Data for Infectivity of Wild-Bird Origin Influenza A Viruses in Minnesota Wetlands Across Seasons
April 29, 2024
This data set represents an ecological and laboratory-based experiment to understand influenza virus viability in surface water. Data tables included in this release consist of 1) daily mean water temperature, 2) viability of viruses maintained in water, 3) influenza detection in duck samples, 4) viral titers of experimentally inoculated water samples, and 5) water chemistry.
Citation Information
| Publication Year | 2024 |
|---|---|
| Title | Data for Infectivity of Wild-Bird Origin Influenza A Viruses in Minnesota Wetlands Across Seasons |
| DOI | 10.5066/P13INUVG |
| Authors | Laura C Scott, Rebecca L Poulson, Christina A Ahlstrom, Andrew Reeves, Laura E Hubbard, Alinde Fojtik, Deborah L. Carter, David E Stallknecht, Andy M Ramey |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Alaska Science Center |
| Rights | This work is marked with CC0 1.0 Universal |
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Infectivity of wild-bird origin Influenza A viruses in Minnesota wetlands across seasons
The environmental tenacity of influenza A viruses (IAVs) in the environment likely plays a role in their transmission; IAVs are able to remain infectious in aquatic habitats and may have the capacity to seed outbreaks when susceptible wild bird hosts utilize these same environments months or even seasons later. Here, we aimed to assess the persistence of low-pathogenicity IAVs from naturally infec
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Rebecca L. Poulson, Andrew B. Reeves, Christina Ahlstrom, Laura Celeste Scott, Laura E. Hubbard, Alinde Fojtik, Deborah L. Carter, David E. Stallknecht, Andrew M. Ramey
Related
Infectivity of wild-bird origin Influenza A viruses in Minnesota wetlands across seasons
The environmental tenacity of influenza A viruses (IAVs) in the environment likely plays a role in their transmission; IAVs are able to remain infectious in aquatic habitats and may have the capacity to seed outbreaks when susceptible wild bird hosts utilize these same environments months or even seasons later. Here, we aimed to assess the persistence of low-pathogenicity IAVs from naturally infec
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Rebecca L. Poulson, Andrew B. Reeves, Christina Ahlstrom, Laura Celeste Scott, Laura E. Hubbard, Alinde Fojtik, Deborah L. Carter, David E. Stallknecht, Andrew M. Ramey