West Nile virus and climate change.

2区 医学 Q1 Medicine Advances in Virus Research Pub Date : 2022-01-01 Epub Date: 2022-10-07 DOI:10.1016/bs.aivir.2022.08.002
Rachel L Fay, Alexander C Keyel, Alexander T Ciota
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Abstract

West Nile virus (WNV) is a mosquito-borne flavivirus with a global distribution that is maintained in an enzootic cycle between Culex species mosquitoes and avian hosts. Human infection, which occurs as a result of spillover from this cycle, is generally subclinical or results in a self-limiting febrile illness. Central nervous system infection occurs in a minority of infections and can lead to long-term neurological complications and, rarely, death. WNV is the most prevalent arthropod-borne virus in the United States. Climate change can influence several aspects of WNV transmission including the vector, amplifying host, and virus. Climate change is broadly predicted to increase WNV distribution and risk across the globe, yet there will likely be significant regional variability and limitations to this effect. Increases in temperature can accelerate mosquito and pathogen development, drive increases in vector competence for WNV, and also alter mosquito life history traits including longevity, blood feeding behavior and fecundity. Precipitation, humidity and drought also impact WNV transmissibility. Alteration in avian distribution, diversity and phenology resulting from climate variation add additional complexity to these relationships. Here, we review WNV epidemiology, transmission, disease and genetics in the context of laboratory studies, field investigations, and infectious disease models under climate change. We summarize how mosquito genetics, microbial interactions, host dynamics, viral strain, population size, land use and climate account for distinct relationships that drive WNV activity and discuss how these dynamic and evolving interactions could shape WNV transmission and disease under climate change.

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西尼罗河病毒与气候变化。
西尼罗河病毒(WNV)是一种由蚊子传播的黄病毒,分布于全球各地,在库蚊和禽类宿主之间维持着一个流行循环。人类感染是这一循环的外溢结果,通常是亚临床感染或导致自限性发热性疾病。中枢神经系统感染发生在少数感染病例中,可导致长期的神经系统并发症,在极少数情况下可导致死亡。WNV 是美国最流行的节肢动物传播病毒。气候变化会影响 WNV 传播的多个方面,包括病媒、扩增宿主和病毒。据广泛预测,气候变化将增加 WNV 在全球的分布和风险,但这种影响可能存在显著的区域差异性和局限性。气温升高会加速蚊子和病原体的发展,增加病媒对 WNV 的感染能力,还会改变蚊子的生活史特征,包括寿命、吸血行为和繁殖力。降水、湿度和干旱也会影响 WNV 的传播。气候变异导致的鸟类分布、多样性和物候学的改变也增加了这些关系的复杂性。在此,我们结合实验室研究、实地调查和气候变化下的传染病模型,回顾了 WNV 的流行病学、传播、疾病和遗传学。我们总结了蚊子遗传学、微生物相互作用、宿主动力学、病毒株、种群规模、土地利用和气候是如何形成驱动 WNV 活动的独特关系的,并讨论了这些动态和不断演变的相互作用是如何在气候变化下形成 WNV 传播和疾病的。
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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来源期刊
CiteScore
7.10
自引率
0.00%
发文量
7
审稿时长
>12 weeks
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