From islands to infectomes: host-specific viral diversity among birds across remote islands.

IF 2.3 Q2 ECOLOGY
Rebecca M Grimwood, Enzo M R Reyes, Jamie Cooper, Jemma Welch, Graeme Taylor, Troy Makan, Lauren Lim, Jérémy Dubrulle, Kate McInnes, Edward C Holmes, Jemma L Geoghegan
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Abstract

Background: Accelerating biodiversity loss necessitates monitoring the potential pathogens of vulnerable species. With a third of New Zealand's avifauna considered at risk of extinction, a greater understanding of the factors that influence microbial transmission in this island ecosystem is needed. We used metatranscriptomics to determine the viruses, as well as other microbial organisms (i.e. the infectomes), of seven bird species, including the once critically endangered black robin (Petroica traversi), on two islands in the remote Chatham Islands archipelago, New Zealand.

Results: We identified 19 likely novel avian viruses across nine viral families. Black robins harboured viruses from the Flaviviridae, Herpesviridae, and Picornaviridae, while introduced starlings (Sturnus vulgaris) and migratory seabirds (Procellariiformes) carried viruses from six additional viral families. Potential cross-species virus transmission of a novel passerivirus (family: Picornaviridae) between native (black robins and grey-backed storm petrels) and introduced (starlings) birds was also observed. Additionally, we identified bacterial genera, apicomplexan parasites, as well as a novel megrivirus linked to disease outbreaks in other native New Zealand birds. Notably, island effects were outweighed by host taxonomy as a significant driver of viral composition, even among sedentary birds.

Conclusions: These findings underscore the value of surveillance of avian populations to identify and minimise escalating threats of disease emergence and spread in these island ecosystems. Importantly, they contribute to our understanding of the potential role of introduced and migratory birds in the transmission of microbes and associated diseases, which could impact vulnerable island-endemic species.

Abstract Image

从岛屿到感染体:偏远岛屿鸟类宿主特异性病毒多样性。
背景:生物多样性的加速丧失要求对脆弱物种的潜在病原体进行监测。新西兰三分之一的鸟类面临灭绝的危险,因此需要进一步了解影响这个岛屿生态系统微生物传播的因素。我们利用元转录组学确定了新西兰偏远的查塔姆群岛两个岛屿上七个鸟类物种的病毒以及其他微生物有机体(即感染组),其中包括一度极度濒危的黑知更鸟(Petroica traversi):结果:我们在 9 个病毒科中发现了 19 种可能的新型禽类病毒。黑知更鸟携带了黄病毒科、疱疹病毒科和皮卡病毒科的病毒,而引进的椋鸟(Sturnus vulgaris)和候鸟海鸟(Procellariiformes)则携带了另外六个病毒科的病毒。我们还观察到一种新型传病病毒(科:Picornaviridae)可能在本地鸟类(黑鸲和灰背风暴海燕)和引进鸟类(椋鸟)之间进行跨物种传播。此外,我们还发现了与新西兰其他本土鸟类疾病暴发有关的细菌属、无形体寄生虫以及一种新型巨型病毒。值得注意的是,即使在定居鸟类中,宿主分类对病毒组成的重要影响也超过了岛屿影响:这些发现强调了对鸟类种群进行监测的价值,以识别并尽量减少这些岛屿生态系统中不断升级的疾病出现和传播的威胁。重要的是,这些发现有助于我们了解引进鸟类和候鸟在传播微生物和相关疾病方面的潜在作用,这可能会影响脆弱的岛屿特有物种。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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