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Differences in single-copy nuclear-DNA sequences among 13 species of passerine birds were measured using DNA-DNA hybridization. A matrix of pairwise dissimilarity values (delta mode distances) was constructed from analysis of fitted thermal dissociation curves. A least-squares method of phylogenetic estimation was used to construct two topologies from the distance matrix, one constraining branch lengths of sister taxa to be equal and the other permitting such lengths to vary. These topologies were identical in the pattern of branching of taxa, and the difference in their sums of squares was not statistically significant, suggesting that rates of DNA evolution in sister groups of nine-primaried oscines are equal. A nonparametric test for nonrandom variation in distances of sister groups to outgroup taxa revealed no statistically significant deviation from random variation that would be expected as a result of measurement error. However, the level of measurement error was such that rates of DNA evolution in sister taxa could vary by as much as 10% without being detected with the statistical methods used here.

DNA evolutionary rates in nine-primaried passerine birds.