6533b820fe1ef96bd1279a37
RESEARCH PRODUCT
Territorial defense, territory size, and population regulation.
Andrés López‐sepulcreHanna Kokkosubject
Population Densityeducation.field_of_studyResource (biology)EcologyNatural resource economicsReproductionPopulationPopulation DynamicsTerritorialityBiologyFecundityPopulation densityBiological EvolutionModels BiologicalDensity dependencePopulation growthCarrying capacityAnimalseducationTerritorialityEcology Evolution Behavior and SystematicsEcosystemdescription
The carrying capacity of an environment is determined partly by how individuals compete over the available resources. To territorial animals, space is an important resource, leading to conflict over its use. We build a model where the carrying capacity for an organism in a given environment results from the evolution of territorial defense effort and the consequent space use. The same evolutionary process can yield two completely different modes of population regulation. Density dependence arises through expanding and shrinking territories if fecundity is low, breeding success increases gradually with territory size, and/or defense is cheap. By contrast, when fecundity is high, breeding success sharply saturates with territory size, and/or defense is costly, we predict fixed territory sizes and regulation by floaters. These "surplus" individuals form a buffer against population fluctuations. Yet floaters can also harm breeder performance, and by comparing population growth of a territorial population to a nonterritorial (and individually suboptimal) alternative, we can quantify the harmful effect of evolutionary conflict on population performance. Territoriality has often been found to increase population stability, but this may come at a cost of reduced equilibrium densities.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2005-09-01 | The American naturalist |