Large Punctuational Contribution of Speciation to Evolutionary Divergence at the Molecular Level
- 6 October 2006
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 314 (5796) , 119-121
- https://doi.org/10.1126/science.1129647
Abstract
A long-standing debate in evolutionary biology concerns whether species diverge gradually through time or by punctuational episodes at the time of speciation. We found that approximately 22% of substitutional changes at the DNA level can be attributed to punctuational evolution, and the remainder accumulates from background gradual divergence. Punctuational effects occur at more than twice the rate in plants and fungi than in animals, but the proportion of total divergence attributable to punctuational change does not vary among these groups. Punctuational changes cause departures from a clock-like tempo of evolution, suggesting that they should be accounted for in deriving dates from phylogenies. Punctuational episodes of evolution may play a larger role in promoting evolutionary divergence than has previously been appreciated.Keywords
This publication has 28 references indexed in Scilit:
- Evolution in ActionScience, 2005
- Initial sequence of the chimpanzee genome and comparison with the human genomeNature, 2005
- Molecular clocks: four decades of evolutionNature Reviews Genetics, 2005
- THE EFFECT OF WOLBACHIA VERSUS GENETIC INCOMPATIBILITIES ON REINFORCEMENT AND SPECIATIONEvolution, 2005
- Advances in the study of polyploidy sincePlant speciationNew Phytologist, 2003
- Molecular Phylogenies Link Rates of Evolution and SpeciationScience, 2003
- Inferring evolutionary processes from phylogeniesZoologica Scripta, 1997
- The Nearly Neutral Theory of Molecular EvolutionAnnual Review of Ecology and Systematics, 1992
- Species Formation Through Punctuated Gradualism in Planktonic ForaminiferaScience, 1984
- Gradualism, punctuated equilibrium and the Origin of SpeciesNature, 1983