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- Title
Non-additive response of larval ringed salamanders to intraspecific density.
- Authors
Ousterhout, Brittany; Semlitsch, Raymond
- Abstract
Conditions experienced in early developmental stages can have long-term consequences for individual fitness. High intraspecific density during the natal period can affect juvenile and eventually adult growth rates, metabolism, immune function, survival, and fecundity. Despite the important ecological and evolutionary effects of early developmental density, the form of the relationship between natal density and resulting juvenile phenotype is poorly understood. To test competing hypotheses explaining responses to intraspecific density, we experimentally manipulated the initial larval density of ringed salamanders ( Ambystoma annulatum), a pond-breeding amphibian, over 11 densities. We modeled the functional form of the relationship between natal density and juvenile traits, and compared the relative support for the various hypotheses based on their goodness of fit. These functional form models were then used to parameterize a simple simulation model of population growth. Our data support non-additive density dependence and presents an alternate hypothesis to additive density dependence, self-thinning and Allee effects in larval amphibians. We posit that ringed salamander larvae may be under selective pressure for tolerance to high density and increased efficiency in resource utilization. Additionally, we demonstrate that models of population dynamics are sensitive to assumptions of the functional form of density dependence.
- Subjects
SALAMANDERS; POPULATION density; RINGED salamander; AMPHIBIANS; POPULATION dynamics
- Publication
Oecologia, 2016, Vol 180, Issue 4, p1137
- ISSN
0029-8549
- Publication type
Article
- DOI
10.1007/s00442-015-3516-y