Fralin Life Sciences Institute
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Note: In 2019, the Biocomplexity Institute became part of the Fralin Life Sciences Institute.
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Browsing Fralin Life Sciences Institute by Subject "0603 Evolutionary Biology"
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- Apheloria polychroma, a new species of millipede from the Cumberland Mountains (Polydesmida: Xystodesmidae)Marek, Paul E.; Means, Jackson C.; Hennen, Derek A. (Zootaxa, 2018-01-25)Millipedes of the genus Apheloria Chamberlin, 1921 occur in temperate broadleaf forests throughout eastern North America and west of the Mississippi River in the Ozark and Ouachita Mountains. Chemically defended with toxins made up of cyanide and benzaldehyde, the genus is part of a community of xystodesmid millipedes that compose several Müllerian mimicry rings in the Appalachian Mountains. We describe a model species of these mimicry rings, Apheloria polychroma n. sp., one of the most variable in coloration of all species of Diplopoda with more than six color morphs, each associated with a separate mimicry ring.
- Determinants of dengue virus dispersal in the AmericasAllicock, Orchid M.; Sahadeo, Nikita; Lemey, Philippe; Auguste, A. Jonathan; Suchard, Marc A.; Rambaut, Andrew; Carrington, Christine V. F. (Oxford University Press, 2020-07)Dengue viruses (DENVs) are classified into four serotypes, each of which contains multiple genotypes. DENV genotypes introduced into the Americas over the past five decades have exhibited different rates and patterns of spatial dispersal. In order to understand factors underlying these patterns, we utilized a statistical framework that allows for the integration of ecological, socioeconomic, and air transport mobility data as predictors of viral diffusion while inferring the phylogeographic history. Predictors describing spatial diffusion based on several covariates were compared using a generalized linear model approach, where the support for each scenario and its contribution is estimated simultaneously from the data set. Although different predictors were identified for different serotypes, our analysis suggests that overall diffusion of DENV-1, -2, and -3 in the Americas was associated with airline traffic. The other significant predictors included human population size, the geographical distance between countries and between urban centers and the density of people living in urban environments.