert
title Data_Sheet_5_Passive Samplers, a Powerful Tool to Detect Viruses and Bacteria in Marine Coastal Areas.docx
title_short Data_Sheet_5_Passive Samplers, a Powerful Tool to Detect Viruses and Bacteria in Marine Coastal Areas.docx
title_full Data_Sheet_5_Passive Samplers, a Powerful Tool to Detect Viruses and Bacteria in Marine Coastal Areas.docx
title_fullStr Data_Sheet_5_Passive Samplers, a Powerful Tool to Detect Viruses and Bacteria in Marine Coastal Areas.docx
title_full_unstemmed Data_Sheet_5_Passive Samplers, a Powerful Tool to Detect Viruses and Bacteria in Marine Coastal Areas.docx
title_sort data_sheet_5_passive samplers, a powerful tool to detect viruses and bacteria in marine coastal areas.docx
publishDate 2021
url https://doi.org/10.3389/fmicb.2021.631174.s005
https://figshare.com/articles/dataset/Data_Sheet_5_Passive_Samplers_a_Powerful_Tool_to_Detect_Viruses_and_Bacteria_in_Marine_Coastal_Areas_docx/14088200
genre Crassostrea gigas
genre_facet Crassostrea gigas
op_relation doi:10.3389/fmicb.2021.631174.s005
https://figshare.com/articles/dataset/Data_Sheet_5_Passive_Samplers_a_Powerful_Tool_to_Detect_Viruses_and_Bacteria_in_Marine_Coastal_Areas_docx/14088200
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fmicb.2021.631174.s005
_version_ 1766394707241336832

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