1. Chapter 11 Opener Adapting an adaptation
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2. Figure 11.1 The kinetic skull of snakes
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3. Figure 11.1 The kinetic skull of snakes
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4. Figure 11.2 Pseudocopulatory pollination
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5. Figure (A) The male redback spider somersaults into the female’s mouthparts after copulation. (B) The proportion of eggs fertilized by the second male correlated with the duration of copulation
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6. Figure (A) Male redback spiders somersault into the female’s mouthparts after copulation. (B) The proportion of eggs fertilized by the second male correlated with the duration of copulation
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7. Figure 11.4 Weaver ants (Oecophylla) constructing a nest
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8. Figure A child’s toy that selects small balls, which drop through smaller and smaller holes from top to bottom
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9. Figure Natural selection on mutations in the β-galactosidase gene of Escherichia coli in laboratory populations maintained on lactose
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10. Figure Natural selection on mutations in the β-galactosidase gene of Escherichia coli in laboratory populations maintained on lactose
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11. Figure Allele frequency fluctuates because of hitchhiking in a laboratory population of Escherichia coli
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12. Figure Allele frequency fluctuates because of hitchhiking in a laboratory population of Escherichia coli
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13. Figure Changes in the frequencies of chromosome inversions in laboratory populations of Drosophila pseudoobscura
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14. Figure Changes in the frequencies of chromosome inversions in laboratory populations of Drosophila pseudoobscura
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15. Figure (A) A male long-tailed widowbird (Euplectes progne) in territorial flight. (B) Effects of experimental alterations of tail length on males’ mating success
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16. Figure 11.9 (A) A male long-tailed widowbird (Euplectes progne) in territorial flight
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17. Figure 11.9 (B) Effects of experimental alterations of tail length on males’ mating success
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18. Figure 11.10 Evolution of male color pattern in experimental populations of guppies
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19. Figure Effects of individual selection and group selection on population size in the flour beetle Tribolium castaneum
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20. Figure Effects of individual selection and group selection on population size in the flour beetle Tribolium castaneum (Part 1)
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21. Figure Effects of individual selection and group selection on population size in the flour beetle Tribolium castaneum (Part 2)
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22. Figure Genetic benefit and cost of kin discrimination in cannibalistic tiger salamanders (Ambystoma tigrinum)
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23. Figure 11.13 Concepts of the fitness of “particles” and “collectives”
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24. Figure 11.13 Concepts of the fitness of “particles” and “collectives”
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25. Figure The mythical self-sacrificial behavior of lemmings, which (according to popular belief) rush en masse into the sea to prevent overpopulation
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26. Figure 11.15 Conflict between group and individual selection
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27. Figure 11.15 Conflict between group and individual selection
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28. Figure Species selection (differential proliferation of species with different character states)
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29. Figure Species selection (differential proliferation of species with different character states)
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30. Figure 11.17 An example of species selection
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31. Figure 11.18 Exaptation and adaptation
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32. Figure 11.19 Diversity of crystallin proteins in the eye lens of some vertebrates
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33. Figure 11.19 Diversity of crystallin proteins in the eye lens of some vertebrates
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34. Figure 11.20 Sagittal section of a bird’s eye, showing the pecten
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35. Figure Functional morphological analyses have shown that small surfaces shed the hot “boundary layer” of air that forms around them more readily than large surfaces
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36. Figure The relationship between weight of the testes and body weight among polygamous and monogamous primate taxa
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37. Figure The relationship between weight of the testes and body weight among polygamous and monogamous primate taxa
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38. Figure 11.23 The problem of phylogenetic correlation in employing the comparative method
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39. Figure 11.23 The problem of phylogenetic correlation in employing the comparative method
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