The first comprehensive explanation of a widely applicable but underappreciated mechanism of evolution operating at higher levels of organization than the individual.
In this important treatise, ecologists and evolutionary biologists John Damuth and Lev R. Ginzburg identify a specific evolutionary process in biology, which they call nonadaptive selection. The idea is simple, but the implications are profound. Nonadaptive selection, as they use the term, is selection among biological entities (as is natural selection) but is based on the fitness effects of structural properties intrinsic to the entities under selection rather than on interactions between traits and a local shared environment. In other words, features of systems that evolve by nonadaptive selection do not adapt to local environmental conditions; rather, this selective process increases the long-term stability of the focal systems independent of local conditions.
Nonadaptive selection may be of particular value in explaining broad, persistent patterns in multispecies biological units where adaptive evolution may be weak or poorly defined. Examples include Damuth's Law, the equivalence of energy use among animal species across a wide range of body sizes; the ratio-dependent, or Arditi-Ginzburg, predation conjecture; the consistency of allometric scaling powers; the shortness of trophic chains; and the prevalence of certain types of three-species trophic structures across ecosystems. Damuth and Ginzburg see nonadaptive selection underlying patterns of ecological allometries, community structure, and species interactions, with some implications for macroevolution. Moreover, they find a surprising relationship between these nonadaptive processes and biological laws. They do not advocate the reorientation of any existing research programs but present nonadaptive selection as an additional conceptual framework that may be useful to add to ecology and evolution.
By:
John Damuth,
Lev R. Ginzburg
Imprint: University of Chicago Press
Country of Publication: United States
Dimensions:
Height: 229mm,
Width: 152mm,
Spine: 23mm
Weight: 513g
ISBN: 9780226838564
ISBN 10: 0226838560
Pages: 240
Publication Date: 10 July 2025
Audience:
Professional and scholarly
,
College/higher education
,
Undergraduate
,
Further / Higher Education
Format: Hardback
Publisher's Status: Active
In Memoriam: John Damuth Preface Chapter 1. Selection Processes and Multispecies Systems 1.1. Prologue: Nonadaptive Selection 1.2. An Example: Why Food Chains Are Short 1.3. Goals at the Macroscale 1.4. The Problem of Extrapolation: Why Evolutionary Biology and Ecology Need Selective Processes in Addition to Natural Selection 1.5. The Macroscale 1.6. Nonadaptive Selection as a Solution Chapter 2. Two Examples: Network Motifs and Damuth’s Law 2.1. From Mechanisms to Patterns to Laws 2.2. Stability of Modules in Food Webs: Network Motifs 2.3. Selective Local Extinction and the Allometries of Energy and Abundance: Damuth’s Law Chapter 3. Nonadaptive Selection: How It Works 3.1. Nonadaptive Selection Is Distinct, Multifaceted, and Already Embedded in Evolutionary Theory 3.2. Nonadaptive Selection Processes: Do They Generate Laws of Nature? 3.3. The Properties of Macroscale Multispecies Systems 3.4. Summary Chapter 4. Nonadaptive Selection at the Level of Single Species 4.1. Fisher’s Principle: The Maintenance of Even Sex Ratios 4.2. Nonadaptive Selection Explanation of Heterozygote Fitness Superiority Chapter 5. Nonadaptive Selection Explains the Size Scaling of Lifespans 5.1. Introduction: The Problem of Lifespan Scaling 5.2. Traditional Explanations 5.3. Physiology and Ecology Interact to Provide a Causal Explanation via Nonadaptive Selection Chapter 6. Ecological Allometries, Nonadaptive Selection, and the Coordination of Powers 6.1. What Do Ecological Allometries Mean? 6.2. The Coordination of Ecological and Metabolic Power Laws Chapter 7. Nonadaptive Selection in Multispecies Interaction Networks 7.1. Introduction: Observed, Lawlike Regularities in Multispecies Interactions Are the Result of Nonadaptive Selection 7.2. Consumer Interference 7.3. How Nonadaptive Selection Explains Short Trophic Chains 7.4. Qualitatively Stable Structures, Triangular Matrices, and Asymmetry of Interaction Strengths 7.5. Nonadaptive Selection and Predators Larger Than Their Prey Chapter 8. Macroevolution: The Role of Nonadaptive Selection among Species 8.1. Introduction 8.2. Species Selection 8.3. Elevated Extinction Rates for Large Hypercarnivores 8.4. Outlook for Selection-Based Macroevolutionary Explanations and Laws Chapter 9. Summary and Perspective 9.1. Life Elsewhere in the Universe 9.2. The Origin of Adaptation and the Zero-Force Law 9.3. Populating of the Biosphere with Stable Structures 9.4. Conclusion Chapter 10. Appendices 10.1. Introduction to Allometry (Power Laws) 10.2. Qualitative Stability Conditions 10.3. Allometry and Energy Equivalence (Damuth’s Law) 10.4. The Price Equation 10.5. Kepler’s Planetary Allometry 10.6. Selection Analyses, Multilevel Selection, and Adaptation 10.7. Selection without Adaptation: A 2,300-Year History 10.8. Selection and Adaptation outside of Biology 10.9. Theories, Laws, and Models as Contemporary Philosophy Sees Them 10.10. Heterozygote Fitness Advantage 10.11. Models of Single-Species Population Growth 10.12. Community Interaction Networks, Asymmetry, and QSS 10.13. Species Selection 10.14. What Nonadaptive Selection Is Not Acknowledgments Notes References Index
John Damuth (1952–2024) was a senior research scientist in the Department of Ecology, Evolution, and Marine Biology at the University of California, Santa Barbara. Lev R. Ginzburg is professor emeritus in the Department of Ecology and Evolution at Stony Brook University. Among his books are the coauthored How Species Interact: Altering the Standard View on Trophic Ecology and Ecological Orbits: How Planets Move and Populations Grow.
Reviews for Nonadaptive Selection: An Evolutionary Source of Ecological Laws
""A total intellectual and scientific pleasure. Damuth and Ginzburg have made a case for connection among a diverse set of phenomena that have resisted our understanding. More importantly, they've made new phenomena make more sense just by naming a process. Nonadaptive Selection is one of the most original and important books on evolution and ecology to come out in the last twenty years.""--Carl Simpson, University of Colorado Boulder
