A curious coincidence: mosquito biodiversity and the limits of the Japanese encephalitis virus in Australasia

A curious coincidence: mosquito biodiversity and the limits of the Japanese encephalitis virus in Australasia

<p>Abstract</p> <p>Background</p> <p>The mosquito <it>Culex annulirostris </it>Skuse (Diptera: Culicidae) is the major vector of endemic arboviruses in Australia and is also responsible for the establishment of the Japanese encephalitis virus (JEV) in southe...

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Main Authors: Russell Richard C, Whelan Peter I, Cooper Robert D, van den Hurk Andrew F, Šlapeta Jan, Hemmerter Stéphane, Johansen Cheryl A, Beebe Nigel W
Format: Article
Language:English
Published: BMC 2007-06-01
Series:BMC Evolutionary Biology
Online Access:http://www.biomedcentral.com/1471-2148/7/100
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spelling doaj-84a7c75684414793b66038bd836942d12021-09-02T06:12:16ZengBMCBMC Evolutionary Biology1471-21482007-06-017110010.1186/1471-2148-7-100A curious coincidence: mosquito biodiversity and the limits of the Japanese encephalitis virus in AustralasiaRussell Richard CWhelan Peter ICooper Robert Dvan den Hurk Andrew FŠlapeta JanHemmerter StéphaneJohansen Cheryl ABeebe Nigel W<p>Abstract</p> <p>Background</p> <p>The mosquito <it>Culex annulirostris </it>Skuse (Diptera: Culicidae) is the major vector of endemic arboviruses in Australia and is also responsible for the establishment of the Japanese encephalitis virus (JEV) in southern Papua New Guinea (PNG) as well as its incursions into northern Australia. Papua New Guinea and mainland Australia are separated by a small stretch of water, the Torres Strait, and its islands. While there has been regular JEV activity on these islands, JEV has not established on mainland Australia despite an abundance of <it>Cx. annulirostris </it>and porcine amplifying hosts. Despite the public health significance of this mosquito and the fact that its adults show overlapping morphology with close relative <it>Cx. palpalis </it>Taylor, its evolution and genetic structure remain undetermined. We address a hypothesis that there is significant genetic diversity in <it>Cx. annulirostris </it>and that the identification of this diversity will shed light on the paradox that JEV can cycle on an island 70 km from mainland Australia while not establishing in Australia itself.</p> <p>Results</p> <p>We sequenced 538 bp of the mitochondrial <it>DNA cytochrome oxidase I </it>gene from 273 individuals collected from 43 localities in Australia and the southwest Pacific region to describe the phylogeography of <it>Cx. annulirostris </it>and its sister species <it>Cx. palpalis</it>. Maximum Likelihood and Bayesian analyses reveal supporting evidence for multiple divergent lineages that display geographic restriction. <it>Culex palpalis </it>contained three divergent lineages geographically restricted to southern Australia, northern Australia and Papua New Guinea (PNG). <it>Culex annulirostris </it>contained five geographically restricted divergent lineages, with one lineage restricted to the Solomon Islands and two identified mainly within Australia while two other lineages showed distributions in PNG and the Torres Strait Islands with a southern limit at the top of Australia's Cape York Peninsula.</p> <p>Conclusion</p> <p>The existence of divergent mitochondrial lineages within <it>Cx. annulirostris </it>and <it>Cx. palpalis </it>helps explain the difficulty of using adult morphology to identify <it>Cx. annulirostris </it>and its ecological diversity. Notably, the southern limit of the PNG lineages of <it>Cx. annulirostris </it>coincides exactly with the current southern limit of JEV activity in Australasia suggesting that variation in these COI lineages may be the key to why JEV has not yet established yet on mainland Australia.</p> http://www.biomedcentral.com/1471-2148/7/100
collection DOAJ
language English
format Article
sources DOAJ
author Russell Richard C
Whelan Peter I
Cooper Robert D
van den Hurk Andrew F
