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Speciation

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Speciation Genetic Equilibrium Disruption of Genetic Equilibrium Formation of Species – PowerPoint PPT presentation

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Title: Speciation


1
Speciation
  • Genetic Equilibrium
  • Disruption of Genetic Equilibrium
  • Formation of Species

2
Genetic Equilibrium
3
  • Species a group of individuals that look similar
    and whose members are capable of producing
    fertile offspring in the natural environment

4
Morphological Species Concept
  • Morphological Species Concept the idea that
    organisms can be classified by differences in
    their appearance
  • Using this concept, scientists can readily
    communicate about the characteristics, behavior,
    and relationships of organisms.
  • The morphological concept of species is limited
    because it does not account for the reproductive
    compatibility of morphologically different
    organisms.

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Biological Species Concept
  • Biological Species Concept the idea that
    organisms can be classified by their ability to
    breed with one another
  • Using both the biological and morphological
    concepts of species, modern scientists have
    arrived at the current definition of the term
    species.

7
  • Species a group of individuals that look
    similar and whose members are capable of
    producing fertile offspring in the natural
    environment

8
Variation of Traits in a Population
  • Population all the members of a species that
    live in the same area and make up a breeding
    group
  • Within a population, individuals vary in many
    observable traits.

9
Caribou Population Distribution
10
Variation is the Raw Material of Natural Selection
11
Variation of Traits in a Population
12
What causes variation in traits?
  • Environmental Factors
  • Heredity
  • A difference in genotype usually results in a
    difference in phenotype.
  • Variations in genotypes arise through
  • Mutation
  • Genetic Recombination
  • Independent Assortment
  • Crossing Over

13
Allele Frequencies and Genetic Equilibrium
  • Gene Pool all the genes for all the traits in a
    population
  • Allele Frequency the percentage of an allele in
    a gene pool
  • Genetic Equilibrium the condition in which
    allele frequencies in a population do not change
    from generation to generation

14
Genotypic and Allele Frequencies
15
Hardy Weinberg
  • Hardy and Weinberg outlined the conditions
    necessary for genetic equilibrium.

Wilhelm Weinberg
Godfrey Hardy
16
Hardy-Weinberg Principle
  • Hardy and Weinberg outlined the conditions
    necessary for genetic equilibrium.
  • 1. no mutations occur
  • 2. individuals neither enter nor leave the
    population through migration
  • 3. the population is large
  • 4. individuals mate randomly
  • 5. natural selection does not occur

17
Hardy-Weinberg Principle
  • If one of these conditions does not hold true,
    allele frequencies of the population may change.
    In other words, evolution will occur.

18
Disruption of Genetic Equilibrium
19
Disruption of Genetic Equilibrium
  • Evolution occurs when genetic equilibrium is
    disrupted.

20
1. Mutation
  • Mutations affect genetic equilibrium by producing
    totally new alleles for a trait.
  • In addition, mutations can change the frequency
    of the alleles already present in the gene pool.
  • The occurrence of mutation in most alleles is too
    low to cause major changes in the allele
    frequencies of an entire population.

21
1. Mutation
22
2. Migration
  • Migration the movement of individual organisms
    into or out of a population, community, or biome
  • Immigration movement of new individuals into a
    population
  • Emigration departure of individuals from a
    population
  • Gene Flow the movement of genes into or out of a
    population

23
2. Migration
24
3. Genetic Drift
  • Genetic Drift a shift in allele frequencies in a
    population due to random events or chance
  • In small populations, chance can significantly
    affect allele frequencies from one generation to
    the next.

25
3. Genetic Drift
26
3. Genetic Drift
27
4. Non-Random Mating
  • If animals chose their mates then certain traits
    would be selected for over less desirable ones.

28
5. Natural Selection
  • Natural selection is an ongoing process in
    nature, and is the single most significant factor
    disrupting genetic equilibrium.

29
4 Types of Natural Selection
  1. Stabilizing Selection
  2. Directional Selection
  3. Disruptive Selection
  4. Sexual Selection

30
Stabilizing Selection
  • Stabilizing Selection a type of natural
    selection in which the average form of a trait
    causes an organism to have an advantage in
    survival and reproduction
  • The extreme forms of the trait confer a
    disadvantage to the organism.
  • Stabilizing selection is most effective in a
    population that has become well adapted to its
    environment.
  • Stabilizing selection is the most common type of
    NS.

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Directional Selection
  • Directional Selection a type of natural
    selection in which the distribution of a trait is
    shifted toward one of the extremes

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Disruptive Selection
  • Disruptive Selection natural selection in which
    individuals with either of the extreme forms of a
    trait have an advantage in terms of survival and
    reproduction
  • The average form of the trait confers a selective
    disadvantage to the organism.

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Sexual Selection
  • Sexual Selection the preferential choice of a
    mate based on the presence of a specific trait
  • Sexual selection may be stabilizing, directional,
    or disruptive.

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Formation of Species
39
Speciation
  • Disruption of genetic equilibrium leads to
    changes in the gene pool of a population.
  • Natural selection causes the most significant
    genetic changes in a population, however, such
    changes do not necessarily lead to speciation.
  • Speciation the formation of a new species

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Speciation
41
Speciation
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Isolated Populations
  • For a new species to arise, interbreeding of the
    population of fertile offspring must somehow
    cease among members of a formerly successful
    breeding population.
  • For this to occur, populations or segments of
    populations must somehow become isolated.
  • Two Forms of Isolation
  • Geographic Isolation
  • Reproductive Isolation

43
Geographic Isolation
  • Geographic Isolation the physical separation of
    populations
  • Examples population becomes divided by land or
    water barrier, colonization of new island, river
    changes course, highway built across field, etc.

44
Reproductive Isolation
  • Reproductive Isolation the inability of formerly
    interbreeding organisms to produce offspring
  • Reproductive isolation can occur through
    disruptive selection.

45
Rates of Speciation
  • Punctuated Equilibrium a theory that speciation
    may occur during brief periods of rapid genetic
    change
  • Gradualism a theory that speciation may occur
    through a gradual change of adaptations
  • Extinct the state of a species that no longer
    exists
  • For a species to continue to exist, some members
    must have traits that allow them to survive and
    pass their genes on to the next generation.

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