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1. BIOL 4120: Principles of Ecology Lecture 8: The Distribution and Spatial Structure of Populations Dafeng Hui
Room: Harned Hall 320
Phone: 963-5777
Email: dhui@tnstate.edu
2.
Dispersion
The spacing of individuals within respect to one another within the geographic range of a population
Not dispersal
3.
Distribution patterns
1. Random: Equal chance of being anywhere. Neutral interactions.
2. Uniform (spaced) distribution of resources.
Regular: Uniformly spaced.
Exclusive use of areas. Antagonistic interaction
individuals avoid one another.
3. Clumped: Unequal chance of being anywhere.
Mutual attraction between individuals.
Patchy resource distribution.
4. Competition for water: uniform distribution benefits allCompetition for water: uniform distribution benefits all
6. 10.4 The spatial structure of populations parallels environmental variation Population density
Number of individuals per unit of area
Variation in population density
7. Influenced by available habitat
Carolina wren: Northwards -7oC; Westward>52mm
When all environmental factors within its range of tolerance, the organism can live in its habitat
Horned lark
Avoids forests
Available territory
8. Ideal free distribution Lincoln-Peterson index: N=nM/R
Lincoln-Peterson index: N=nM/R
9. BIOL 4120: Principles of Ecology Lecture 8: The Distribution and Spatial Structure of Populations Dafeng Hui
Room: Harned Hall 320
Phone: 963-5777
Email: dhui@tnstate.edu
10. Dispersal from high-density to low density patches Lincoln-Peterson index: N=nM/R
Lincoln-Peterson index: N=nM/R
11. Even with dispersal, population distribution can not move to very poor habitat
12. 10.5 Three types of models describe the spatial structure of populations
Metapopulation models
a set of subpopulations occupying patches of a particular habitat type between which individuals move occasionally
Source-sink models
Add differences in quality of suitable habitat patches: source population and sink population
Landscape models
consider effects of differences in habitat quality within the habit maxtrix, thus influence the quality of a habitat patch (a nearby patch provide safe roosting sites, nesting materials, pollinators, or water) or negative impacts (predators). Habitat maxtrix also inflences movements.Metapopulation models
a set of subpopulations occupying patches of a particular habitat type between which individuals move occasionally
Source-sink models
Add differences in quality of suitable habitat patches: source population and sink population
Landscape models
consider effects of differences in habitat quality within the habit maxtrix, thus influence the quality of a habitat patch (a nearby patch provide safe roosting sites, nesting materials, pollinators, or water) or negative impacts (predators). Habitat maxtrix also inflences movements.
13. 10.6 Dispersal is essential to the integration of populations
15. 8.7 Macroecology addresses patterns of range size and population density
20. Chinch bugs: pest, feed on grasses, and crops such as wheat, barley, oats, corns, etc.Chinch bugs: pest, feed on grasses, and crops such as wheat, barley, oats, corns, etc.
21. Invasive species Gypsy moth is native to Europe and Asia and was introduced to US by an French astronomer (Massachusetts) as a silk moth. In the forest of eastern US, the losses to Gysp moth in 1981 were $764 million.
No predator, enough food
Cost of invasive species in US every year: $123 billion.
Ants
Kudzu
Gypsy moth is native to Europe and Asia and was introduced to US by an French astronomer (Massachusetts) as a silk moth. In the forest of eastern US, the losses to Gysp moth in 1981 were $764 million.
No predator, enough food
Cost of invasive species in US every year: $123 billion.
Ants
Kudzu
22. Invasive species Zebra mussel, Asia carp; fire ants.Zebra mussel, Asia carp; fire ants.
23. The END