Spatiotemporal Overlap of Mallards With Poultry Farms Is Associated With Greater Risk of Avian Influenza Wild Bird Spillover Events

IF 2.3 2区生物学 Q2 ECOLOGY

Ecology and Evolution Pub Date : 2025-10-01 DOI:10.1002/ece3.72221

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

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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.

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野鸭与家禽农场的时空重叠与禽流感野鸟溢出事件的更大风险有关。

动物运动影响病原体的本地传播和地理传播。水禽是已知的病原体宿主，包括H5鹅/广东谱系（H5 GsGd）高致病性禽流感。这种高致病性禽流感病毒谱系在家禽和许多野生鸟类中造成高发病率和死亡率。绿头鸭（Anas platyrhynchos）是一种通用水禽，其栖息地与许多其他水禽大部分重叠，被认为是高致病性禽流感的有效外溢媒介。为了调查水禽对高致病性禽流感外溢的潜在贡献，我们以野鸭为代表，测量了美国家禽养殖场在2021-2022年确认的野鸟外溢事件中183只带gps标记的野鸭的时空重叠。此外，我们估计了高致病性禽流感外溢事件的概率是野鸭重叠和家禽养殖场类型的函数。我们发现野鸭和家禽养殖场之间很少有重叠的情况；然而，其中一些重叠实例持续了50天至19天。在繁殖前迁徙期间与家禽养殖场的种群水平重叠最大，其次是繁殖季节。预计高致病性禽流感外溢的可能性在商业火鸡养殖场最大，其次是后院家禽养殖场。重要的是，即使在重叠时没有已知的绿头鸭感染状况，被绿头鸭重叠的农场也有两倍多的可能性经历溢出（即风险概率增加）。这些发现表明，野鸭（和/或其他水禽）可能是导致高致病性禽流感外溢到家禽养殖场的重要因素，可能需要采取额外的生物安全措施。因为在野鸭和农场之间很少发生重叠的情况，有标记的野鸭很可能是其他未标记的水禽的代表。对野生水禽与家禽养殖场相互作用的进一步研究可以提高对景观特征如何影响空间重叠的理解，从而潜在地告知哪些场所可能需要加强生物安全措施。

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来源期刊

Ecology and Evolution ECOLOGY-

CiteScore

4.40

自引率

3.80%

发文量

1027

审稿时长

3-6 weeks

期刊介绍： Ecology and Evolution is the peer reviewed journal for rapid dissemination of research in all areas of ecology, evolution and conservation science. The journal gives priority to quality research reports, theoretical or empirical, that develop our understanding of organisms and their diversity, interactions between them, and the natural environment. Ecology and Evolution gives prompt and equal consideration to papers reporting theoretical, experimental, applied and descriptive work in terrestrial and aquatic environments. The journal will consider submissions across taxa in areas including but not limited to micro and macro ecological and evolutionary processes, characteristics of and interactions between individuals, populations, communities and the environment, physiological responses to environmental change, population genetics and phylogenetics, relatedness and kin selection, life histories, systematics and taxonomy, conservation genetics, extinction, speciation, adaption, behaviour, biodiversity, species abundance, macroecology, population and ecosystem dynamics, and conservation policy.