Sequencias genômicas completas de DNA mitocondrial revelam que as aves modernas não descendem de aves costeiras transicionais

terça-feira, novembro 22, 2011

Complete mitochondrial DNA genome sequences show that modern birds are not descended from transitional shorebirds

Tara Paton1,2,*, Oliver Haddrath1 and Allan J. Baker1,2

Author Affiliations

1 Centre for Biodiversity and Conservation Biology, Royal Ontario Museum, 100 Quee's Park, Toronto, ON, Canada M5S 2C6
2 2Department of Zoology, University of Toronto, Toronto, ON, Canada M5S 1A1

*Author for correspondence (


To test the hypothesis put forward by Feduccia of the origin of modern birds from transitional birds, we sequenced the first two complete mitochondrial genomes of shorebirds (ruddy turnstone and blackish oystercatcher) and compared their sequences with those of already published avian genomes. When corrected for rate heterogeneity across sites and non–homogeneous nucleotide compositions among lineages in maximum likelihood (ML), the optimal tree places palaeognath birds as sister to the neognaths including shorebirds. This optimal topology is a re–rooting of recently published ordinal–level avian trees derived from mitochondrial sequences. Using a penalized likelihood (PL) rate–smoothing process in conjunction with dates estimated from fossils, we show that the basal splits in the bird tree are much older than the Cretaceous–Tertiary (K–T) boundary, reinforcing previous molecular studies that rejected the derivation of modern birds from transitional shorebirds. Our mean estimate for the origin of modern birds at about 123 million years ago (Myr ago) is quite close to recent estimates using both nuclear and mitochondrial genes, and supports theories of continental break–up as a driving force in avian diversification. Not only did many modern orders of birds originate well before the K–T boundary, but the radiation of major clades occurred over an extended period of at least 40 Myr ago, thus also falsifying Feduccia's rapid radiation scenario following a K–T bottleneck.

phylogeny, mitochondrial DNA genomes, Charadriiformes, molecular dating