Vector competence of northern and southern European Culex pipiens pipiens mosquitoes for West Nile virus across a gradient of temperatures

Vector competence of northern and southern European Culex pipiens pipiens mosquitoes for West Nile virus across a gradient of temperatures

In Europe, West Nile virus (WNV) outbreaks have been limited to southern and central European countries. However, competent mosquito vectors and susceptible bird hosts are present in northern Europe. Differences in temperature and vector competence of mosquito populations may explain the absence of...

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Bibliographic Details
Published in:Medical and veterinary entomology Vol. 31; no. 4; pp. 358 - 364
Main Authors: Vogels, C. B. F., Göertz, G. P., Pijlman, G. P., Koenraadt, C. J. M.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-12-2017
Wiley Subscription Services, Inc
Subjects:
Animals
Arbovirus
Culex - virology
Culex pipiens
Culex pipiens complex
Culicidae
Disease transmission
Epidemics
Female
Infection
Infections
Insect Vectors - virology
Italy
Mosquitoes
Netherlands
Northern house mosquito
Outbreaks
Temperature
The Netherlands
Transmission
Vectors
West Nile Fever - transmission
West Nile Fever - virology
West Nile virus
West Nile virus - physiology
The Netherlands
Culex pipiens complex
northern house mosquito
infection
transmission
Italy
arbovirus
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Summary:In Europe, West Nile virus (WNV) outbreaks have been limited to southern and central European countries. However, competent mosquito vectors and susceptible bird hosts are present in northern Europe. Differences in temperature and vector competence of mosquito populations may explain the absence of WNV outbreaks in northern Europe. The aim of the present study was to directly compare vector competence of northern and southern European Culex pipiens (Cx. p.) pipiens mosquitoes for WNV across a gradient of temperatures. WNV infection and transmission rates were determined for two Cx. p. pipiens populations originating from The Netherlands and Italy, respectively. Mosquitoes were orally exposed by providing an infectious bloodmeal, or by injecting WNV (lineage 2) in the thorax, followed by 14‐day incubation at 18, 23, or 28 °C. No differences in infection or transmission rates were found between the Cx. p. pipiens populations with both infection methods, but WNV transmission rates were significantly higher at temperatures above 18 °C. The absence of WNV outbreaks in northern Europe cannot be explained by differences in vector competence between Cx. p. pipiens populations originating from northern and southern Europe. This study suggests that low temperature is a key limiting factor for WNV transmission.
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ISSN:0269-283X
1365-2915
DOI:10.1111/mve.12251