Extensive introgressive hybridization within the northern oriole group (Genus Icterus) revealed by three‐species isolation with migration analysis

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https://onlinelibrary.wiley.com/doi/full/10.1002/ece3.365

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https://doi.org/10.1002/ece3.365
 http://hdl.handle.net/11603/11938

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UMBC Biological Sciences Department
UMBC Faculty Collection

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2012-08-29

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journal articles
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Citation of Original Publication

Frode Jacobsen, Kevin E. Omland, Extensive introgressive hybridization within the northern oriole group (Genus Icterus) revealed by three‐species isolation with migration analysis, Ecology and Evolution, Volume 2, Issue 10, 2012 , https://doi.org/10.1002/ece3.365

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Subjects

Allele sharing
coalescent
Icterus
IMa2
incomplete lineage sorting
introgression
multipopulation
northern orioles

Abstract

Until recently, studies of divergence and gene flow among closely-related taxa were generally limited to pairs of sister taxa. However, organisms frequently exchange genes with other non-sister taxa. The “northern oriole” group within genus Icterus exemplifies this problem. This group involves the extensively studied hybrid zone between Baltimore oriole ( Icterus galbula ) and Bullock’s oriole ( I. bullockii ), an alleged hybrid zone between I. bullockii and black-backed oriole ( I. abeillei), and likely mtDNA introgression between I. galbula and I. abeillei . Here, we examine the divergence population genetics of the entire northern oriole group using a multipopulation Isolation-with-Migration (IM) model. In accordance with Haldane’s rule, nuclear loci introgress extensively beyond the I. galbula – I. bullockii hybrid zone, while mtDNA does not. We found no evidence of introgression between I. bullockii and I. abeillei or between I. galbula and I. abeillei when all three species were analyzed together in a three-population model. However, traditional pairwise analysis suggested some nuclear introgression from I. abeillei into I. galbula , probably reflecting genetic contributions from I. bullockii unaccounted for in a two-population model. Thus, only by including all members of this group in the analysis was it possible to rigorously estimate the level of gene flow among these three closely related species.