Evolution of Populations Chapter 16. 16-1 Genes and Variation How common is genetic variation?

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Presentation transcript:

Evolution of Populations Chapter 16

16-1 Genes and Variation How common is genetic variation?

16-1 Genes and Variation Variation and gene pools Gene pool – all genes present in a population Relative Frequency – the number of times an allele occurs in the gene pool, compared to other alleles

16-1 Genes and Variation In genetic terms, evolution is any change in the relative frequency of alleles in a population.

16-1 Genes and Variation Scientists now recognize two main sources of genetic variation Scientists now recognize two main sources of genetic variation Mutations Mutations Gene shuffling Gene shuffling

16-1 Genes and Variation Mutations Any change in a sequence of DNA Occurs Because: Problems with replication Exposure to radiation or chemicals

16-1 Genes and Variation Gene Shuffling Cause of most differences The 23 pairs of chromosomes can produce 8.4 million different combinations!

16-1 Genes and Variation Crossing Over Occurs during meiosis Further increases genetic variation

16-1 Genes and Variation Sexual Reproduction Remember…an organism is successful if it reproduces Can produce many phenotypes, BUT the relative frequency will stay the same Think of a deck of cards 52 different cards Chance of an Ace off the top – 1/13 (4/52) Many combinations, BUT the frequency stays the same

16-1 Genes and Variation Single-gene and polygenic traits Widows peak is a single gene trait – a single gene with two alleles Polygenic Traits are controlled by two or more genes This means that a polygenic trait can have many possible genotypes ant thus phenotypes.

16-2 Evolution as Genetic Change Natural Selection on Single-Gene Traits

16-2 Evolution as Genetic Change Natural Selection on Polygenic Traits Directional Selection Range of phenotypes shifts Stabilizing Selection Organisms in the middle of the curve are at an advantage Disruptive Selection Organisms on the edges of the curve are at an advantage

16-2 Evolution as Genetic Change

Genetic Drift – Random change in allele frequency Founder effect – when allele frequencies change because of migration

16-2 Evolution as Genetic Change Evolution vs. Genetic Equilibrium Hardy-Weinberg principle – allele frequencies will stay constant unless some factor changes the frequency Genetic Equilibrium – when allele frequencies remain constant

16-2 Evolution as Genetic Change Five Conditions to Maintain Equilibrium Random Mating Large Population No Movement into or out of the population No Mutations No Natural Selection

16-3 The Process of Speciation Isolating Mechanisms Behavioral Isolation Two populations will not breed because of differences in courtship

16-3 The Process of Speciation Geographical Isolation Rivers, mountains, or bodies of water separate two populations

16-3 The Process of Speciation Temporal Isolation Different species mate at different times Times of day Times of year

16-3 The Process of Speciation Testing Natural Selection in Nature Variation Differences in population Natural Selection Which beak is best in a drought? Rapid Evolution Natural selection takes place frequently and sometimes rapidly

16-3 The Process of Speciation Speciation in Darwin’s Finches Founders Arrive How did the finches get to the Galapagos Islands? Separation of Populations How did they become separated?

16-3 The Process of Speciation Changes in the Gene Pool How did they become individual species?

16-3 The Process of Speciation Reproductive Isolation If a small beak bird moves back to the first island will it mate with a big beaked bird?

16-3 The Process of Speciation Ecological Competition What happens to the birds that are different that don’t have to compete for food? Continued Evolution How did we get all of the 13 species?

16-3 The Process of Speciation Studying Evolution Since Darwin Limitations of Research Unanswered Questions