Book contents
- Frontmatter
- Contents
- List of contributors
- Foreword
- Preface
- Part I Reproductive skew theory
- Part II Testing assumptions and predictions of skew models
- Part III Resolving reproductive conflicts: behavioral and physiological mechanisms
- Part IV Future directions
- 15 Understanding variation in reproductive skew: directions for future empirical research
- 16 On the evolution of reproductive skew: a genetical view
- 17 Social conflict resolution, life history, and the reconstruction of skew
- Taxonomic index
- Subject index
17 - Social conflict resolution, life history, and the reconstruction of skew
from Part IV - Future directions
Published online by Cambridge University Press: 02 February 2010
- Frontmatter
- Contents
- List of contributors
- Foreword
- Preface
- Part I Reproductive skew theory
- Part II Testing assumptions and predictions of skew models
- Part III Resolving reproductive conflicts: behavioral and physiological mechanisms
- Part IV Future directions
- 15 Understanding variation in reproductive skew: directions for future empirical research
- 16 On the evolution of reproductive skew: a genetical view
- 17 Social conflict resolution, life history, and the reconstruction of skew
- Taxonomic index
- Subject index
Summary
Summary
Models of reproductive skew have provided useful conceptual frameworks for analyzing social conflict and cooperation in groups of reproductively totipotent individuals, in that they specify explicitly how aspects of ecology and genetic relatedness can generate within-group variation in behavior and reproduction. The main outcome of many years of development and application of these models, however, is a growing consensus that transactional models apply to few if any real situations, and that the models cannot be critically evaluated because assembling sufficient quantitative information to allow critical tests of their assumptions and predictions is not feasible. The “top-down” approach of skew modeling, which makes strong yet unsubstantiated assumptions to extract explanations from data, can be contrasted with a “bottom-up” approach, which involves inference of convergences in sets of diverse social, demographic, and life-history traits across highly diverse taxa, and analyses of fine-scale divergences in small sets of traits between conspecific populations and closely related species. The bottom-up approach explicitly recognizes that each population and taxon exhibits a constellation of more or less similar evolutionarily interrelated traits, especially those that affect (1) the ecological circumstances that underly benefits of dividing labor, (2) the opportunities, costs, and benefits of using force (taking control of behavior away), coercion (cost imposition or repression), or persuasion (providing benefits) to modify the expression of conflicts of interest, and (3) the life-history trade-offs and feedbacks that coevolve with social adaptations. I illustrate this approach with examples of social convergences among insects, birds, and mammals (including humans, Homo sapiens) that yield insights into selective pressures, and present a model based on such convergences for the role of cooperative breeding in the origin and expansion of modern humans.
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- Information
- Reproductive Skew in VertebratesProximate and Ultimate Causes, pp. 480 - 507Publisher: Cambridge University PressPrint publication year: 2009
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