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Evolution

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Evolution Ch 13 – PowerPoint PPT presentation

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Title: Evolution


1
Evolution
  • Ch 13

2
Historical Theories
  • Anaximander (2500 yrs ago)
  • Aristotle
  • Georges Buffon (1700s)
  • Jean Baptist Lemark (late 1700s - early1800s)
  • Erasmus Darwin

3
Charles Darwin
1859
1874
4
Voyage of the HMS Beagle
5
On the Origin of Species
  • Descent With Modification
  • By means of Natural Selection

6
How Did Darwin Come Up With His Ideas?
  • Scientific Method
  • Key observations
  • Traits vary in a population
  • Most traits are inherited from parent to
    offspring
  • More offspring are produced than the environment
    can support (Thomas Malthus)

7
Trait Variation
8
Recap
  • Limited resources
  • Overproduction of offspring
  • Heritable individual variation
  • Therefore, survival depends partly on inherited
    features

9
Darwins Theory of Evolution
  • In a varied population, individuals whose
    inherited characters best adapt them to the
    environment are more likely to survive and
    reproduce.
  • Therefore, more fit individuals tend to leave
    more offspring than less fit individuals.
  • Natural Selection is the mechanism
  • Reproduction (differential) is Key

10
Natural Selection
11
Artificial Selection
12
Observing natural selection
0
  • Camouflage adaptations that evolved in different
    environments

13
Pestacide Resistance
0
14
Antibiotic resistance
0
  • The excessive use of antibiotics is leading to
    the evolution of antibiotic-resistant bacteria

Colorized SEM 5,600?
Figure 13.13
15
Natural Selection Experiment
  • Darwin Finches (Galapagos Finches)
  • Similar EXCEPT for beaks
  • Beaks specialization

16
Support for Descent with Modification
  • Biogeography
  • Fossil Record
  • Molecular Biology, Biochemistry, Cell Biology
  • Comparative Anatomy

17
Biogeography
0
  • Geographic distribution of species
  • Galápagos animals resembled species of the South
    American mainland more than animals on similar
    but distant islands
  • Organisms may have common ancestor

18
Fossil Evidence
0
  • Organisms evolved in a historical sequence

A Skull of Homoerectus
D Dinosaur tracks
B Petrified tree
C Ammonite casts
E Fossilized organicmatter of a leaf
G Ice Man
F Insect in amber
Figure 13.3AG
19
Fossil Evidence
0
  • Many fossils link early extinct species with
    species living today

20
Comparative Anatomy
0
  • Comparison of body structures in different
    species
  • Homology- similar characteristics resulting from
    common ancestry
  • Homologous structures- features with different
    functions but structurally similar due to common
    ancestry

21
Comparative Embryology
0
  • Comparison of early stages of development among
    different organisms

22
Molecular Biology
0
  • Comparisons of DNA and amino acid sequences
    between different organisms to reveal
    evolutionary relationships

23
Unit of Evolution
0
  • Evolution acts on individuals, affects whole
    populations
  • Populations are the unit of evolution
  • Group of individuals of the same species living
    in the same place at the same time

24
Unit of Evolution
  • Evolution is change in prevalence of heritable
    traits in population through time
  • A gene pool
  • Is the total collection of genes in a population
    at any one time
  • Microevolution
  • Is a change in the relative frequencies of
    alleles in a gene pool

25
Hardy-Weinberg Equilibrium
  • Frequency of alleles in a stable population will
    not change over time
  • Very large population
  • Population is isolated
  • Mutations dont alter gene pool
  • Random mating
  • All individuals are equal in reproductive success
  • In reality, this never happens

26
Agents of Change
  • Genetic Drift
  • Bottle neck affect
  • Founder affect
  • Gene Flow
  • Mutation
  • Non Random Mating
  • Natural Selection

27
Variation
0
  • Extensive in most populations
  • Mutation and sexual recombination generate
    variation and can create new alleles.

28
Endangered species often have reduced variation
0
  • Low genetic variability
  • May reduce the capacity of endangered species to
    survive as humans continue to alter the
    environment

Figure 13.10
29
Types of Selection
30
Sexual Selection
  • Sexual Dimorphism
  • Sexual Selection- where individuals with certain
    characteristics are more likely to obtain mates
    than others.
  • Intrasexual selection
  • Intersexual selection

31
Diploidy
  • Balancing selection
  • Heterozygote advantage
  • Frequency-dependent selection
  • Neutral Variation

32
Natural Selection is Limited
  • Only act on existing variation
  • Historical constraints
  • Compromise
  • Chance, selection and the environment
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