Marbled Salamander Metapopulation Dynamics Ramas GIS Metapopulation Model - PowerPoint PPT Presentation

1 / 41
About This Presentation
Title:

Marbled Salamander Metapopulation Dynamics Ramas GIS Metapopulation Model

Description:

Marbled Salamander Metapopulation Dynamics Ramas GIS Metapopulation Model – PowerPoint PPT presentation

Number of Views:126
Avg rating:3.0/5.0
Slides: 42
Provided by: fstu
Category:

less

Transcript and Presenter's Notes

Title: Marbled Salamander Metapopulation Dynamics Ramas GIS Metapopulation Model


1
Marbled Salamander Metapopulation DynamicsRamas
GIS Metapopulation Model
  • 1.Ethan Plunkett
  • 2.Sekar Iyyapazham
  • 3. Alfred Kikoti

2
(No Transcript)
3
(No Transcript)
4
(No Transcript)
5
(No Transcript)
6
(No Transcript)
7
(No Transcript)
8
Metapopulation Definitions
  • Mainland-island metapopulation System of
    habitat patches (islands) located within
    dispersal distance from a very large habitat
    patch (mainland) where the local population
    never goes extinct (hence mainland-island
    metapopulations do not go extinct). (Hanksi and
    Simberloff, 1997)

9
Not a mainland island metapopulation
10
(No Transcript)
11
Metapopulation Definitions
  • Nonequilibrium metapopulation Metapopulation in
    which (long-term) extinction rate exceeds
    colonization rate or vice versa an extreme case
    is where local populations are located so far
    from each other that there is no migration
    between them and hence no possibility for
    recolonization (Hanksi and Simberloff, 1997)

12
Population is not a Non-equilibrium
metapopulation
13
Metapopulation Definitions
  • Patchy metapopulation Metapopulations that are
    so well mixed and interconnected by dispersal
    that they function essentially as a single
    population. Local extinctions are recolonized
    immediately and a single individual might live in
    multiple patches during its lifetime.
    (McGarigal, 2005)

14
Not a Patchy Population
Abundance
Pool Number
15
Metapopulation Definitions
  • Classic (Levins) metapopulation A large network
    of similar small patches, with local dynamics
    occurring at a much faster time scale than
    metapopulation dynamics in a broader sense used
    for systems in which all local populations, even
    if they differ in size, have a significant risk
    of extinction. (Hanski and Simberloff, 1997)

16
Metapopulation Definitions
  • Classic (Levins) metapopulation Idealized
    system, comprising multiple patches whose
    populations are reciprocally linked and have
    equal probabilities of colonization and
    extinction. (McGarigal, 2005)

17
(No Transcript)
18
(No Transcript)
19
Metapopulation Definitions
  • Source-sink metapopulation Metapopulation in
    which there are patches in which the population
    growth rate at low density and in the absence of
    immigration is negative (sinks) and patches in
    which the growth rate at low density is positive
    (sources). (Hanksi and Simberloff, 1997)

20
Metapopulation Definitions
  • Source-sink metapopulation A source has a
    positive local recruitment rate in the absence of
    immigration, and thus provides a net surplus of
    emigrants. A sink has negative local recruitment
    and so would not persist in the absence of a
    dispersal subsidy from elsewhere. The source
    population is resistant to extinction while some
    subset of sink populations tend to go extinct
    repeatedly and be recolonized by dispersal from
    the source (Pulliam 1988 as summarized by
    McGarigal notes).

21
Individual Pond Trajectories
Pond 2
Pond 1
Pond 4
Pond1
Pond 12
22
(No Transcript)
23
PART 2
24
Interval Extinction Risk
Low Dispersal
No Dispersal
High Dispersal
Probability
Medium Dispersal
Interval Extinction Risks High Dispersal
0.0 Medium Dispersal 0.012 Low Dispersal
0.064 No Dispersal 0.064
Threshold
25
POND 4
Population Trajectory
No Dispersal
Low Dispersal
Medium Dispersal
High Dispersal
26
Population Trajectory
POND 6
Low Dispersal
No Dispersal
Medium Dispersal
Population
High Dispersal
Time
27
Trajectory Summary
(Overall Population Size)
High
Medium
Abundance
Low
No
Time
28
PART 3
29
Interval Extinction Risk (Varying rates of
correlation among pools catastrophic events)
Full Correlation
Med High Correlation
Low Correlation
Interval Extinction Risks No correlation
0.018 Low correlation 0.056 Medium correlation
0.122 Full correlation 0.21
No Correlation
30
Interval Explosion Risk
Full Correlation
No Correlation
Med High Correlation
Low Correlation
31
Population Trajectory
32
Part 4
33
Developers Scenario
34
Abundance
Pool
35
Ponds 1, 3, and 14
36
Ponds 1, 6, and 14
37
Ponds 8, 9, and 10
38
Interval Extinction Risk
Developers Scenario
No Development
Probability
Extinction Risks No Development
0.052 Development Pools 4, 5, and 7
0.264 Pools 1, 6, and 14 0.080 Pools 1, 3, and
14 (with pool 2 isolated) 0.068 Pools 8, 9, and
10 0.056
Threshold
39
(No Transcript)
40
(No Transcript)
41
(No Transcript)
Write a Comment
User Comments (0)
About PowerShow.com