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Full-Text Articles in Life Sciences
West Nile Virus West Nile Virus Infection In American Robins: New Insights On Dose Response., Larry Clark
West Nile Virus West Nile Virus Infection In American Robins: New Insights On Dose Response., Larry Clark
Larry Clark
West Nile virus (WNV) is a vector-borne pathogen that was first detected in the United States in 1999. The natural transmission cycle of WNV involves mosquito vectors and avian hosts, which vary in their competency to transmit the virus. American robins are an abundant backyard species in the United States and appear to have an important role in the amplification and dissemination of WNV. In this study we examine the response of American robins to infection with various WNV doses within the range of those administered by some natural mosquito vectors. Thirty American robins were assigned a WNV dosage treatment …
Cliff Swallows, Swallow Bugs, And West Nile Virus:, Larry Clark
Cliff Swallows, Swallow Bugs, And West Nile Virus:, Larry Clark
Larry Clark
The cliff swallow (Petrochelidon pyrrhonota) could play an important role in the transmission of West Nile virus (WNV) because of its breeding ecology, reservoir competence status, and potentially high natural exposure rates. Cliff swallows nest within colonies and their nests are occupied year-round by swallow bugs (Oeciacus vicarius), hematophagus ectoparasites that feed primarily on cliff swallows. These parasites are likely exposed to WNV while feeding on infectious blood of nesting cliff swallow adults and nestlings and thus, if competent vectors, could contribute to seasonal elevations in WNV transmission. In addition, swallow bugs remain within nests year-round and therefore could provide …
Wild Bird’S-Eye View Of Influenza Virus A(H1n1), Larry Clark
Wild Bird’S-Eye View Of Influenza Virus A(H1n1), Larry Clark
Larry Clark
Wild bird fecal samples collected and characterized by the USDA as part of a national surveillance effort were sequenced to study the genetic relatedness of avian, swine, and human H1 and N1 subtypes. Our results find that the 2009 H1N1 human outbreak is closely related to swine virus, but falls into different clades in the H1 and N1 trees. Further, there is evidence of multiple viral genetic exchanges between birds and swine. Ongoing research across host species contributes to an understanding of the circulation of influenza viruses.