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The EvolutionEcology Connection

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... of sympatric speciation- (Finch population Darwin) 19. 19 ... Example: Finch evolution in Galapagos Islands. Result: Radial Evolution. Single ancestral form ... – PowerPoint PPT presentation

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Title: The EvolutionEcology Connection


1
  • The Evolution-Ecology Connection

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  • How are evolution and ecology related?
  • Ecology involves understanding of relationships
    of organisms with each other and with their
    environment
  • Evolution involves changes in species in response
    to interactions with each other and with their
    environment

4
  • Contributions to Modern Evolutionary Thought
  • Malthusian catastrophe
  • Thomas Malthus economist, social philosopher
    populations of all organisms eventually out-grow
    available resources

5
  • Gregor Mendel (1822-1884) concepts and patterns
    of inheritance

6
Catastrophism Vs Uniformitarianism.
  • Catastrophism- he Earths surface has been
    scarred by catastrophic natural disasters
  • Charles Lyell theory of uniformity surface of
    earth has gradually changed, earth much older
    than previously recognized
  • "The Present is the Key to the Past"

7
Fig. 2.3
Darwins Voyage
Charles Darwin synthesis of theory of evolution
based on natural selection
8
Out of this study grew several related theories
  • one, evolution did occur
  • two, evolutionary change was gradual, requiring
    thousands to millions of years
  • three, the primary mechanism for evolution was a
    process called natural selection and
  • four, the millions of species alive today arose
    from a single original life form through a
    branching process called "speciation."

9
  • Forces driving evolution
  • over-reproduction
  • genetic variability
  • selective pressure
  • environment (food, temperature, etc.)
  • disease
  • predators
  • survival and reproduction of organisms best
    suited to their environment

10
  • Read Scot Norris paper Evolution's "Driving
    Force" Shifts Based on Behavior, Study Says
  • http//news.nationalgeographic.com/news/2006/11/0
    61116-lizard-evolution.html
  • Read Jonathan Losos' paper "Adaptation and
    speciation in Greater Antillean anoles"
  • http//biosgi.wustl.edu/7Elososlab/losos.2004.ad
    aptivespeciationbook.pdf

11
  • Genetics and Evolution
  • Trait appearance/ability to carry out some
    process
  • Phenotype appearance of an organism due to a
    specific trait or combination of traits
  • Gene genetic information (region on a
    chromosome) which codes for a specific trait.
  • Allele variant form of a gene

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  • Natural selection can favor, disfavor, or
    conserve the genetic make-up of a population
  • Stabilizing Selection
  • Directional Selection
  • Disruptive Selection

15
Stabilizing Selection- also known as Purifying
Selection
  • Stabilizing selection acts to impede changes in a
    population by acting against extreme phenotypes
    and favoring average phenotypes.- prevents
    divergence from form and function but genetic
    diversity decreases

16
Directional Selection
  • Directional selection leads to changes in
    phenotypes by favoring an extreme phenotype over
    other phenotypes in the population. Increase
    frequency independent of dominance

17
Disruptive Selection- also called Diversifying
selection
  • Disruptive selection creates bimodal
    distributions by favoring two or more extreme
    phenotypes over the average phenotype in a
    population.- driving force of sympatric
    speciation- (Finch population Darwin)

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Fig. 2.18
Ecosystems ability to absorb shocks and
disturbances
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  • What is a species?
  • A group of similar appearing organisms which
    share the same gene pool
  • Species evolve to fill different niches
  • Example Finch evolution in Galapagos Islands
  • Result Radial Evolution
  • Single ancestral form
  • Many generations ? unique species for different
    niches

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Fig. 2.10
Speciation of Finch on Galapagos Islands- C.
Darwin
22
  • How do new species arise?
  • Sympatric speciation
  • Allopatric speciation

23
Sympatric speciation
  • occurs as a species fills different niches within
    the same habitat or geographic area
  • Spread of species into new areas
  • Founding population in isolated location
  • Geologic changes gradual process

24
Allopatric speciation
  • spatial isolation occurs due to geographic
    isolation
  • Genetic changes (as ploidy levels in plants)
  • Disruptive selection divergent genotypes favored

25
  • Geographic Variation Within Species
  • Cline measurable, gradual change in a trait over
    geographic region
  • Ecotype Population adapted to particular local
    environment
  • Geographic isolate reproductively isolated
    populations
  • subspecies

26
Gauses Law- competative exclusive principle
  • Georgii Frantsevitch Gause
  • a theory which states that two species competing
    for the same resources cannot stably coexist, if
    the ecological factors are constant. Either of
    the two competitors will always have an advantage
    over the other that leads to either the
    extinction of the inferior competitor or its
    evolutionary shift towards a different ecological
    niche.

27
  • Geographic Isolation of Ensatina escholtzii
    populations in CA
  • ring species geographically isolated
    populations surround uninhabitable area
  • Adjacent populations can interbreed
  • Reproductively incompatible at extremes (black)

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Local E.escholtzii
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  • Changes within a species are due to changes in
    its gene pool causes
  • Selective pressures
  • Genetic drift and bottleneck effects
  • Isolated populations
  • Effect greater in small populations

31
Variation Within Populations
  • Variation in Plant Populations
  • Many plant species differ dramatically in form
    from one elevation to another.
  • Clausen et.al. found evidence of adaptation by
    ecotypes to local environmental conditions in
    Potentilla glandulosa.
  • Distinctive ecotypes- distinct entity of animal
    or plant or organism closely linked to its
    ecological surroundings

32
Variation in Plant Populations
  • Molecular and Morphological Information
  • Hansen et. al. used randomly amplified
    polymorphic DNA (RAPD) along with morphological
    data to support separation of three species of
    Potentilla.

33
  • Ecotypes Potentilla glandulosa sticky
    cinquefoil
  • 3 ecotypes
  • Alpine
  • Midelevation
  • lowland

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  • How genetically different are ecotypes?
  • Work with Potentilla nivea (a species complex)
  • Morphological (appearance) observations suggest
    three species
  • Molecular analysis via RAPID study supports
    morphological species distinction

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Fig. 8.6
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  • Summary
  • Organisms become tailor made for their role
    niche within an environment by processes of
    evolution
  • New species arise from preexisting species
  • New species arise as organisms become
    reproductively isolated
  • Reproductive isolation may often result in
    genetically different populations

38
Questions
  • How do we know that a species is a species if we
    do not directly observe whether it can interbreed
    with other organisms? 
  • If one population is the ancestor to another, how
    do we decide if they are more than one species? 
  • Does extinction imply mistakes by an "intelligent
    designer"?
  • How, in terms of Gause's law, does a catastrophic
    event influence subsequent evolutionary events.
  • Which (and why) are more likely to become
    extinct, a highly specialized species extremely
    well adapted to a particular niche, or a less
    specialized generalist?
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