Animal Behavior/Habitat

Space Utilization
Individuals must find their place within the three dimensional expanse in which all material objects are located. Individual species ought to strive for finding the most favorable combination of spatial distribution and the use of resources offered there. Distribution and behavior of individuals or species contingent on spatially explicit references.Habitat refers to any part of the biosphere where a species can successfully live and reproduce; Niche, in contrast, describes a species' ecological role within a community.

Individuals

 * Ideal Free Distribution The relative number of foragers in each patch should match the relative, available amount of resources obtained there (except with incomplete information or inter-forager interference). Individuals should distribute themselves among habitats so that every individual maximizes its net rate of return. Costs and benefits may depend on how many other users are already using the resource. applies to food, mates, etc.
 * Ideal Depotic Distribution Individuals chose the most suitable area, within the constraints that other residents provide
 * Allee-type Distribution Individuals chose the most suitable area, within the constraints that other residents provide

Fundamental vs. realized niche: A variety of factors may determine the presence or absence of a species at a particular site. Individuals of a species may not have reached the habitat - dispersal. Alternatively, a variety of determinants may play a role, including abiotic (e.g., weather conditions, soil, climate) or biotic (interactions with other organisms, predation, competition, disease, social factors).

Strategies, Decisions and Preferences in Behavioral Ecology: confer an adaptive advantage with success measured as  Reproductive Success, the probability that an animal of a particular genotype and phenotype will manage to foster reproductively successful offspring.

Habitat Preferences
Natural selection will favor individuals which utilize those habitats in which the greatest number of successful offspring can be raised. Spatial constraints may involve a balance of considerations: e.g., Herring gulls; Variables to consider: resource limitations; spatial and temporal distribution of the resource; variation in resource quality; number of competitors that attempt to control a resource; Predation pressure, etc.

habitat imprinting: many migratory vertebrates, such as salmon tradition: mountain sheep, greylag goose migration : area which an individual, pair, or group occupies or regularly returns to : area of heaviest use, may center on a resource, i.e. nest, water source, food source : any defended area; area of more or less fixed boundaries from which rival conspecifics are excluded through Aggression (self-preservation, protection of the young, or resource competition)
 * Habitat preference as a closed developmental system: many invertebrates, crayfish. Host plant preference in bladder grasshoppers. Poor response to rapid environmental change and human impact, e.g. Karner blue butterfly (Lycaeides melissa samuelis) depends on lupine (Lupinus perennis) as its sole larval food source. Species with highly fixed, genetically programmed habitat selection may require considerable time to evolve mechanisms for the selection of a new habitat
 * Habitat preference as an open developmental system:
 * Dispersal Ecological process affecting distribution, and genetic process affecting geographic differentiation and variation; leaving an area of birth or activity; largely a short range effort; Colonization - long range dispersal. Stay in the safety of home: little danger but competition may reduce reproduction or Disperse and take chances: high mortality but high payoffs. Natural dispersal: e.g. Cattle egrets or Intended and unintended aid in dispersal by humans: e.g. European starling, house sparrow, Africanized honeybees
 * Descriptives for Spatial Distributions: Are distributions random, clumped, dispersed? Describe distribution with: minimum polygon, bivariate normal, spatial autocorrelation, contiguous clustering, or non-parametric utilization distribution (UD)