Detection of airborne wild waterbird-derived DNA demonstrates potential for transmission of avian influenza virus via air inlets into poultry houses, the Netherlands, 2021 to 2022.

IF 9.9 2区 医学 Q1 INFECTIOUS DISEASES
Alex Bossers, Myrna Mt de Rooij, Isabella van Schothorst, Francisca C Velkers, Lidwien Am Smit
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引用次数: 0

Abstract

BackgroundOutbreaks of highly pathogenic avian influenza (HPAI) on poultry farms and in wild birds worldwide persists despite intensified control measures. It causes unprecedented mortality in bird populations and is increasingly affecting mammalian species. Better understanding of HPAI introduction pathways into farms are needed for targeted disease prevention and control. The relevance of airborne transmission has been suggested but research involving air sampling is limited and unequivocal evidence on transmission routes is lacking.AimWe aimed to investigate whether HPAI virus from wild birds can enter poultry houses through air inlets by characterising host materials through eukaryote DNA sequencing.MethodsWe collected particulate matter samples in and around three HPAI-affected poultry farms which were cleared and decontaminated before sampling. Indoor measurements (n = 61) were taken directly in the airflow entering through air inlets, while outdoor air samples (n = 60) were collected around the poultry house. Positive controls were obtained from a bird rehabilitation shelter. We performed metabarcoding on environmental DNA by deep sequencing 18S rRNA gene amplicons.ResultsWe detected waterbird DNA in air inside all three, and outside of two, poultry farms. Sequences annotated at species level included swans and tufted ducks. Waterbird DNA was present in all indoor and outdoor air samples from the bird shelter.ConclusionAirborne matter derived from contaminated wild birds can potentially introduce HPAI virus to poultry houses through air inlets. The eDNA metabarcoding could assess breaches in biosecurity for HPAI virus and other pathogens potentially transmitted through air via detection of their hosts.

2021 年至 2022 年,荷兰通过空气传播的野生水鸟 DNA 表明禽流感病毒有可能通过禽舍的进气口传播。
背景尽管采取了强化控制措施,但高致病性禽流感(HPAI)仍在世界各地的家禽养殖场和野生鸟类中爆发。高致病性禽流感导致鸟类空前死亡,并越来越多地影响哺乳动物物种。为了有针对性地预防和控制疾病,需要更好地了解高致病性禽流感传入农场的途径。我们的目的是通过真核生物 DNA 测序确定宿主材料的特征,从而研究野鸟的高致病性禽流感病毒是否会通过进气口进入禽舍。方法我们在三个受高致病性禽流感影响的家禽养殖场及其周围收集了颗粒物样本,这些样本在采样前已被清理和净化。室内测量(n = 61)直接在通过进气口进入的气流中进行,室外空气样本(n = 60)在禽舍周围采集。阳性对照组来自鸟类康复中心。通过对 18S rRNA 基因扩增子进行深度测序,我们对环境 DNA 进行了代谢编码。物种级别的序列包括天鹅和绒鸭。所有来自禽舍的室内和室外空气样本中都含有水鸟 DNA。eDNA 代谢编码可通过检测寄主来评估高致病性禽流感病毒和其他可能通过空气传播的病原体的生物安全漏洞。
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来源期刊
Eurosurveillance
Eurosurveillance INFECTIOUS DISEASES-
CiteScore
32.70
自引率
2.10%
发文量
430
审稿时长
3-8 weeks
期刊介绍: Eurosurveillance is a European peer-reviewed journal focusing on the epidemiology, surveillance, prevention, and control of communicable diseases relevant to Europe.It is a weekly online journal, with 50 issues per year published on Thursdays. The journal includes short rapid communications, in-depth research articles, surveillance reports, reviews, and perspective papers. It excels in timely publication of authoritative papers on ongoing outbreaks or other public health events. Under special circumstances when current events need to be urgently communicated to readers for rapid public health action, e-alerts can be released outside of the regular publishing schedule. Additionally, topical compilations and special issues may be provided in PDF format.
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