Ancient DNA Enables Timing of the Pleistocene Origin and Holocene Expansion of Two Adelie Penguin Lineages in Antarctica

The timing of divergent events in history is one of the central goals of contemporary evolutionary biology. Such studies are however dependent on accurate evolutionary rates. Recent developments in ancient DNA analysis enable the estimation of more accurate evolutionary rates and therefore more accu...

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Bibliographic Details
Published in:Molecular Biology and Evolution
Main Authors: Ritchie, Peter A., Millar, Craig D., Gibb, Gillian C., Baroni, Carlo, Lambert, David M.
Format: Text
Language:English
Published: Oxford University Press 2003
Subjects:
Original Articles
Adelie penguin
Antarc*
Antarctica
Pygoscelis adeliae
Online Access:http://mbe.oxfordjournals.org/cgi/content/short/msh012v1
https://doi.org/10.1093/molbev/msh012
Description
Summary:The timing of divergent events in history is one of the central goals of contemporary evolutionary biology. Such studies are however dependent on accurate evolutionary rates. Recent developments in ancient DNA analysis enable the estimation of more accurate evolutionary rates and therefore more accurate timing of divergence events. Consequently, this leads to a better understanding of changes in populations through time. We use an evolutionary rate calculated from ancient DNA of Adélie penguins ( Pygoscelis adeliae ) to time divergent events in their history. We report the presence of two distinct and highly variable mitochondrial DNA lineages and track changes in these through space and time. When the ancient DNA and the phylogenetic rates are used to estimate the time of origin of the lineages, two very different estimates resulted. In addition, these same rates provide very different estimates of the time of expansion of these lineages. We suggest that the rate calculated from ancient DNA is more consistent with the glacial history of Antarctica and requires fewer assumptions than does a narrative based on the phylogenetic rate. Finally, we suggest that our study indicates an important new role for ancient DNA studies in the timing of divergent events in history.

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