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Genes Within Populations

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Presentation on theme: "Genes Within Populations"— Presentation transcript:

1 Genes Within Populations
Chapter 20

2 5 agents of evolutionary change
Mutation Rates generally low Other evolutionary processes usually more important in changing allele frequency Ultimate source of genetic variation Makes evolution possible

3 Gene flow Movement of alleles from one population to another
Animal physically moves into new population Drifting of gametes or immature stages into an area Mating of individuals from adjacent populations

4 Nonrandom mating Assortative mating Disassortative mating
Phenotypically similar individuals mate Increases proportion of homozygous individuals Disassortative mating Phenotypically different individuals mate Produces excess of heterozygotes

5 Genetic drift In small populations, allele frequency may change by chance alone Magnitude of genetic drift is negatively related to population size Founder effect Bottleneck effect

6 Genetic drift can lead to the loss of alleles in isolated populations
Alleles that initially are uncommon are particularly vulnerable

7 Northern Elephant Seal
Bottleneck case study Nearly hunted to extinction in 19th century As a result, species has lost almost all of its genetic variation Population now numbers in tens of thousands

8 Selection Some individuals leave behind more progeny than others, and the rate at which they do so is affected by phenotype and behavior Artificial selection Natural selection

9 3 conditions for natural selection to occur and to result in evolutionary change
Variation must exist among individuals in a population Variation among individuals must result in differences in the number of offspring surviving in the next generation Variation must be genetically inherited

10 Natural selection and evolution are not the same
Natural selection is a process Only one of several processes that can result in evolution Evolution is the historical record, or outcome, of change through time Result of evolution driven by natural selection is that populations become better adapted to their environment

11 Common sulphur butterfly
Caterpillar usually pale green Excellent camouflage Bright blue color morph rare and kept at low frequency by predation

12 Pocket mice come in different colors
Population living on rocks favor dark color Populations living on sand favor light color

13 Genetic Variation and Evolution
Differences in alleles of genes found within individuals in a population Raw material for natural selection Evolution How an entity changes through time Development of modern concept traced to Darwin “Descent with modification”

14 “Through time, species accumulate differences; as a result, descendants differ from their ancestors. In this way, new species arise from existing ones.” Charles Darwin

15 Darwin was not the first to propose a theory of evolution
Unlike his predecessors, however, Darwin proposed natural selection as the mechanism of evolution.

16 Alfred Wallace Wallace made many contributions to the development of evolutionary theory besides being co-discoverer of natural selection. These included: warning coloration in animals and the Wallace effect, a hypothesis on how natural selection could contribute to speciation by encouraging the development of barriers against hybridization.

17 Jean-Baptiste Lamarck
Rival theory of Jean-Baptiste Lamarck was evolution by inheritance of acquired characteristics If organisms adapt throughout their lives, then their offspring will be born with those improved characteristics.

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20 Selection Many traits affected by more than one gene
Selection operates on all the genes for the trait Changes the population depending on which genotypes are favored Types of selection Disruptive Directional Stabilizing

21 Acts to eliminate intermediate types
Disruptive selection Acts to eliminate intermediate types Different beak sizes of African black-bellied seedcracker finch Available seeds fall into 2 categories Favors bill sizes for one or the other

22 Birds with intermediate-sized beaks are at a disadvantage with both seed types – they are unable to open large seeds and too clumsy to efficiently process small seeds

23 Directional selection Acts to eliminate one extreme
Often occurs in nature when the environment changes In Drosophila, artificially selected flies that moved toward the light Now fewer have that behavior

24 Directional selection for negative phototropism in Drosophila

25 Stabilizing selection
Acts to eliminate both extremes Makes intermediate more common by eliminating extremes In humans, infants with intermediate weight at birth have the highest survival rate

26 Stabilizing selection for birth weight in humans

27 Limits of selection Multiple phenotypic effects of alleles
Larger clutch size leads to thinner shelled eggs Lack of genetic variation Gene pool of thoroughbreds limited and performance times have not improved for more than 50 years Phenotypic variation may not have genetic basis

28 Selection for increased speed in racehorses is no longer effective

29 Fitness and its measurement
Individuals with one phenotype leave more surviving offspring in the next generation than individuals with an alternative phenotype Relative concept; the most fit phenotype is simply the one that produces, on average, the greatest number of offspring

30 Fitness has many components
Survival Sexual selection – some individuals more successful at attracting mates Number of offspring per mating Traits favored for one component may be a disadvantage for others Selection favors phenotypes with the greatest fitness Phenotype with greater fitness usually increases in frequency

31 Larger female water striders lay more eggs per day
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 8 50 200 40 6 150 Number of Eggs Laid per Day 30 4 Life Span of Adult Female (days) Number of Eggs Laid During Lifetime 100 20 2 50 10 12 13 14 15 16 12 13 14 15 16 12 13 14 15 16 Length of Adult Female Water Strider (mm) Length of Adult Female Water Strider (mm) Length of Adult Female Water Strider (mm) Larger female water striders lay more eggs per day Large females survive for a shorter period of time As a result, intermediate-sized females produce the most offspring over the course of their entire lives and thus have the highest fitness

32 Interactions Mutations and genetic drift may counter selection
In nature, mutation rates are rarely high enough to counter selection Selection is nonrandom but genetic drift is random Drift may decrease an allele favored by selection Selection usually overwhelms drift except in small populations

33 Hardy–Weinberg principle
Hardy–Weinberg equilibrium Proportions of genotypes do not change in a population if No mutation takes place No genes are transferred to or from other sources (no immigration or emigration takes place) Random mating is occurring The population size is very large No selection occurs

34 Principle can be written as an equation
Used to calculate allele frequencies For 2 alleles, p and q p = B for black coat color Black cat is BB or Bb q = b for white coat color White cats are bb p2 + 2pq + q2 = 1 BB + Bb + bb = 1

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37 If all 5 assumptions for equilibrium are true, allele and genotype frequencies do not change from one generation to the next In reality, most populations will not meet all 5 assumptions Look for changes in frequency Suggest hypotheses about what process or processes at work


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