1. Evolution

2. Breaking Down the Definitions Honors 1.Evolution 2.Natural selection 3.Adaptation 4.Fitness 5.Convergent evolution 6.Divergent evolution 7.Adaptive radiation 8.Artificial selection 9.Coevolution 10.Population genetics 11.Microevolution 12.Bell curve 13.Gene pool 14.Allele frequency 15.Phenotype frequency 16.Hardy-Weinberg Genetic Equilibrium 17.Gene flow 18.Genetic drift 19.Sexual selection 20.Stabilizing selection 21.Disruptive selection 22.Directional selection 23.Speciation 24.Geographic isolation 25.Allopatric speciation 26.Reproductive isolation 27.Sympatric speciation

3. Breaking Down the Definitions Regular 1.Evolution 2.Natural variation 3.Artificial selection 4.Fitness 5.Adaptation 6.Natural selection 7.Gene pool 8.Directional selection 9.Stabilizing selection 10.Disruptive selection 11.Genetic drift 12.Hardy-Weinberg Principle 13.Genetic equilibrium 14.Speciation 15.Reproductive isolation 16.Behavioral isolation 17.Geographic isolation 18.Temporal isolation

4. History of Evolution Originally most scientists believed species were permanent and unchanging With the discovery of fossils of unique organisms, CATASTOPHISM, was a theory that sudden geologic changes caused extinction of large groups of organisms. Jean Baptiste Lamarck came up with an early idea of evolution, that individuals could acquire traits during their lifetimes and pass those traits on to offspring

6. Charles Darwin Darwin spent years traveling the globe and making detailed observations to develop the theory of NATURAL SELECTION. Brainpop! Charles Darwin Darwin’s Finches Activity

7. Fill in the missing boxes. Food Choices: Fruit, Cactus, Seeds, Insects

8. Natural Selection Natural Selection= the mechanism (the ‘how’) for descent with modification. Basically, organisms best suited for an environment will survive to pass on their traits to their offspring. Organisms lacking traits to make them successful will die and therefore not be able to pass on the unsuccessful traits.

9. 4 Parts of Natural Selection Overproduction Genetic Variation Struggle to Survive Differential Reproduction

10. Overproduction Species produce more individuals than will survive to maturity The environment will limit the number of individuals that reach adulthood

11. Genetic Variation Individuals of a population differ in traits such as size, color, strength, speed, ability to find food, resistance to disease

12. Struggle to Survive Individuals within a population must compete with each other for limited resources (food, shelter, etc). A trait that makes an individual successful in its environment (thick fur in cold climates) is called an ADAPTATION. Giraffe Video Clip

13. Differential Reproduction Organisms with the best adaptations are the most likely to survive and therefore pass on those successful adaptations to offspring Through inheritance the adaptations will become more frequent in the population The environment, ‘selects’, the most favorable traits = NATURAL SELECTION Natural Selection Crash Course

14. Survival of the Fittest Fitness is a measure of an individual’s hereditary contribution to the next generation. A ‘fit’ individual is one that has offspring that live long enough to also reproduce. Lion Fitness Activity

15. Modeling Natural Selection Bird Beak Lab with write up Battle of the Bird Beaks!

16. Types of Evolution CONVERGENT EVOLUTION: The process by which different species evolve similar traits. The anole lizard evolved on 2 separate islands from 2 distinct ancestors, but since each species had similar habitats they both evolved with similar twig-dwelling traits, but remain 2 separate species.

17. Types of Evolution DIVERGENT EVOLUTION: process in which descnedants of a single ancestor diversify into separate species that fit different environments ADAPTIVE EVOLUTION: a new population will evolve traits to fit its new environment

18. Honors Homework! Quick Lab on p.309 Find at least 2 organisms (at least one of which must by wild) and make observations (written AND drawn) of the organism For each organism also explain why you think they have developed certain traits or adaptations.

19. Population Genetics The study of evolution from a genetic point of view Variation of traits within a population can be shown on a bell curve, with most organisms falling in the middle range

20. Causes of Genetic Variation Environmental factors Heredity Mutation Recombination

21. The Gene Pool The GENE POOL = the total genetic information available in a population (all of the possible alleles) ALLELE FREQUENCY= the specific allele (A or a) divided by the total number of alleles in the population PHENOTYPE FREQUENCY= the specific phenotype (Red or Pink) divided by the total number of organisms Flower Color Activity

22. Hardy-Weinberg Genetic Equilibrium Genotype frequencies in a population tend to remain the same from generation to generation unless acted upon by an outside influence. Ideal population in Hardy-Weinberg Equilibrium: 1.No mutations occur 2.No individuals enter or leave the population 3.The population is large 4.Individuals mate randomly 5.Natural Selection does not occur

23. Disruption of Genetic Equilibrium Mutation Gene Flow—immigration and emigration Genetic Drift—allele frequencies change as a result of random events, leading to a particular allele (A or a) disappearing completely and thereby reducing genetic variation. GENETIC DRIFT is only significant in small populations Nonrandom Mating—Sexual selection Natural Selection—stabilizing, disruptive, directional selection

24. Population Genetics Crash Course Hardy-Weinberg Practice!

25. Formation of Species SPECIATION is the process of the formation of a new species. A species is a group of organisms that can successfully interbreed (and the offspring can also reproduce) and have similar morphological (internal and external structures) features.

26. Isolation and Speciation Geographic (allopatric) Isolation- populations become physically separated (canyon, river,mountains) and gene flow between the 2 groups stops. Natural selection and genetic drift then make the 2 groups incompatible for mating and the 2 groups evolve separately.

27. Isolation and Speciation Reproductive (sympatric) Isolation– barriers to successful breeding between 2 populations. Examples: different mating times, different mating calls

28. Speciation Video Clips Geographic Separation Speciation Crash Course

29. Review