1. E VOLUTION OF P OPULATIONS Chapter 23

2. C LARIFYING E VOLUTION Natural selection ACTS on individuals Evolutionary impact of affects populations over time Grants Finches Drought = large, deep beaks Seeds = large, hard Average beak size increase More large in population Population evolved Beak not change in life Mutations ultimate source of new alleles

3. G ENETIC V ARIATION Mutation Must be in gametes to be passed to offspring Point mutations Phenotype & environment Wobble bases and introns Altering gene number or sequence Nondisjunction Olfactory receptors Sexual reproduction Allelic reshuffling Crossing over, independent assortment, and fertilization Makes evolution possible

4. P OPULATIONS Species interbreeding to produce offspring in an area Genetic makeup is the gene pool Alleles for all loci in all individuals Each allele has a frequency (proportion)

5. H ARDY -W EINBERG P RINCIPLE Frequency alleles & genotypes remain constant Determines if evolution is occurring Conditions necessary No mutation Usually not a huge effect anyway Infinitely large, isolated population No movement in or out of population to change allelic frequency Mating is random Neither allele gives reproductive (or early survival) advantage over the other Can apply to some, all or no genes

6. H ARDY -W EINBERG E QUILIBRIUM 2 alleles p is more common, q is less common Allelic frequency p + q = 1 Genotypic frequency p 2 + 2pq + q 2 = 1 Phenotypic frequency Same or different then genotypic

7. H ARDY -W EINBERG P RACTICE Work with examples in section, end of chapter, and study guide to become familiar with equation Wildflowers with 2 alleles (C r C w ) demonstrating incomplete dominance, what does this mean? 320 red, 160 pink, 20 white 500 individuals, 1000 copies of genes for flower color (2n) Frequencies of each allele, genotype, & phenotype? Blood TypeGenotypeNumber of Individuals M L M L M 700 MN L M L N 650 N L N L N 150

8. M ICROEVOLUTION Change in allelic frequency in a population over generations 3 mechanisms Natural selection Improves match between individual and environment Genetic drift Chance events that alter allele frequencies Gene flow Transfer of alleles between populations

9. G ENETIC D RIFT Chance events cause allele frequencies to fluctuate unpredictably Doesn’t work to produce adaptations Founder effect and bottleneck effect are examples

10. F OUNDER E FFECT Isolated individuals form a new population Gene pool differs from source Few members blown to a new island or an earthquake splits a population Chance where some individuals and their alleles, but not others are separated

11. B OTTLENECK E FFECT Sudden event drastically reduces population Chance allowed certain alleles to survive Recovery may show low variation levels Humans can impose Cheetahs Skin grafts and immunity Low sperm count Variability too low to flourish

12. G ENE F LOW Transfer of alleles into or out of a population Fertile individuals and their alleles move Reduces genetic differences between populations Significant enough, 2 populations can = 1 Human populations Introduces new alleles to population Natural selection can increase frequency

13. R ELATIVE F ITNESS Contribution an individual makes to the gene pool of the next generation relative to the contributions of others Natural selection is not survival of the fittest Individuals with most viable, fittest offspring pass on the most genes Survival doesn’t guarantee reproductive success Selection favors individuals with phenotypic traits that provide higher reproductive success than others

14. M ODES OF S ELECTION Dark rocks Beak size in finches Birth weight

15. S EXUAL S ELECTION Certain inherited characteristics enhance finding mates Creates sexual dimorphism Differences (2°) that don’t have direct effect on fitness Include size, color, ornamentation, and behavior Intrasexual selection (within same sex) Males defend status through force or psychologically Intersexual selection (between sexes) Female choice depends on showiness of male Not always beneficial, pose risks by making more visible = tradeoff Females want mates with ‘good genes’

16. Midshipman Fish Male singers or sneakers Singing induces egg laying Male resumes singing Attract more mates Sneakers hangout and sneak in to fertilize eggs Resemble females

17. N ATURAL S ELECTION I SN ’ T P ERFECT Selection can only act on existing variations Evolution limited by ancestry Doesn’t scrap existing structure, adapts to new ones Often compromises Interaction of chance, natural selection, and the environment Chance moves 1 organism to new environmentColorado, but not necessarily to best fit environment New species are ‘better than’