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Transcript 
Human Resource Use
Human Values & Attitudes
(Socio-political)
Human Land Use Practices
1) Agriculture
2) Suburban Development
Let’s pick on Indiana:
•
•
97% of land in state = privatelyowned
In central Indiana,
• 70+% of land in row crop
• <10% in forest
• Urban sprawl intensifying
Human Impacts
Ecosystem simplification: elimination of
species from food webs via human
alterations to land
Example: vertebrate communities in ag.
landscapes
Intensive Agriculture
&
Clean Farming
Timber Extraction
&
Fragmentation
Formation of
Terrestrial “Islands”
Oceanic Island = Terrestrial Island ?????
Species-Area Relationship
S = cAz
S = # of species
A = island area
• Positive correlation between island size
& number of species
• Applies to terrestrial “islands” also
Island Biogeography
• equilibrium model suggesting that the
number of species occurring on an
island represents a balance between
immigration (in) and extinction (out)
• Robert MacArthur & E.O. Wilson
Habitat Fragmentation
• Process of breaking contiguous unit into
smaller pieces; area & distance
components
• Leads to:
< remnant patch size
> edge:interior ratios
> patch isolation
< connectivity
• Community & Ecosystem processes
altered
Formation of
Terrestrial “Islands”
#patches
Patch isolation
Patch size
Edge
What about
aquatic systems?
What about
aquatic systems?
Con.Bio 12(6)
Increased Edge Habitat
Increased Edge Habitat
Habitat Fragmentation
• First-Order Effects: fragmentation leads
to change in a species’ abundance and/or
distribution
• Higher-Order Effects: fragmentation
indirectly leads to change in a species
abundance and/or distribution via altered
species interactions
Habitat Fragmentation
• area-sensitive species: species that
require minimum patch size for daily
life requirements
• Edge effects: influence of factors from
outside of a patch
Edge Effects
• Habitat surrounding a patch can:
- change abiotic conditions; e.g., temp.
- change biotic interactions, e.g.,
predation
Example of nest predation = edge effect of
approximately 50 m into forest patch
But can extend 100’s of meters….maybe
km’s
Edge Effects
• How does patch size (in a landscape) &
shape affect amount of edge?
• Groups – give me a mathematical
example with forested landscapes that
have timber extraction via clearcutting
Exponential vs. Logistic
dN
 N
 rN 1  
dt
 K
dN
 rN
dt
No DD
All populations same
DD
All populations same
No Spatial component
Incorporating Space
Metapopulation: a population of
subpopulations linked by dispersal of
organisms
• subpopulations separated by unsuitable
habitat
• subpopulations differ in population size
& distance between
Metapopulation Model
dp
 cp1  p   ep
dt
p = habitat patch (subpopulation)
c = colonization
e = extinction
Another Population Model
Source-sink Dynamics: grouping of
multiple subpopulations, some are sinks
& some are sources
Source Population = births > deaths = net
exporter
Sink Population = births < deaths
Source-sink Dynamics
>1
<1
<1
Source-sink Dynamics
Corridors
Who Cares?
Why bother discussing these models?
Metapopulations & Source-sink Populatons
highlight the importance of:
• habitat & landscape fragmentation
• connectivity between isolated
populations
• genetic diversity
Vancouver Island marmot
(Marmota vancouverensis)
~100 left
Isolated from hoary and
Olympic marmots
Vancouver Island marmot
(Marmota vancouverensis)
Natural tree succession
Vancouver Island marmot
(Marmota vancouverensis)
• Logging – disjunct patches
- max. dispersal = 7 km
• Climate
• Prey-Predator Dynamics
Differential Sensitivities to
Habitat Alteration
• Niche breadth (diet & habitat) – inverse
relation
• Range periphery = more sensitive (W & N)
• Body size = mobility (allometric relation)
• Social and territorial behavior (limited K)
Swihart et al. 2003
Ways to Manage
1) Featured Species Mgt
– single species
– particular purpose
– e.g., white-tailed deer
– could also include “umbrella species” and
“flagship species” or “sensitive species”
Ways to Manage
2) Species Richness Mgt
– maintain diversity and certain # of each
species (follow MVP concept)
3) Indicator Species Mgt
– use a species (or group of species) to
monitor environmental conditions
– not necessarily managing for these spp.
– bioindicators, biosentinels, “canary in
coal mine”
Ways to Manage
4) Guild Mgt or Life-Form Mgt
– grouping of species based on use of same
type of resources (e.g., foraging guilds)
Related documents
Habitat Fragmentation
Habitat Fragmentation
Edge effects
Edge effects
Create a Species Guidelines
Create a Species Guidelines
Title: The Effects of Habitat Fragmentation and Habitat Management
Title: The Effects of Habitat Fragmentation and Habitat Management
Natural Habitat
Natural Habitat
Habitat Loss and Fragmentation
Habitat Loss and Fragmentation
Habitat Worksheet
Habitat Worksheet
extinct
extinct
Bird Interactions with native and non
Bird Interactions with native and non
Population dynamics
Population dynamics
Fragmentation in Landscape -Review & Methods-
Fragmentation in Landscape -Review & Methods-
Patch Size and Population Density: The Effect of Immigration
Patch Size and Population Density: The Effect of Immigration