Šlapeta Jan
Hemmerter Stéphane
Johansen Cheryl A
Beebe Nigel W
spellingShingle Russell Richard C
Whelan Peter I
Cooper Robert D
van den Hurk Andrew F
Šlapeta Jan
Hemmerter Stéphane
Johansen Cheryl A
Beebe Nigel W
A curious coincidence: mosquito biodiversity and the limits of the Japanese encephalitis virus in Australasia
BMC Evolutionary Biology
author_facet Russell Richard C
Whelan Peter I
Cooper Robert D
van den Hurk Andrew F
Šlapeta Jan
Hemmerter Stéphane
Johansen Cheryl A
Beebe Nigel W
author_sort Russell Richard C
title A curious coincidence: mosquito biodiversity and the limits of the Japanese encephalitis virus in Australasia
title_short A curious coincidence: mosquito biodiversity and the limits of the Japanese encephalitis virus in Australasia
title_full A curious coincidence: mosquito biodiversity and the limits of the Japanese encephalitis virus in Australasia
title_fullStr A curious coincidence: mosquito biodiversity and the limits of the Japanese encephalitis virus in Australasia
title_full_unstemmed A curious coincidence: mosquito biodiversity and the limits of the Japanese encephalitis virus in Australasia
title_sort curious coincidence: mosquito biodiversity and the limits of the japanese encephalitis virus in australasia
publisher BMC
series BMC Evolutionary Biology
issn 1471-2148
publishDate 2007-06-01
description <p>Abstract</p> <p>Background</p> <p>The mosquito <it>Culex annulirostris </it>Skuse (Diptera: Culicidae) is the major vector of endemic arboviruses in Australia and is also responsible for the establishment of the Japanese encephalitis virus (JEV) in southern Papua New Guinea (PNG) as well as its incursions into northern Australia. Papua New Guinea and mainland Australia are separated by a small stretch of water, the Torres Strait, and its islands. While there has been regular JEV activity on these islands, JEV has not established on mainland Australia despite an abundance of <it>Cx. annulirostris </it>and porcine amplifying hosts. Despite the public health significance of this mosquito and the fact that its adults show overlapping morphology with close relative <it>Cx. palpalis </it>Taylor, its evolution and genetic structure remain undetermined. We address a hypothesis that there is significant genetic diversity in <it>Cx. annulirostris </it>and that the identification of this diversity will shed light on the paradox that JEV can cycle on an island 70 km from mainland Australia while not establishing in Australia itself.</p> <p>Results</p> <p>We sequenced 538 bp of the mitochondrial <it>DNA cytochrome oxidase I </it>gene from 273 individuals collected from 43 localities in Australia and the southwest Pacific region to describe the phylogeography of <it>Cx. annulirostris </it>and its sister species <it>Cx. palpalis</it>. Maximum Likelihood and Bayesian analyses reveal supporting evidence for multiple divergent lineages that display geographic restriction. <it>Culex palpalis </it>contained three divergent lineages geographically restricted to southern Australia, northern Australia and Papua New Guinea (PNG). <it>Culex annulirostris </it>contained five geographically restricted divergent lineages, with one lineage restricted to the Solomon Islands and two identified mainly within Australia while two other lineages showed distributions in PNG and the Torres Strait Islands with a southern limit at the top of Australia's Cape York Peninsula.</p> <p>Conclusion</p> <p>The existence of divergent mitochondrial lineages within <it>Cx. annulirostris </it>and <it>Cx. palpalis </it>helps explain the difficulty of using adult morphology to identify <it>Cx. annulirostris </it>and its ecological diversity. Notably, the southern limit of the PNG lineages of <it>Cx. annulirostris </it>coincides exactly with the current southern limit of JEV activity in Australasia suggesting that variation in these COI lineages may be the key to why JEV has not yet established yet on mainland Australia.</p>
url http://www.biomedcentral.com/1471-2148/7/100
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