
Evolutionary Quantitative Genetics Is Concerned With The Evolution Of Quantitative Traits That Are Affected By Many Genes (e.g., Body Size, Metabolic Rate, Competitive Ability). Although Evolutionary Quantitative Genetics Has Emerged As The Dominant Paradigm For Understanding Evolution, The Full Scope Of Its Achievements Are Not Yet Apparent To A Wide Audience. To Reach And Engage That Wider Audience, This Book Summarizes Important Empirical And Theoretical Results In Evolutionary Quantitative Genetics. Here Are A Few, Significant Signposts Along The Path Of The Book's Main Argument: (1) Analysis Of A Large Literature On Selection Measured In Nature Indicates That Most Traits Are Close To, If Not On, An Adaptive Peak. (2) Qtl And Gwas Studies Have Shown That Quantitative Traits Are Affected By Scores Or If Not Hundreds Of Genes (polygeny). (3) Most Traits Interact With Other Traits, Forming Functional Complexes That Are Shaped By Stabilizing And Correlational Selection. (4) Such Trait Complexes Can Persist For Hundreds Of Millions Of Years, Suggesting Long-lasting Patterns Of Multivariate Selection. (5) Perpetual, Random Movement Of The Adaptive Peak Is The Common Denominator Of Successful Models Of Adaptive Radiation. A Single Model Of Adaptive Radiation Can Produce Stasis Or Exuberant Diversification Depending On The Setting For The Rate Of Peak Movement. (6) Simulation Studies Of Evolving Multivariate Inheritance Suggest That Processes Of Mutation, Inheritance, And Selection May Evolve Towards Mutual Alignment With The Predominant Directions Of Peak Movement. (7) Evolutionary Models Of Trait-based Interaction Between Species (e.g., Predators And Prey) Suggest That Periods Of Maladaptation May Be Common And That Trait Means Will Equilibrate Downslope From Adaptive Peaks. (262)-- Provided By Publisher.
This text investigates the mechanisms and empirical evidence underlying the evolution of quantitative traits influenced by polygenic inheritance. Professor Stevan J. Arnold synthesizes decades of theoretical models and field data to demonstrate how selection acts upon complex trait interactions. The work argues that evolutionary patterns, from stasis to adaptive radiation, are governed by the interplay of mutation, inheritance, and the movement of adaptive peaks.
What You Will Find
Scope Limits
Experts recognize this work as a significant synthesis of contemporary evolutionary theory and empirical genetic data. Readers frequently note the technical density of the prose, which is intended for advanced students and researchers in the biological sciences.
Page Count:
0
Publication Date:
2023-01-01
ISBN-10:
019194985X
ISBN-13:
9780191949852
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