Prof Stevan J. Arnold (Professor Emeritus, Professor Emeritus, Dept
Evolutionary Quantitative Genetics
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Prof Stevan J. Arnold (Professor Emeritus, Professor Emeritus, Dept
Evolutionary Quantitative Genetics
- Broschiertes Buch
A concise, accessible introduction to the principal ideas, methods, and underlying statistical concepts for understanding and applying evolutionary quantitative genetics. It includes a broad taxonomic range of examples - human, animal, and plant; both model organisms and wild populations.
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A concise, accessible introduction to the principal ideas, methods, and underlying statistical concepts for understanding and applying evolutionary quantitative genetics. It includes a broad taxonomic range of examples - human, animal, and plant; both model organisms and wild populations.
Produktdetails
- Produktdetails
- Verlag: Oxford University Press
- Seitenzahl: 496
- Erscheinungstermin: 25. Juli 2023
- Englisch
- Abmessung: 246mm x 190mm x 27mm
- Gewicht: 1048g
- ISBN-13: 9780192859396
- ISBN-10: 0192859390
- Artikelnr.: 67255701
- Verlag: Oxford University Press
- Seitenzahl: 496
- Erscheinungstermin: 25. Juli 2023
- Englisch
- Abmessung: 246mm x 190mm x 27mm
- Gewicht: 1048g
- ISBN-13: 9780192859396
- ISBN-10: 0192859390
- Artikelnr.: 67255701
Stevan J. Arnold is Professor Emeritus, Department of Integrative Biology, Oregon State University, USA. He was made a Fellow of the AAA&S (American Academy of Arts and Sciences) in 2009, and has held the presidency of both the Society for the Study of Evolution (1998) and the American Society of Naturalists (2012). He is one of the top experts in the field and has published large numbers of highly cited academic articles in the realm of quantitative genetics.
Introduction
1: Selection on a Single Trait
2: Selection on Multiple Traits
3: The Selection Surface and Adaptive Landscape for a Single Trait
4: The Selection Surface and Adaptive Landscape for Multiple Traits
5: Inheritance of a Single Trait
6: Inheritance of Multiple Traits
7: Modularity, Performance, and Functional Complexes
8: Drift of a Single, Neutral Trait
9: Drift of Multiple, Neutral Traits
10: Response of a Single Trait to Selection
11: Response of Multiple Traits to Selection
12: Evolution of a Single Trait on a Stationary Adaptive Landscape
13: Evolution of Multiple Traits on a Stationary Adaptive Landscape
14: Trait Evolution on Dynamic Adaptive Landscapes
15: Evolution of Genetic Variance
16: Evolution of the G-Matrix on a Stationary Adaptive Landscape
17: Evolution of the G-Matrix on Dynamic Adaptive Landscapes
18: Evolution Along Selective Lines of Least Resistance
19: Speciation and Extinction of Lineages
20: Coevolution of Species with Trait-Based Interactions
21: Coevolution of Species with Density-Dependent Interactions
22: From Evolutionary Process to Pattern: A Synthesis
1: Selection on a Single Trait
2: Selection on Multiple Traits
3: The Selection Surface and Adaptive Landscape for a Single Trait
4: The Selection Surface and Adaptive Landscape for Multiple Traits
5: Inheritance of a Single Trait
6: Inheritance of Multiple Traits
7: Modularity, Performance, and Functional Complexes
8: Drift of a Single, Neutral Trait
9: Drift of Multiple, Neutral Traits
10: Response of a Single Trait to Selection
11: Response of Multiple Traits to Selection
12: Evolution of a Single Trait on a Stationary Adaptive Landscape
13: Evolution of Multiple Traits on a Stationary Adaptive Landscape
14: Trait Evolution on Dynamic Adaptive Landscapes
15: Evolution of Genetic Variance
16: Evolution of the G-Matrix on a Stationary Adaptive Landscape
17: Evolution of the G-Matrix on Dynamic Adaptive Landscapes
18: Evolution Along Selective Lines of Least Resistance
19: Speciation and Extinction of Lineages
20: Coevolution of Species with Trait-Based Interactions
21: Coevolution of Species with Density-Dependent Interactions
22: From Evolutionary Process to Pattern: A Synthesis
Introduction
1: Selection on a Single Trait
2: Selection on Multiple Traits
3: The Selection Surface and Adaptive Landscape for a Single Trait
4: The Selection Surface and Adaptive Landscape for Multiple Traits
5: Inheritance of a Single Trait
6: Inheritance of Multiple Traits
7: Modularity, Performance, and Functional Complexes
8: Drift of a Single, Neutral Trait
9: Drift of Multiple, Neutral Traits
10: Response of a Single Trait to Selection
11: Response of Multiple Traits to Selection
12: Evolution of a Single Trait on a Stationary Adaptive Landscape
13: Evolution of Multiple Traits on a Stationary Adaptive Landscape
14: Trait Evolution on Dynamic Adaptive Landscapes
15: Evolution of Genetic Variance
16: Evolution of the G-Matrix on a Stationary Adaptive Landscape
17: Evolution of the G-Matrix on Dynamic Adaptive Landscapes
18: Evolution Along Selective Lines of Least Resistance
19: Speciation and Extinction of Lineages
20: Coevolution of Species with Trait-Based Interactions
21: Coevolution of Species with Density-Dependent Interactions
22: From Evolutionary Process to Pattern: A Synthesis
1: Selection on a Single Trait
2: Selection on Multiple Traits
3: The Selection Surface and Adaptive Landscape for a Single Trait
4: The Selection Surface and Adaptive Landscape for Multiple Traits
5: Inheritance of a Single Trait
6: Inheritance of Multiple Traits
7: Modularity, Performance, and Functional Complexes
8: Drift of a Single, Neutral Trait
9: Drift of Multiple, Neutral Traits
10: Response of a Single Trait to Selection
11: Response of Multiple Traits to Selection
12: Evolution of a Single Trait on a Stationary Adaptive Landscape
13: Evolution of Multiple Traits on a Stationary Adaptive Landscape
14: Trait Evolution on Dynamic Adaptive Landscapes
15: Evolution of Genetic Variance
16: Evolution of the G-Matrix on a Stationary Adaptive Landscape
17: Evolution of the G-Matrix on Dynamic Adaptive Landscapes
18: Evolution Along Selective Lines of Least Resistance
19: Speciation and Extinction of Lineages
20: Coevolution of Species with Trait-Based Interactions
21: Coevolution of Species with Density-Dependent Interactions
22: From Evolutionary Process to Pattern: A Synthesis