Despotism and risk of infanticide influence grizzly bear den-site selection

Given documented social dominance and intraspecific predation in bear populations, the ideal despotic distribution model and sex hypothesis of sexual segregation predict adult female grizzly bears (Ursus arctos) will avoid areas occupied by adult males to reduce risk of infanticide. Under ideal desp...

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Published inPloS one Vol. 6; no. 9; p. e24133
Main Authors Libal, Nathan S, Belant, Jerrold L, Leopold, Bruce D, Wang, Guiming, Owen, Patricia A
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 14.09.2011
Public Library of Science (PLoS)
Subjects
Alaska
Animal behavior
Animal populations
Animals
Area Under Curve
Behavior, Animal
Biology
Conspecifics
Dens
Ecological effects
Ecology
Elevation
Entropy
Female
Females
Food resources
Grizzly bear
Grizzly bears
Habitats
Infanticide
Juveniles
Land cover
Land use
Male
Males
Mathematical models
Maximum entropy
National parks
Predation
Predatory Behavior
Risk
Risk factors
Risk reduction
Segregation
Sex
Site selection
Slopes
Social Behavior
Social Dominance
Spatial distribution
Ursidae - physiology
Ursus arctos
Alaska
United States > US
Mississippi
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Summary:Given documented social dominance and intraspecific predation in bear populations, the ideal despotic distribution model and sex hypothesis of sexual segregation predict adult female grizzly bears (Ursus arctos) will avoid areas occupied by adult males to reduce risk of infanticide. Under ideal despotic distribution, juveniles should similarly avoid adult males to reduce predation risk. Den-site selection and use is an important component of grizzly bear ecology and may be influenced by multiple factors, including risk from conspecifics. To test the role of predation risk and the sex hypothesis of sexual segregation, we compared adult female (n = 142), adult male (n = 36), and juvenile (n = 35) den locations in Denali National Park and Preserve, Alaska, USA. We measured elevation, aspect, slope, and dominant land cover for each den site, and used maximum entropy modeling to determine which variables best predicted den sites. We identified the global model as the best-fitting model for adult female (area under curve (AUC) = 0.926) and elevation as the best predictive variable for adult male (AUC = 0.880) den sites. The model containing land cover and elevation best-predicted juvenile (AUC = 0.841) den sites. Adult females spatially segregated from adult males, with dens characterized by higher elevations (mean= 1,412 m, SE = 52) and steeper slopes (mean = 21.9°, SE = 1.1) than adult male (elevation: mean = 1,209 m, SE = 76; slope: mean = 15.6°, SE = 1.9) den sites. Juveniles used a broad range of landscape attributes but did not avoid adult male denning areas. Observed spatial segregation by adult females supports the sex hypothesis of sexual segregation and we suggest is a mechanism to reduce risk of infanticide. Den site selection of adult males is likely related to distribution of food resources during spring.
Bibliography:Conceived and designed the experiments: NSL JLB BDL GW PAO. Performed the experiments: NSL JLB PAO. Analyzed the data: NSL JLB BDL GW PAO. Contributed reagents/materials/analysis tools: NSL JLB BDL GW PAO. Wrote the paper: NSL JLB BDL GW PAO.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0024133