The interaction of intraspecific competition and habitat on individual diet specialization: a near range-wide examination of sea otters

The quantification of individuality is a common research theme in the fields of population, community, and evolutionary ecology. The potential for individuality to arise is likely context-dependent, and the influence of habitat characteristics on its prevalence has received less attention than intra...

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Bibliographic Details
Published in:Oecologia 2015-05, Vol.178 (1), p.45-59
Main Authors: Newsome, Seth D., Tinker, M. Tim, Gill, Verena A., Hoyt, Zachary N., Doroff, Angela, Nichol, Linda, Bodkin, James L.
Format: Article
Language:English
Subjects:
Alaska
Animals
Aquatic mammals
Behavior, Animal
Biomedical and Life Sciences
California
Competition
Diet
Ecology
Ecosystem
Enhydra lutris
Feeding Behavior
Geological Phenomena
Habitats
Homing Behavior
Hydrology/Water Resources
Life Sciences
Lutrinae
Marine mammals
Niches
Otters
Phenotype
Plant Sciences
Population Density
Prey
Relative abundance
Sediments (Geology)
SPECIAL TOPIC: INDIVIDUAL-LEVEL NICHE SPECIALIZATION
Stable isotopes
Substrates
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Summary:The quantification of individuality is a common research theme in the fields of population, community, and evolutionary ecology. The potential for individuality to arise is likely context-dependent, and the influence of habitat characteristics on its prevalence has received less attention than intraspecific competition. We examined individual diet specialization in 16 sea otter (Enhydra lutris) populations from southern California to the Aleutian Islands in Alaska. Because population histories, relative densities, and habitat characteristics vary widely among sites, we could examine the effects of intraspecific competition and habitat on the prevalence of individual diet specialization. Using observed diet data, we classified half of our sites as rocky substrate habitats and the other half containing a mixture of rocky and unconsolidated (soft) sediment substrates. We used stable isotope data to quantify populationand individual-level diet variation. Among rocky substrate sites, the slope [±standard error (SE)] of the positive significant relationship between the within-individual component (WIC) and total isotopie niche width (TINW) was shallow (0.23 ± 0.07) and negatively correlated with sea otter density. In contrast, the slope of the positive WIC/TINW relationship for populations inhabiting mixed substrate habitats was much higher (0.53 ± 0.14), suggesting a low degree of individuality, irrespective of intraspecific competition. Our results show that the potential for individuality to occur as a result of increasing intraspecific competition is contextdependent and that habitat characteristics, which ultimately influence prey diversity, relative abundance, and the range of skillsets required for efficient prey procurement, are important in determining when and where individual diet specialization occurs in nature.
ISSN:0029-8549
1432-1939
DOI:10.1007/s00442-015-3223-8