%0 Journal Article %A Daniel M. Hooper %T Range Overlap Drives Chromosome Inversion Fixation in Passerine Birds %D 2016 %R 10.1101/053371 %J bioRxiv %P 053371 %X Chromosome inversions evolve frequently but the reasons why remain largely enigmatic. I used cytological descriptions of 410 species of passerine birds (order Passeriformes) to identify pericentric inversion differences between species. Using a new fossil-calibrated phylogeny I examine the phylogenetic, demographic, and genomic context in which these inversions have evolved. The number of inversion differences between closely related species was highly variable yet consistently predicted by a single factor: whether the ranges of species overlapped. This observation holds even when the analysis is restricted to sympatric sister pairs known to hybridize, and which have divergence times estimated similar to allopatric pairs. Inversions were significantly more likely to have fixed on a sex chromosome than an autosome yet variable mutagenic input alone (by chromosome size, map length, GC content, or repeat density) cannot explain the differences between chromosomes in the number of inversions fixed. Together, these results support a model in which inversions in passerines are adaptive and spread by selection when gene flow occurs before reproductive isolation is complete. %U https://www.biorxiv.org/content/biorxiv/early/2016/05/14/053371.full.pdf