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Community Ecology

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Community as a chance assemblage of species because of similar ... Cuckoo Bee. Yellow Jacket. Competition. When two species rely on the same limiting resource. ... – PowerPoint PPT presentation

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Title: Community Ecology


1
Chapter 53 Community Ecology
2
Community Ecology
  • The study of the interactions between the species
    in an area.

3
Community Hypothesis
  • 1. Individualistic
  • 2. Interactive

4
Individualistic Hypothesis
  • H.A. Gleason
  • Community as a chance assemblage of species
    because of similar abiotic requirements.

5
Interactive Hypothesis
  • F.E. Clements
  • Community as a linked assemblage of species that
    function as an integrated whole.

6
Predictions
  • Individualistic - fuzzy borders
  • Interactive - sharp borders
  • Robert Whittaker tested the two ideas against
    each other.

7
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8
Results
  • If abiotic factors form a continuum, then borders
    are fuzzy.
  • Individualistic Hypothesis is correct.

9
Comment
  • Abiotic factors may form sharp borders.
  • Ex soil types
  • Result the Community may look very much like
    the Interactive Hypothesis.

10
Interspecific Interactions
  • Interaction between species.
  • May be positive, negative, or neutral.
  • Ex
  • 1. Coevolution
  • 2. Predation
  • 3. Mimicry
  • 4. Competition
  • 5. Symbiosis

11
Coevolution
  • When two species have reciprocal evolution to
    each other.
  • Ex
  • Flowers and their pollinators.

12
Predation (/-)
  • Predator and prey relationships.
  • Ex Lynx and Hares

13
Predation
  • Often results in interesting defenses or
    adaptations.
  • Ex
  • Plant defenses
  • Cryptic coloration
  • Aposematic coloration

14
Cryptic Coloration
  • A passive defense where the prey is camouflaged
    against its environment.

15
Aposematic Coloration
  • The use of conspicuous colors in toxic or
    unpalatable organisms to warn off predators.
  • poison arrow frogs

16
Homework
  • Reading Chapters 53, 55
  • Chapter 52 - today
  • Chapter 52 Fri. 4/25
  • Aquatic Productivity wait until data is posted

17
Mimicry
  • Defense mechanism where the mimic has a
    resemblance to another species, the model.
  • Types
  • Batesian
  • Mullerian

18
Batesian Mimicry
  • Palatable species mimics an unpalatable model.

Hawk moth larva
Snake
19
Mullerian Mimicry
  • Two unpalatable species resemble each other.

Yellow Jacket
Cuckoo Bee
20
Competition
  • When two species rely on the same limiting
    resource.
  • Intraspecific competition usually more severe
    than Interspecific competition.
  • Why?

21
Competitive Exclusion Principle
  • Predicts that two species with the same
    requirement can not co-exist in the same
    community.
  • One species will survive and the second will go
    extinct.

22
Ecological Niche
  • The n-hyperspace of requirements for a species.
  • How a species fits into an ecosystem.
  • Species can not have niche overlap, the
    Competitive Exclusion
    Principle

23
Niche Types
  • 1. Fundamental - what a species is theoretically
    capable of using.
  • 2. Realized - what a species can actually use.

24
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25
Resource Partitioning
  • A way that species avoid niche overlap by
    splitting up the available resources.
  • Ex Anolis lizards

26
  • A. distichus
  • A. insolitus

27

28
Symbiosis
  • When two different species live together in
    direct contact.
  • Types
  • 1. Parasitism
  • 2. Commensalism
  • 3. Mutualism

29
Parasitism (/-)
  • Parasite harms the host.
  • Parasites may be external or internal.
  • Well adapted parasites don't kill the host.

30
Parasitic behavior A female
Nasonia vitripennis laying a clutch of eggs into
the pupa of a blowfly (Phormia regina)
31
Commensalism (/o)
  • One partner benefits while the other is
    unchanged.
  • Ex. Cattle and Egrets

32
Mutualism (/)
  • Both partners benefit from the interaction.
  • Ex Pollinators and flowers

Acacia Tree and Ants
33
Succession
  • Changes in species composition over time.

34
Succession Stages
  • Sere unstable stage usually replaced by another
    community.
  • Climax stable stage, self-reproducing.

35
Succession Types
  • 1. Primary
  • 2. Secondary

36
Primary Succession
  • Building a community from a lifeless area.
  • Ex volcanic islands glaciated areas
    road cuts

37
Comment
  • The first example of primary succession was
    worked out on the Indiana Dunes.
  • Stages
  • Open Beach
  • Beach Grasses
  • Conifers (Junipers and Pines)
  • Oaks
  • Beech-Maple forest (Climax)

38
Secondary Succession
  • Where a community has been disturbed and the soil
    is mostly intact.
  • Ex
  • Cutting down a forest
  • Blow-outs on the Dunes

39
Causes of Succession
  • 1. Autogenic Factors
  • 2. Allogenic Factors

40
Autogenic Factors
  • Changes introduced by the organisms themselves.
  • Ex toxins acids

41
Allogenic Factors
  • Outside disturbances
  • Ex Fire Floods

Prairie Restoration Project Upland, IN
42
Biogeography
  • Study of the past and present distributions of
    individual species and communities.

43
Range Limitations
  • 1. Lack of dispersion.
  • 2. Failure to survive in new areas.
  • 3. Retraction from former range area.

44
Proof
  • Fossil Evidence
  • Pollen Studies
  • Transplant Experiments

45
Islands
  • Special cases in Biogeography.
  • Must be colonized from other areas.

46
Island Species Factors
  • Island size.
  • Distance from mainland.

47
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48

49
Island Size
  • Small islands hold few species.
  • Why?
  • Fewer niches available for species to occupy.

50
Distance from Mainland
  • Closer islands have more species.
  • Why?
  • Easier for colonization.

51
Comment
  • Islands tend to have high numbers of Endemic
    species
  • Why?
  • Adaptive Radiation and Evolution of new species.

52
Summary
  • Know the two hypothesis of community structure.
  • Know the various types of interspecific
    interactions.
  • Know the Competitive Exclusion Principle and
    Niche Concept.

53
Summary
  • Know some examples and causes of succession.
  • Know how island communities are shaped.
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