1. EXAM 1 next Tuesday 12:30 here Lectures/Chapters thru Thursday Practice exam with answers: On course website on Exam date Format: Choice of ?s to answer Longer: 4 of 5 (interpret figures) Shorter: 4 of 6 Questions? 6

2. Next week’s lab: Stream Ecology

3. Next lecture: Ch 12 Family, Society, and Evolution Next lab: Group Proposal Worksheet due 3 days BEFORE lab

4. TA help with writing paper/data analysis Where: 164 Burrill Computer Rooms Use WEST door closest to Bio Library + NHB When: LABDATE/DAYTIME M27S WED4-6 T27S WED6-8 or … R28S THURS4-6 W28S THURS6-8 F28S THURS8-10 Read: Guidelines: Scientific Writing (pg 33-39) Guidelines: A Sample Manuscript (pg 41-51)

5. Chapter 11: Sex and Evolution

6. Objectives Why sex? Costs of sexual vs. asexual reproduction Sex ratio Mating systems Plants Animals Sexual selection Size important for offspring success Male-male competition Female choice

7. Sample Exam Question: The mean number of offspring is the same for males and females in elephant seals, a polygynous species. Individual male and female seals differ greatly in their mating success during any one breeding season. 1. Graph the results found in the first sentence. Label axes. 2. In this species, which gender has the more variable mating success? Write the answer; then add this result to the graph. 3. What basic asymmetry of reproduction is responsible for this difference? Explain.

8. Sexual reproduction mixes genetic material of individuals---> variable offspring Meiosis --> variable gametes Fertilization ----> variable offspring

9. Asexual reproduction produces offspring usually identical to parent and to one another.

10. Sexual reproduction is costly. Need a partner (takes time, energy, resources) Lose good combinations of genes via recombination Cost of meiosis: contribute only 1/2 of genes

11. ***The ‘cost of meiosis’: How many genes does a female contribute via sexual vs. asexual reproduction? Which mode of reproduction does this cost favor?

12. ***Explain how ‘cost of meiosis’ is avoided by: hermaphrodites (both male and female in one individual) male parental care

13. Asexual reproduction…. If advantageous, it should be common and widely distributed among many lineages. Most asexual species are in genera with sexual species. So no long evolutionary history Asexual lines die out over time…because of reduced genetic variability?

14. What is the advantage of sexual reproduction? Asexual--> Identical offspring; OK in unchanging environment Sexual---> offspring differ from parents---> adaptive in changing environment?

15. Sex: any short-term advantage? Models on environmental variability fail to find enough advantage to overcome cost of meiosis. An alternative hypothesis: Genetic variability is necessary to respond to biological changes in the environment, especially pathogens/parasites that can evolve virulence rapidly and drive host species to extinction. The Red Queen Hypothesis: continual selective pressure from pathogen requires continual evolution of populations ---> need variable offspring and sex to stay ahead.

16. modified by evolution to maximize individual fitness. It balances the contribution of genes to progeny through male and female function. Usually 1:1 ratio of male : female offspring at evolutionary equilibrium What happens if deviate from 1:1 ratio that returns it to 1:1? Sex ratio when sexes are separate

17. Frequency-dependent selection: –genes are selected for when at low frequency and against when at high frequency

18. ***Explain how the rare-sex advantage leads to a 1:1 sex ratio via frequency- dependent selection.

19. Why do sex ratios deviate from 1:1? When there is inbreeding and local mate competition (e.g. competition among brothers)---> favors production of daughters. 16 sets of genes in grandkids 49 sets of genes in grandkids

20. ***Mother’s condition and skewed sex ratio Males must be large to be successful. Females mate regardless of size. Should stressed mother switch nourishment to daughters or sons? Should well-fed mother switch nourishment to daughters or sons?

21. MATING SYSTEMS: Individuals may have female function, male function, or both. Hermaphrodites: both functions simultaneous or sequential Monoecious: separate male and female flowers Dioecious: separate male and female individuals ***How do plants and animals differ?

22. Perfect flowers: both male and female parts Can be outcrossing or selfing depending on compatibility genes

23. ***What is the pattern of pollen:ovule ratios? Explain the pattern.

24. A B ***Separate sexes versus hermaphroditism: Is it advantageous to add a second sexual function in A or B? Hermaphroditism when male or female function can be added with little depressing effect on opposite sexual function.

25. ***Sequential hermaphroditism: How does sex change with body size? How is fitness increased by changing sex? Why? Protandry Protogyny