Phylogeny
Discrete and Random Processes in Evolution
Will be published approx. on 30. September 2016
Book
Paperback/Softback
309 pages
978-1-61197-447-8 (ISBN)
Description
Phylogenetics is a topical and growing area of research. Phylogenies (phylogenetic trees and networks) allow biologists to study and graph evolutionary relationships between different species. These are also used to investigate other evolutionary processes - for example, how languages developed or how different strains of a virus (such as HIV or influenza) are related to each other.
This self-contained book addresses the underlying mathematical theory behind the reconstruction and analysis of phylogenies. The theory is grounded in classical concepts from discrete mathematics and probability theory as well as techniques from other branches of mathematics (algebra, topology, differential equations). The biological relevance of the results is highlighted throughout.
In Phylogeny: Discrete and Random Processes in Evolution, the author:
Supplies proofs of key classical theorems and includes results not covered in existing boosk
Emphasizes relevant mathematical results derived over the past 20 years.
Provides numerous exercises, examples, and figures.
This self-contained book addresses the underlying mathematical theory behind the reconstruction and analysis of phylogenies. The theory is grounded in classical concepts from discrete mathematics and probability theory as well as techniques from other branches of mathematics (algebra, topology, differential equations). The biological relevance of the results is highlighted throughout.
In Phylogeny: Discrete and Random Processes in Evolution, the author:
Supplies proofs of key classical theorems and includes results not covered in existing boosk
Emphasizes relevant mathematical results derived over the past 20 years.
Provides numerous exercises, examples, and figures.
More details
Series
Language
English
Place of publication
New York
United States
Target group
College/higher education
Product notice
Paperback (trade)
Dimensions
Height: 251 mm
Width: 172 mm
Thickness: 20 mm
Weight
670 gr
ISBN-13
978-1-61197-447-8 (9781611974478)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Person
Mike Steel is a Professor in the School of Mathematics and Statistics at the University of Canterbury, Christchurch, New Zealand, where he is also Director of the Biomathematics Research Centre. He is an elected fellow of the Royal Society of New Zealand and a recipient of the New Zealand Mathematical Society's annual Research Award. His research interests include combinatorics and random processes, and their applications to questions in evolutionary biology and related areas of sciences, specifically phylogenetic theory and methods. Additional research interests include autocatalytic networks in the origin of life, inverting random functions in mathematical statistics, and questions in the philosophy of science concerning causality and information loss. He has published approximately 240 academic papers, co-authored two books on phylogenetics, and served as associate editor of various journals, including the Bulletin of Mathematical Biology and Systematic Biology.
Content
Preface
Acknowledgements
Commonly Used Symbols
Chapter 1: Phylogeny
Chapter 2: Basic combinatorics of discrete phylogenies
Chapter 3: Tree shape and random discrete phylogenies
Chapter 4: Pulling trees apart and putting trees together
Chapter 5: Phylogenies based on discrete characters
Chapter 6: Continuous phylogenies and distance-based tree reconstruction
Chapter 7: Evolution on a tree: Part one
Chapter 8: Evolution on a tree: Part two
Chapter 9: Evolution of trees
Chapter 10: Introduction to phylogenetic networks
Bibliography
Index.
Acknowledgements
Commonly Used Symbols
Chapter 1: Phylogeny
Chapter 2: Basic combinatorics of discrete phylogenies
Chapter 3: Tree shape and random discrete phylogenies
Chapter 4: Pulling trees apart and putting trees together
Chapter 5: Phylogenies based on discrete characters
Chapter 6: Continuous phylogenies and distance-based tree reconstruction
Chapter 7: Evolution on a tree: Part one
Chapter 8: Evolution on a tree: Part two
Chapter 9: Evolution of trees
Chapter 10: Introduction to phylogenetic networks
Bibliography
Index.