The Oldest Platypus and Its Bearing on Divergence Timing of the Platypus and Echidna Clades

The Oldest Platypus and Its Bearing on Divergence Timing of the Platypus and Echidna Clades

Monotremes have left a poor fossil record, and paleontology has been virtually mute during two decades of discussion about molecular clock estimates of the timing of divergence between the platypus and echidna clades. We describe evidence from high-resolution x-ray computed tomography indicating tha...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 105; no. 4; pp. 1238 - 1242
Main Authors: Rowe, Timothy, Rich, Thomas H., Vickers-Rich, Patricia, Springer, Mark, Woodburne, Michael O.
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 29-01-2008
National Acad Sciences
Subjects:
Animals
Australia
Biological Sciences
Canals
Datasets
Echidna
Echidnas
Estimates
Evolution, Molecular
Evolutionary biology
Fossils
Jaw
Mammals
Monotremata
Monotremes
Phylogeny
Platypus
Tachyglossidae
Taxa
Teeth
Time
Tomography
Tomography, X-Ray Computed
Australia
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Summary:Monotremes have left a poor fossil record, and paleontology has been virtually mute during two decades of discussion about molecular clock estimates of the timing of divergence between the platypus and echidna clades. We describe evidence from high-resolution x-ray computed tomography indicating that Teinolophos, an Early Cretaceous fossil from Australia's Flat Rocks locality (121-112.5 Ma), lies within the crown clade Monotremata, as a basal platypus. Strict molecular clock estimates of the divergence between platypus and echidnas range from 17 to 80 Ma, but Teinolophos suggests that the two monotreme clades were already distinct in the Early Cretaceous, and that their divergence may predate even the oldest strict molecular estimates by at least 50%. We generated relaxed molecular clock models using three different data sets, but only one yielded a date overlapping with the age of Teinolophos. Morphology suggests that Teinolophos is a platypus in both phylogenetic and ecological aspects, and tends to contradict the popular view of rapid Cenozoic monotreme diversification. Whereas the monotreme fossil record is still sparse and open to interpretation, the new data are consistent with much slower ecological, morphological, and taxonomic diversification rates for monotremes than in their sister taxon, the therian mammals. This alternative view of a deep geological history for monotremes suggests that rate heterogeneities may have affected mammalian evolution in such a way as to defeat strict molecular clock models and to challenge even relaxed molecular clock models when applied to mammalian history at a deep temporal scale.
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Edited by David B. Wake, University of California, Berkeley, CA, and approved October 31, 2007
Author contributions: T.R., T.H.R., M.S., and M.O.W. designed research; T.R., T.H.R., P.V.-R., M.S., and M.O.W. performed research; M.S. contributed new reagents/analytic tools; T.R., M.S., and M.O.W. analyzed data; and T.R. wrote the paper.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0706385105