Estimating Divergence Times in Large Phylogenetic Trees

A new method, PATHd8, for estimating ultrametric trees from trees with edge (branch) lengths proportional to the number of substitutions is proposed. The method allows for an arbitrary number of reference nodes for time calibration, each defined either as absolute age, minimum age, or maximum age, a...

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Bibliographic Details
Published in:Systematic biology 2007-10, Vol.56 (5), p.741-752
Main Authors: Britton, Tom, Anderson, Cajsa Lisa, Jacquet, David, Lundqvist, Samuel, Bremer, Kåre
Format: Article
Language:English
Subjects:
Analytical estimating
Bayesian analysis
Biologi
Biology
Chronograms
Computer Simulation
Data smoothing
Datasets
Divergence times
Estimated taxes
Estimates
estimation
Estimation methods
Evolution
Fossils
Leaves
Likelihood Functions
Methods
Models, Biological
molecular clock
NATURAL SCIENCES
NATURVETENSKAP
Operating systems
Parameter estimation
phylogenetic trees
Phylogenetics
Phylogeny
Plants - classification
Software
substitution rates
Taxa
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Summary:A new method, PATHd8, for estimating ultrametric trees from trees with edge (branch) lengths proportional to the number of substitutions is proposed. The method allows for an arbitrary number of reference nodes for time calibration, each defined either as absolute age, minimum age, or maximum age, and the tree need not be fully resolved. The method is based on estimating node ages by mean path lengths from the node to the leaves but correcting for deviations from a molecular clock suggested by reference nodes. As opposed to most existing methods allowing substitution rate variation, the new method smoothes substitution rates locally, rather than simultaneously over the whole tree, thus allowing for analysis of very large trees. The performance of PATHd8 is compared with other frequently used methods for estimating divergence times. In analyses of three separate data sets, PATHd8 gives similar divergence times to other methods, the largest difference being between crown group ages, where unconstrained nodes get younger ages when analyzed with PATHd8. Overall, chronograms obtained from other methods appear smoother, whereas PATHd8 preserves more of the heterogeneity seen in the original edge lengths. Divergence times are most evenly spread over the chronograms obtained from the Bayesian implementation and the clock-based Langley-Fitch method, and these two methods produce very similar ages for most nodes. Evaluations of PATHd8 using simulated data suggest that PATHd8 is slightly less precise compared with penalized likelihood, but it gives more sensible answers for extreme data sets. A clear advantage with PATHd8 is that it is more or less instantaneous even with trees having several thousand leaves, whereas other programs often run into problems when analyzing trees with hundreds of leaves. PATHd8 is implemented in freely available software.
ISSN:1063-5157
1076-836X
1076-836X
DOI:10.1080/10635150701613783