Evidence of Influenza A Virus RNA in Siberian Lake Ice

Influenza A virus infects a large proportion of the human population annually, sometimes leading to the deaths of millions. The biotic cycles of infection are well characterized in the literature, including in studies of populations of humans, poultry, swine, and migratory waterfowl. However, there...

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Bibliographic Details
Published in:Journal of Virology
Main Authors: Rogers, Scott O., Zhang, Gang, Shoham, Dany, Gilchinsky, David, Davydov, Sergei, Castello, John D.
Format: Text
Language:unknown
Published: ScholarWorks@BGSU 2006
Subjects:
Influenza A virus
Siberian Lake Ice
Biology
Arctic
Online Access:https://scholarworks.bgsu.edu/bio_sci_pub/14
https://doi.org/10.1128/JVI.00986-06
https://scholarworks.bgsu.edu/context/bio_sci_pub/article/1010/viewcontent/rogers_evidence.pdf
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spelling ftbgstateuniv:oai:scholarworks.bgsu.edu:bio_sci_pub-1010 2023-11-05T03:39:49+01:00 Evidence of Influenza A Virus RNA in Siberian Lake Ice Rogers, Scott O. Zhang, Gang Shoham, Dany Gilchinsky, David Davydov, Sergei Castello, John D. 2006-12-01T08:00:00Z application/pdf https://scholarworks.bgsu.edu/bio_sci_pub/14 https://doi.org/10.1128/JVI.00986-06 https://scholarworks.bgsu.edu/context/bio_sci_pub/article/1010/viewcontent/rogers_evidence.pdf unknown ScholarWorks@BGSU https://scholarworks.bgsu.edu/bio_sci_pub/14 doi:10.1128/JVI.00986-06 https://scholarworks.bgsu.edu/context/bio_sci_pub/article/1010/viewcontent/rogers_evidence.pdf Biological Sciences Faculty Publications Influenza A virus Siberian Lake Ice Biology text 2006 ftbgstateuniv https://doi.org/10.1128/JVI.00986-06 2023-10-10T11:27:48Z Influenza A virus infects a large proportion of the human population annually, sometimes leading to the deaths of millions. The biotic cycles of infection are well characterized in the literature, including in studies of populations of humans, poultry, swine, and migratory waterfowl. However, there are few studies of abiotic reservoirs for this virus. Here, we report the preservation of influenza A virus genes in ice and water from high-latitude lakes that are visited by large numbers of migratory birds. The lakes are along the migratory flight paths of birds flying into Asia, North America, Europe, and Africa. The data suggest that influenza A virus, deposited as the birds begin their autumn migration, can be preserved in lake ice. As birds return in the spring, the ice melts, releasing the viruses. Therefore, temporal gene flow is facilitated between the viruses shed during the previous year and the viruses newly acquired by birds during winter months spent in the south. Above the Arctic Circle, the cycles of entrapment in the ice and release by melting can be variable in length, because some ice persists for several years, decades, or longer. This type of temporal gene flow might be a feature common to viruses that can survive entrapment in environmental ice and snow. Copyright © 2006, American Society for Microbiology. All Rights Reserved. Text Arctic Bowling Green State University: ScholarWorks@BGSU Journal of Virology 80 24 12229 12235
institution Open Polar
collection Bowling Green State University: ScholarWorks@BGSU
op_collection_id ftbgstateuniv
language unknown
topic Influenza A virus
Siberian Lake Ice
Biology
spellingShingle Influenza A virus
Siberian Lake Ice
Biology
Rogers, Scott O.
Zhang, Gang
Shoham, Dany
Gilchinsky, David
Davydov, Sergei
Castello, John D.
Evidence of Influenza A Virus RNA in Siberian Lake Ice
topic_facet Influenza A virus
Siberian Lake Ice
Biology
description Influenza A virus infects a large proportion of the human population annually, sometimes leading to the deaths of millions. The biotic cycles of infection are well characterized in the literature, including in studies of populations of humans, poultry, swine, and migratory waterfowl. However, there are few studies of abiotic reservoirs for this virus. Here, we report the preservation of influenza A virus genes in ice and water from high-latitude lakes that are visited by large numbers of migratory birds. The lakes are along the migratory flight paths of birds flying into Asia, North America, Europe, and Africa. The data suggest that influenza A virus, deposited as the birds begin their autumn migration, can be preserved in lake ice. As birds return in the spring, the ice melts, releasing the viruses. Therefore, temporal gene flow is facilitated between the viruses shed during the previous year and the viruses newly acquired by birds during winter months spent in the south. Above the Arctic Circle, the cycles of entrapment in the ice and release by melting can be variable in length, because some ice persists for several years, decades, or longer. This type of temporal gene flow might be a feature common to viruses that can survive entrapment in environmental ice and snow. Copyright © 2006, American Society for Microbiology. All Rights Reserved.
format Text
author Rogers, Scott O.
Zhang, Gang
Shoham, Dany
Gilchinsky, David
Davydov, Sergei
Castello, John D.
author_facet Rogers, Scott O.
Zhang, Gang
Shoham, Dany
Gilchinsky, David
Davydov, Sergei
Castello, John D.
author_sort Rogers, Scott O.
title Evidence of Influenza A Virus RNA in Siberian Lake Ice
title_short Evidence of Influenza A Virus RNA in Siberian Lake Ice
title_full Evidence of Influenza A Virus RNA in Siberian Lake Ice
title_fullStr Evidence of Influenza A Virus RNA in Siberian Lake Ice
title_full_unstemmed Evidence of Influenza A Virus RNA in Siberian Lake Ice
title_sort evidence of influenza a virus rna in siberian lake ice
publisher ScholarWorks@BGSU
publishDate 2006
url https://scholarworks.bgsu.edu/bio_sci_pub/14
https://doi.org/10.1128/JVI.00986-06
https://scholarworks.bgsu.edu/context/bio_sci_pub/article/1010/viewcontent/rogers_evidence.pdf
genre Arctic
genre_facet Arctic
op_source Biological Sciences Faculty Publications
op_relation https://scholarworks.bgsu.edu/bio_sci_pub/14
doi:10.1128/JVI.00986-06
https://scholarworks.bgsu.edu/context/bio_sci_pub/article/1010/viewcontent/rogers_evidence.pdf
op_doi https://doi.org/10.1128/JVI.00986-06
container_title Journal of Virology
container_volume 80
container_issue 24
container_start_page 12229
op_container_end_page 12235
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