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Autori principali: Joshua A. Cullen, Nicholas M. Masto, Jeffery D. Sullivan, Cory J. Highway, Kelly A. Patyk, Mary‐Jane McCool, Mia Kim Torchetti, Kristina Lantz, Rebecca L. Poulson, Deborah L. Carter, Jamie C. Feddersen, Bradley S. Cohen, Diann J. Prosser
Natura: Artículo Open Access
Pubblicazione: Wiley 2025
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Accesso online:https://onlinelibrary.wiley.com/doi/10.1002/ece3.72221
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author Joshua A. Cullen
Nicholas M. Masto
Jeffery D. Sullivan
Cory J. Highway
Kelly A. Patyk
Mary‐Jane McCool
Mia Kim Torchetti
Kristina Lantz
Rebecca L. Poulson
Deborah L. Carter
Jamie C. Feddersen
Bradley S. Cohen
Diann J. Prosser
author_facet Joshua A. Cullen
Nicholas M. Masto
Jeffery D. Sullivan
Cory J. Highway
Kelly A. Patyk
Mary‐Jane McCool
Mia Kim Torchetti
Kristina Lantz
Rebecca L. Poulson
Deborah L. Carter
Jamie C. Feddersen
Bradley S. Cohen
Diann J. Prosser
Joshua A. Cullen
Nicholas M. Masto
Jeffery D. Sullivan
Cory J. Highway
Kelly A. Patyk
Mary‐Jane McCool
Mia Kim Torchetti
Kristina Lantz
Rebecca L. Poulson
Deborah L. Carter
Jamie C. Feddersen
Bradley S. Cohen
Diann J. Prosser
collection Wiley Open Access
contents Spatiotemporal Overlap of Mallards With Poultry Farms Is Associated With Greater Risk of Avian Influenza Wild Bird Spillover Events Joshua A. Cullen Nicholas M. Masto Jeffery D. Sullivan Cory J. Highway Kelly A. Patyk Mary‐Jane McCool Mia Kim Torchetti Kristina Lantz Rebecca L. Poulson Deborah L. Carter Jamie C. Feddersen Bradley S. Cohen Diann J. Prosser Ecology and Evolution ABSTRACT Animal movement influences local transmission and geographic spread of pathogens. Waterfowl are known reservoirs of pathogens, including H5 goose/Guangdong lineage ( H5 GsGd ) highly pathogenic avian influenza ( HPAI ). This HPAI virus lineage causes high rates of morbidity and mortality in domestic poultry and many wild bird species. Mallards ( Anas platyrhynchos ) are a generalist waterfowl species whose habitat largely overlaps with many other waterfowl and are considered effective spillover vectors of HPAI . To investigate the potential contribution of waterfowl to HPAI spillover, we used mallards as a proxy and measured the spatiotemporal overlap of 183 GPS ‐tagged mallards during 2021–2022 with respect to confirmed wild bird spillover events in United States (U.S.) poultry farms. Additionally, we estimated the probability of HPAI spillover events as a function of mallard overlap and poultry farm type. We found infrequent overlap instances between mallards and poultry farms; however, several of these overlap instances lasted > 5 days and up to 19 days. Population‐level overlap with poultry farms was greatest during pre‐breeding migration, followed by the breeding season. The probability of HPAI spillover was predicted to be greatest for commercial turkey farms, followed by backyard poultry farms. Importantly, farms overlapped by mallards were more than twice as likely to experience a spillover (i.e., increased risk probability), even in the absence of known mallard infection status at the time of overlap. These findings suggest that mallards (and/or other waterfowl) may be important contributors to HPAI spillover into poultry farms and that additional biosecurity measures may be needed. Because few instances of overlap occurred between mallards and farms with reported spillover events, tagged mallards are likely a proxy for other untagged waterfowl. Further studies of wild waterfowl interactions with poultry farms could improve understanding of how landscape characteristics influence spatial overlap, potentially informing which premises may require enhanced biosecurity measures. 10.1002/ece3.72221 http://creativecommons.org/licenses/by/4.0/
doi_str_mv 10.1002/ece3.72221
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spellingShingle Spatiotemporal Overlap of Mallards With Poultry Farms Is Associated With Greater Risk of Avian Influenza Wild Bird Spillover Events
Joshua A. Cullen
Nicholas M. Masto
Jeffery D. Sullivan
Cory J. Highway
Kelly A. Patyk
Mary‐Jane McCool
Mia Kim Torchetti
Kristina Lantz
Rebecca L. Poulson
Deborah L. Carter
Jamie C. Feddersen
Bradley S. Cohen
Diann J. Prosser
Ecology and Evolution
Spatiotemporal Overlap of Mallards With Poultry Farms Is Associated With Greater Risk of Avian Influenza Wild Bird Spillover Events Joshua A. Cullen Nicholas M. Masto Jeffery D. Sullivan Cory J. Highway Kelly A. Patyk Mary‐Jane McCool Mia Kim Torchetti Kristina Lantz Rebecca L. Poulson Deborah L. Carter Jamie C. Feddersen Bradley S. Cohen Diann J. Prosser Ecology and Evolution ABSTRACT Animal movement influences local transmission and geographic spread of pathogens. Waterfowl are known reservoirs of pathogens, including H5 goose/Guangdong lineage ( H5 GsGd ) highly pathogenic avian influenza ( HPAI ). This HPAI virus lineage causes high rates of morbidity and mortality in domestic poultry and many wild bird species. Mallards ( Anas platyrhynchos ) are a generalist waterfowl species whose habitat largely overlaps with many other waterfowl and are considered effective spillover vectors of HPAI . To investigate the potential contribution of waterfowl to HPAI spillover, we used mallards as a proxy and measured the spatiotemporal overlap of 183 GPS ‐tagged mallards during 2021–2022 with respect to confirmed wild bird spillover events in United States (U.S.) poultry farms. Additionally, we estimated the probability of HPAI spillover events as a function of mallard overlap and poultry farm type. We found infrequent overlap instances between mallards and poultry farms; however, several of these overlap instances lasted > 5 days and up to 19 days. Population‐level overlap with poultry farms was greatest during pre‐breeding migration, followed by the breeding season. The probability of HPAI spillover was predicted to be greatest for commercial turkey farms, followed by backyard poultry farms. Importantly, farms overlapped by mallards were more than twice as likely to experience a spillover (i.e., increased risk probability), even in the absence of known mallard infection status at the time of overlap. These findings suggest that mallards (and/or other waterfowl) may be important contributors to HPAI spillover into poultry farms and that additional biosecurity measures may be needed. Because few instances of overlap occurred between mallards and farms with reported spillover events, tagged mallards are likely a proxy for other untagged waterfowl. Further studies of wild waterfowl interactions with poultry farms could improve understanding of how landscape characteristics influence spatial overlap, potentially informing which premises may require enhanced biosecurity measures. 10.1002/ece3.72221 http://creativecommons.org/licenses/by/4.0/
title Spatiotemporal Overlap of Mallards With Poultry Farms Is Associated With Greater Risk of Avian Influenza Wild Bird Spillover Events
topic Ecology and Evolution
url https://onlinelibrary.wiley.com/doi/10.1002/ece3.72221