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Community Dynamics

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All the plants arrive or germinate near the same time. Second stage of succession: the perennials overtop the annuals. ... Kerry Woods (reciprocal replacement) ... – PowerPoint PPT presentation

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Title: Community Dynamics


1
Community Dynamics
2
Colonization
  • ARRIVAL
  • ESTABLISHMENT

3
Initial floristic composition model
  • Proposed by Egler (1954)
  • All the plants arrive or germinate near the same
    time.
  • Second stage of succession the perennials
    overtop the annuals.
  • Third stage of succession shrubs overtop the
    perennials
  • Fourth stage trees overtop, etc.

4
Connell and Slatyer
  • Facilitation
  • invasion depends on conditions created by earlier
    colonists
  • Tolerance
  • later successional species probably
    competitor-stress tolerators
  • help reduce the level of resources to where only
    they can tolerate it
  • Inhibition
  • species displaced only by death or damage by
    factors extrinsic to competition

5
Tilman resource-ratio hypothesis
  • Successional sequence depends primarily on three
    things
  • 1) interspecific competition for resources
  • 2) long-term pattern of a supply of limiting
    resources, especially nutrients and light
  • 3) a small group of other life history factors.
  • Early in sequence Light is high and nutrients
    low. These factors have reversing trends over
    time.

6
Resource - Ratio
A
B
C
D
Light
Nutrients
Relative abundance
Nutrient or light availability
7
Probabilistic view of species replacement
  • Plots were mapped on glacial outwash in Alaska
  • 617 plants were initially recorded
  • 417 died during a 5 year period
  • 535 new plants became established during 5
    years
  • Density increased by 20, but more than 60 of
    the original individuals were replaced by others.

8
Horn replacement probabilities
  • Studied saplings under a mature tree. If 60 of
    the saplings under aspen trees were beech, the
    probability of a beech replacing an aspen would
    be .6
  • Forest studied beech replacement of aspen .6
    and aspen had only a .03 chance of replacing
    itself. Beech had a .8 probability of self
    replacement.

9
General Postulates - succession
  • Biomass
  • As supported biomass increases, net productivity
    decreases
  • total resources available to higher trophic
    levels are about the same
  • Nutrients
  • increasingly tied up in biotic pools. Rate of
    loss decreases
  • Life history
  • r-selected species are replaced by K-selected
  • Species diversity
  • increases (dominance declines) until just before
    climax growth, then reverses some

10
Species diversity over time
11
General Postulates - succession
  • Biomass
  • As supported biomass increases, net productivity
    decreases
  • total resources available to higher trophic
    levels are about the same, but heterogeneity is
    increasing
  • Nutrients
  • increasingly tied up in biotic pools. Rate of
    loss decreases as they are held in standing
    biomass
  • Life history
  • r-selected species are replaced by K-selected
    ecological specialists as resources become more
    limiting
  • Species diversity
  • increases (dominance declines) until just before
    climax growth, then reverses some
  • Stability - to ecological perturbations increases

12
Alternation of species
  • James Fox
  • Amer. Nat. 111(977)69-88
  • Kerry Woods (reciprocal replacement)
  • Saplings (not suckers) counted maple more common
    under Beech and vice versa
  • Mature trees within 10m of a sapling counted,
    measured

13
Alternation of species
  • James Fox (1977)
  • Amer. Nat. 111(977)69-88
  • Kerry Woods (reciprocal replacement)
  • Saplings (not suckers) counted maple more common
    under Beech and vice versa
  • Mature trees within 10m of a sapling counted,
    measured
  • b beach m maple

14
Alternation of species
  • James Fox (1977)
  • Amer. Nat. 111(977)69-88
  • Kerry Woods (reciprocal replacement)
  • Saplings (not suckers) counted maple more common
    under Beech and vice versa
  • Mature trees within 10m of a sapling counted,
    measured
  • b beach m maple
  • Found Igt0 for high frequency Maple, Therefore
    Beech has greatest canopy influence
  • More dead saplings under conspecific canopies

15
Alternation of Generations
  • Larry Forcier
  • Found maple with many beech saplings, but not the
    reverse. He found a trend towards beech
    dominance.
  • Replacement tended to be in a series when a gap
    was created (minor disturbance).

16
Reasons for Alternation
  • Competition
  • Intraspecific stronger than Interspecific
  • Chemical antagonism
  • Allelopathy canopy and root exudates
  • Seed predation
  • Microhabitat differences
  • relates to facilitation
  • fungal pathogens
  • saplings the most susceptible to attack - most
    mortality is related to this
  • most easily obtained near the host species

17
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