Ebook: Mathematical Population Genetics: I. Theoretical Introduction
Author: Warren J. Ewens (auth.)
- Genre: Biology
- Tags: Applications of Mathematics, Evolutionary Biology, Genetics and Population Dynamics, Mathematical and Computational Biology
- Series: Interdisciplinary Applied Mathematics 27
- Year: 2004
- Publisher: Springer-Verlag New York
- Edition: 2
- Language: English
- pdf
Population genetics occupies a central role in a number of important biological and social undertakings. It is fundamental to our understanding of evolutionary processes, of plant and animal breeding programs, and of various diseases of particular importance to mankind. This is the first of a planned two-volume work discussing the mathematical aspects of population genetics, with an emphasis on the evolutionary theory. This first volume draws heavily from the author's classic 1979 edition since the material in that edition may be taken, to a large extent, as introductory to the contemporary theory. It has been revised and expanded to include recent topics that follow naturally from the treatment in the earlier edition, e.g., the theory of molecular population genetics and coalescent theory.
This book will appeal to graduate students and researchers interested in theoretical population genetics and evolution.
Reviews of the first edition:
Ewens book will be an important reference to anyone interested in the mathematical aspects of population genetics, not only to those actually doing it, but also to anyone trying to bridge the now substantial gap between theoretical and experimental population genetics.
Woodrow Setzer, Quarterly Review of Biology, 1980
This book is an excellent combination of an introduction to population genetics theory for a mathematically sophisticated reader, together with a survey of current work in the field.
Stanley Sawyer, SIAM Review, 1980
Population genetics occupies a central role in a number of important biological and social undertakings. It is fundamental to our understanding of evolutionary processes, of plant and animal breeding programs, and of various diseases of particular importance to mankind. This is the first of a planned two-volume work discussing the mathematical aspects of population genetics, with an emphasis on the evolutionary theory. This first volume draws heavily from the author's classic 1979 edition since the material in that edition may be taken, to a large extent, as introductory to the contemporary theory. It has been revised and expanded to include recent topics that follow naturally from the treatment in the earlier edition, e.g., the theory of molecular population genetics and coalescent theory.
This book will appeal to graduate students and researchers interested in theoretical population genetics and evolution.
Reviews of the first edition:
Ewens book will be an important reference to anyone interested in the mathematical aspects of population genetics, not only to those actually doing it, but also to anyone trying to bridge the now substantial gap between theoretical and experimental population genetics.
Woodrow Setzer, Quarterly Review of Biology, 1980
This book is an excellent combination of an introduction to population genetics theory for a mathematically sophisticated reader, together with a survey of current work in the field.
Stanley Sawyer, SIAM Review, 1980
Population genetics occupies a central role in a number of important biological and social undertakings. It is fundamental to our understanding of evolutionary processes, of plant and animal breeding programs, and of various diseases of particular importance to mankind. This is the first of a planned two-volume work discussing the mathematical aspects of population genetics, with an emphasis on the evolutionary theory. This first volume draws heavily from the author's classic 1979 edition since the material in that edition may be taken, to a large extent, as introductory to the contemporary theory. It has been revised and expanded to include recent topics that follow naturally from the treatment in the earlier edition, e.g., the theory of molecular population genetics and coalescent theory.
This book will appeal to graduate students and researchers interested in theoretical population genetics and evolution.
Reviews of the first edition:
Ewens book will be an important reference to anyone interested in the mathematical aspects of population genetics, not only to those actually doing it, but also to anyone trying to bridge the now substantial gap between theoretical and experimental population genetics.
Woodrow Setzer, Quarterly Review of Biology, 1980
This book is an excellent combination of an introduction to population genetics theory for a mathematically sophisticated reader, together with a survey of current work in the field.
Stanley Sawyer, SIAM Review, 1980
Content:
Front Matter....Pages i-xix
Historical Background....Pages 1-42
Technicalities and Generalizations....Pages 43-91
Discrete Stochastic Models....Pages 92-135
Diffusion Theory....Pages 136-155
Applications of Diffusion Theory....Pages 156-200
Two Loci....Pages 201-240
Many Loci....Pages 241-275
Further Considerations....Pages 276-287
Molecular Population Genetics: Introduction....Pages 288-327
Looking Backward in Time: The Coalescent....Pages 328-345
Looking Backward: Testing the Neutral Theory....Pages 346-369
Looking Backward in Time: Population and Species Comparisons....Pages 370-383
Back Matter....Pages 384-419
Population genetics occupies a central role in a number of important biological and social undertakings. It is fundamental to our understanding of evolutionary processes, of plant and animal breeding programs, and of various diseases of particular importance to mankind. This is the first of a planned two-volume work discussing the mathematical aspects of population genetics, with an emphasis on the evolutionary theory. This first volume draws heavily from the author's classic 1979 edition since the material in that edition may be taken, to a large extent, as introductory to the contemporary theory. It has been revised and expanded to include recent topics that follow naturally from the treatment in the earlier edition, e.g., the theory of molecular population genetics and coalescent theory.
This book will appeal to graduate students and researchers interested in theoretical population genetics and evolution.
Reviews of the first edition:
Ewens book will be an important reference to anyone interested in the mathematical aspects of population genetics, not only to those actually doing it, but also to anyone trying to bridge the now substantial gap between theoretical and experimental population genetics.
Woodrow Setzer, Quarterly Review of Biology, 1980
This book is an excellent combination of an introduction to population genetics theory for a mathematically sophisticated reader, together with a survey of current work in the field.
Stanley Sawyer, SIAM Review, 1980
Content:
Front Matter....Pages i-xix
Historical Background....Pages 1-42
Technicalities and Generalizations....Pages 43-91
Discrete Stochastic Models....Pages 92-135
Diffusion Theory....Pages 136-155
Applications of Diffusion Theory....Pages 156-200
Two Loci....Pages 201-240
Many Loci....Pages 241-275
Further Considerations....Pages 276-287
Molecular Population Genetics: Introduction....Pages 288-327
Looking Backward in Time: The Coalescent....Pages 328-345
Looking Backward: Testing the Neutral Theory....Pages 346-369
Looking Backward in Time: Population and Species Comparisons....Pages 370-383
Back Matter....Pages 384-419
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