1. Adaptation and levels of selection What is an adaptation? What is natural selection? On what does selection act?

2. What is an adaptation? A feature designed to improve survival and/or reproduction of an organism (or other entity) Most behavior is likely to be adaptive because it influences how an animal acquires mates, finds food and avoids predators

3. How do adaptations evolve (or what does evolution by natural selection require) ? Variation Differential reproduction or survival Transmission to the next generation (heredity)

4. Evolution by natural selection

8. Selection and Galapagos finches 14 species evolved in about 500,000 years

9. Selection on beak depth in G. fortis 4% change in two years, due to change in seed sizes

10. Selection on G. fortis TraitSelectionh 2* Bill length0.45 s.d.u.0.66 Bill depth0.58 s.d.u.0.69 Tarsus length0.27 s.d.u.0.82 *h 2 estimated from midparent-offspring regression

11. Measuring selection Directional selection –Extreme trait has highest fitness, i.e. lifetime reproductive success (LRS) –S = cov (trait,fitness) –Cov(x,w) =  (x i -X)(w i -W)/n Stabilizing selection –Intermediate trait has highest LRS –S = cov (trait 2,fitness) Disruptive selection –High and low traits have highest LRS –S = cov (trait 2,fitness) Trait value Lifetime reproductive success

12. Stabilizing selection on song repertoires

13. Disruptive selection for body size in male bluegill sunfish Three male morphs: sneaker, female mimic, territorial. males female

14. On what does selection act? Organism Population (group) Kin group Cytoplasmic elements Cells Genes

15. What is an organism? An organism contains one or more closely related (usually genetically identical) cells descended from a single progenitor cell Has a repeating life-cycle Either consists of, contains, or works for the welfare of germ-line cells

16. Why do adaptations typically benefit an individual organism? Because individuals inherit characteristics due to genetic transmission. Traits are typically heritable by individuals not by groups. Genes replicate and change in frequency after selection on individuals. Individuals replicate faster than groups.

17. Group Theoretically possible if groups differ in survival or reproduction But, unlikely to be caused by differential extinction because individuals die faster than groups. Possible if groups exhibit differential productivity. Experimentally demonstrated in flour beetles due to changes in cannibalism

18. The fallacy of group selection

19. Honeybees as superorganisms Social insects are often composed of closely related individuals

20. Kin Selection can favor altruistic behavior when animals interact with kin because they share copies of genes that are identical by descent. The condition for altruism to spread is given by Hamilton’s rule: rB > C –B = increase in recipient’s LRS –C = decrease in donor’s LRS –r = genetic relatedness

21. Relatedness Probability that the alleles at a locus are identical by descent in two individuals For diploids, r can be calculated by raising 1/2 to a power equal to the number of links in a pedigree separating two relatives and then summing independent paths involving each common ancestor

22. Estimating relatedness ab 12 Ancestor b: (1/2)(1/2) = 1/4 r 12 = 1/4 + 1/4 = 1/2 Full sibs (diploid) 1/2 Ancestor a: (1/2)(1/2) = 1/4

23. Estimating relatedness ab 2 Ancestor b: (1/2) 4 = 1/16 1/16 + 1/16 = 1/8 1 Cousins (diploid) r 12 = Ancestor a: (1/2) 4 = 1/16

24. Kin selection in lions

25. Females nurse their sister’s cubs

26. Males help brothers in coalitions Inclusive fitness: IF i = w i +  r ij w j w i = offspring produced by individual i