Loss of density-dependence and incomplete control by dominant breeders in a territorial species with density outbreaks
Eccard, J., Jokinen, I., & Ylönen, H. (2011). Loss of density-dependence and incomplete control by dominant breeders in a territorial species with density outbreaks. BMC Ecology, 11(16). https://doi.org/10.1186/1472-6785-11-16
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© 2011 Eccard et al; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License.
Background: A territory as a prerequisite for breeding limits the maximum number of breeders in a given area,
and thus lowers the proportion of breeders if population size increases. However, some territorially breeding
animals can have dramatic density fluctuations and little is known about the change from density-dependent
processes to density-independence of breeding during a population increase or an outbreak. We suggest that
territoriality, breeding suppression and its break-down can be understood with an incomplete-control model,
developed for social breeders and social suppression.
Results: We studied density dependence in an arvicoline species, the bank vole, known as a territorial breeder with
cyclic and non-cyclic density fluctuations and periodically high densities in different parts of its range. Our long-term
data base from 38 experimental populations in large enclosures in boreal grassland confirms that breeding rates are
density-regulated at moderate densities, probably by social suppression of subordinate potential breeders. We
conducted an experiment, were we doubled and tripled this moderate density under otherwise the same conditions
and measured space use, mortality, reproduction and faecal stress hormone levels (FGM) of adult females. We found
that mortality did not differ among the densities, but the regulation of the breeding rate broke down: at double and
triple densities all females were breeding, while at the low density the breeding rate was regulated as observed
before. Spatial overlap among females increased with density, while a minimum territory size was maintained. Mean
stress hormone levels were higher in double and triple densities than at moderate density.
Conclusions: At low and moderate densities, breeding suppression by the dominant breeders, But above a
density-threshold (similar to a competition point), the dominance of breeders could not be sustained (incomplete
control). In our experiment, this point was reached after territories could not shrink any further, while the number
of intruders continued to increase with increasing density. Probably suppression becomes too costly for the
dominants, and increasing number of other breeders reduces the effectiveness of threats. In wild populations,
crossing this threshold would allow for a rapid density increase or population outbreaks, enabling territorial species
to escape density-dependency.
...
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Except where otherwise noted, this item's license is described as © 2011 Eccard et al; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License.
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