Bayesian Population Dynamics of Interacting Species: Great Gerbils and Fleas in Kazakhstan

We propose a discrete-time Bayesian hierarchical model for the population dynamics of the great gerbil-flea ecological system. The model accounts for the sampling variability arising from data originally collected for other purposes. The prior for the unknown population densities incorporates specif...

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Bibliographic Details
Published in:Biometrics 2005-03, Vol.61 (1), p.230-238
Main Authors: Frigessi, Arnoldo, Holden, Marit, Marshall, Clare, Viljugrein, Hildegunn, Stenseth, Nils Chr, Holden, Lars, Ageyev, Vladimir, Klassovskiy, Nikolay L.
Format: Article
Language:English
Subjects:
Animals
Bayes Theorem
Biometry
Density dependence
Ecosystem
Fleas
Gerbillinae
Gerbils
Hierarchical models
Kazakhstan
Likelihood Functions
MCMC
Models, Statistical
Plague
Population
Population density
Population dynamics
Population growth rate
Rodents
Siphonaptera
Statistical variance
Stratified sampling
Summer
Winter
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Summary:We propose a discrete-time Bayesian hierarchical model for the population dynamics of the great gerbil-flea ecological system. The model accounts for the sampling variability arising from data originally collected for other purposes. The prior for the unknown population densities incorporates specific biological hypotheses regarding the interacting dynamics of the two species, as well as their life cycles, where density-dependent effects are included. Posterior estimates are obtained via Markov chain Monte Carlo. The variance of the observed density estimates is a quadratic function of the unknown density. Our study indicates the presence of a density-dependent growth rate for the gerbil population. For the flea population there is clear evidence of density-dependent over-summer net growth, which is dependent on the flea-to-gerbil ratio at the beginning of the reproductive summer. Over-winter net growth is favored by high density. We estimate that on average 35% of the gerbil population survives the winter. Our study shows that hierarchical Bayesian models can be useful in extracting ecobiological information from observational data.
ISSN:0006-341X
1541-0420
DOI:10.1111/j.0006-341X.2005.030536.x