Phylogenetic Inference, Selection Theory, and History of Science Selected Papers of A. W. F. Edwards with Commentaries
Book contents
- Phylogenetic Inference, Selection Theory, and History of Science
- Frontispiece
- Phylogenetic Inference, Selection Theory, and History of Science
- Copyright page
- Contents
- Selected Featured Papers of A. W. F. Edwards
- Contributors
- Dedication
- Introduction
- Part 1 Selected Papers of A. W. F. Edwards
- Part 2 Commentaries
- Anthony Edwards’s Seminal Contributions to Phylogenetics, Likelihood, and Understanding R. A. Fisher and the History of Genetics
- Anthony Edwards, Luca Cavalli-Sforza, and Phylogenies
- The Historic Split and Merger of Gene Trees and Species Trees
- Likelihood and the Comparative Method in Evolutionary Biology
- Likelihood Inference in Models for the Genetic Diversity of Populations
- A. W. F. Edwards and the Origin of Bayesian Phylogenetics
- A Conversation about Fisher (1930, 1958)
- Edwards on Fisher’s Fundamental Theorem of Natural Selection
- A. W. F. Edwards, R. A. Fisher, and The Genetical Theory of Natural Selection
- Reading and Misreading Fisher: Anthony Edwards and the History of Population Genetics
- Variance-Partitioning and Classification in Human Population Genetics
- Part 3 Interviews with A. W. F. Edwards
- Part 4 A. W. F. Edwards
- Book part
- Index
- References
Anthony Edwards, Luca Cavalli-Sforza, and Phylogenies
from Part 2 - Commentaries
Published online by Cambridge University Press: 29 June 2018
Book contents
- Phylogenetic Inference, Selection Theory, and History of Science
- Frontispiece
- Phylogenetic Inference, Selection Theory, and History of Science
- Copyright page
- Contents
- Selected Featured Papers of A. W. F. Edwards
- Contributors
- Dedication
- Introduction
- Part 1 Selected Papers of A. W. F. Edwards
- Part 2 Commentaries
- Anthony Edwards’s Seminal Contributions to Phylogenetics, Likelihood, and Understanding R. A. Fisher and the History of Genetics
- Anthony Edwards, Luca Cavalli-Sforza, and Phylogenies
- The Historic Split and Merger of Gene Trees and Species Trees
- Likelihood and the Comparative Method in Evolutionary Biology
- Likelihood Inference in Models for the Genetic Diversity of Populations
- A. W. F. Edwards and the Origin of Bayesian Phylogenetics
- A Conversation about Fisher (1930, 1958)
- Edwards on Fisher’s Fundamental Theorem of Natural Selection
- A. W. F. Edwards, R. A. Fisher, and The Genetical Theory of Natural Selection
- Reading and Misreading Fisher: Anthony Edwards and the History of Population Genetics
- Variance-Partitioning and Classification in Human Population Genetics
- Part 3 Interviews with A. W. F. Edwards
- Part 4 A. W. F. Edwards
- Book part
- Index
- References
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- Phylogenetic Inference, Selection Theory, and History of ScienceSelected Papers of A. W. F. Edwards with Commentaries, pp. 325 - 333Publisher: Cambridge University PressPrint publication year: 2018
References
Bryant, D., Bouckaert, R., Felsenstein, J., Rosenberg, N. A., and RoyChoudhury, A.. 2012. Inferring species trees directly from biallelic genetic markers: bypassing gene trees in a full coalescent analysis. Molecular Biology and Evolution 29, 1917–1932.Google Scholar
Camin, J. H. and Sokal, R. R.. 1965. A method for deducing branching sequences in phylogeny. Evolution 19, 311–326.CrossRefGoogle Scholar
Felsenstein, J. 1968. Statistical Inference and the Estimation of Phylogenies. PhD Thesis, Department of Zoology, University of Chicago.Google Scholar
Felsenstein, J. 1973. Maximum likelihood estimation of evolutionary trees from continuous characters. American Journal of Human Genetics 25, 471–492.Google Scholar
Felsenstein, J. 1981. Evolutionary trees from DNA sequences: a maximum likelihood approach. Journal of Molecular Evolution 17, 368–376.Google Scholar
Felsenstein, J. 1982. Numerical methods for inferring evolutionary trees. Quarterly Review of Biology 57, 379–404.CrossRefGoogle Scholar
Felsenstein, J. 1983. Statistical inference of phylogenies. Journal of the Royal Statistical Society. Series A (General) 146, 246–272.CrossRefGoogle Scholar
Fitch, W. M. and Margoliash, E.. 1967. Construction of phylogenetic trees. Science 155, 279–284.Google Scholar
Horne, S. L. 1967. Comparisons of primate catalase tryptic peptides and implications for the study of molecular evolution. Evolution 21, 771–786.Google Scholar
Kashyap, R. L. and Subas, S.. 1974. Statistical estimation of parameters in a phylogenetic tree using a dynamic model of the substitutional process. Journal of Theoretical Biology 47, 75–101.Google Scholar
Neyman, J. 1971. Molecular studies of evolution: a source of novel statistical problems. In Statistical Decision Theory and Related Topics, eds. Gupta, S. S. and Yackel, J., New York: Academic Press, pp. 1–27.Google Scholar
Pickrell, J. K. and Pritchard, J. K.. 2012. Inference of population splits and mixtures from genome-wide gene frequency data. PLoS Genetics 8, e1002967.Google Scholar
RoyChoudhury, A., Felsenstein, J., and Thompson, E. A.. 2008. A two-stage pruning algorithm for likelihood computation for a population tree. Genetics 180, 1095–1105.CrossRefGoogle ScholarPubMed
Saitou, N. and Nei, M.. 1987. The neighbor–joining method: A new method for reconstructing phylogenetic trees. Molecular Biology and Evolution 4, 406–425.Google Scholar
Schröder, E. 1870. Vier combinatorishe Probleme. Zeitschrift für Mathematik und Physik 15, 361–376.Google Scholar
Sokal, R. R. and Sneath, P. H. A.. 1963. Principles of Numerical Taxonomy. San Francisco, CA: W. H. Freeman.Google Scholar
Thompson, E. A., 1975. Human Evolutionary Trees. Cambridge: Cambridge University Press.Google Scholar
Wedderburn, J. H. M. 1922. The functional equation . Annals of Mathematics 24, 121–140.CrossRefGoogle Scholar
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