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Understanding short-term evolution in nature
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Classroom Contents
Tracking Short-Term Evolution in a Pedigreed Wild Population
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- 1 Intro
- 2 Tracking short-term evolution in a pedigreed wild population
- 3 Evolution is the change in alele frequencies over time
- 4 How to study the evolutionary processes that change alele frequencies
- 5 The population pedigree permits direct observation of the processes that change allele frequencies
- 6 Some long-term demographic studies have nearly complete population pedigrees
- 7 Long-term demographic study at Archbold Biological Station
- 8 Population genetics with pedigrees contemporary evolution in natural populations
- 9 Autosomes and sex chromosomes have different patterns of genetic variation
- 10 Genealogical contributions over time
- 11 Genealogical contributions are higher than genetic contributions
- 12 Expected genetic contributions of males & females
- 13 Sex chromosomes have different transmission rules
- 14 Male & female genetic contributions on autosomes the z chromosome follow expected ratios
- 15 Contributions of male & female immigrants differ for autosomal
- 16 Partitioning variance in alele frequency change
- 17 Sex-biased transmission and demography on short-term evolution
- 18 Selection can act at different stages of the life cycle
- 19 Selection component analysis tests for salection at different life-cycle stages
- 20 A fullkaihood approach for testing for gamatic selection
- 21 Two gamatic selection hits
- 22 Testing for viability selection, sexual selection, & fecundity selection
- 23 Lifetime reproductive success is primarily driven by survival
- 24 Limited evidence of sexual conflict
- 25 Some evidence of life-history trade-offs
- 26 Understanding short-term evolution in nature
- 27 Acknowledgments