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Unlocking the black box of feather louse diversity: A molecular phylogeny of the hyper-diverse genus Brueelia

[Display omitted] •Evolutionary history of feather lice in the Brueelia-complex was reconstructed.•The hyper-diverse genus Brueelia is paraphyletic.•Data support re-recognition of historic genera, and erection of several new genera.•Four feather-louse ecomorphs have evolved repeatedly within the Bru...

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Published in:Molecular phylogenetics and evolution 2016-01, Vol.94 (Pt B), p.737-751
Main Authors: Bush, Sarah E., Weckstein, Jason D., Gustafsson, Daniel R., Allen, Julie, DiBlasi, Emily, Shreve, Scott M., Boldt, Rachel, Skeen, Heather R., Johnson, Kevin P.
Format: Article
Language:English
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Summary:[Display omitted] •Evolutionary history of feather lice in the Brueelia-complex was reconstructed.•The hyper-diverse genus Brueelia is paraphyletic.•Data support re-recognition of historic genera, and erection of several new genera.•Four feather-louse ecomorphs have evolved repeatedly within the Brueelia-complex.•Associations of lice with geography and host-family are correlated with phylogeny. Songbirds host one of the largest, and most poorly understood, groups of lice: the Brueelia-complex. The Brueelia-complex contains nearly one-tenth of all known louse species (Phthiraptera), and the genus Brueelia has over 300 species. To date, revisions have been confounded by extreme morphological variation, convergent evolution, and periodic movement of lice between unrelated hosts. Here we use Bayesian inference based on mitochondrial (COI) and nuclear (EF-1α) gene fragments to analyze the phylogenetic relationships among 333 individuals within the Brueelia-complex. We show that the genus Brueelia, as it is currently recognized, is paraphyletic. Many well-supported and morphologically unified clades within our phylogenetic reconstruction of Brueelia were previously described as genera. These genera should be recognized, and the erection of several new genera should be explored. We show that four distinct ecomorphs have evolved repeatedly within the Brueelia-complex, mirroring the evolutionary history of feather-lice across the entire order. We show that lice in the Brueelia-complex, with some notable exceptions, are extremely host specific and that the host family associations and geographic distributions of these lice are significantly correlated with our understanding of their phylogenetic history. Several ecological phenomena, including phoresis, may be responsible for the macroevolutionary patterns in this diverse group.
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2015.09.015