Demographic, mechanistic and density–dependent determinants of population growth rate: a case study in an avian predator

Abstract

Identifying the determinants of population growth rate is a central topic in population ecology. Three approaches (demographic, mechanistic and density–dependent) used historically to describe the determinants of population growth rate are here compared and combined for an avian predator, the barn owl ( Tyto alba ). The owl population remained approximately stable ( r ≈ 0) throughout the period from 1979 to 1991. There was no evidence of density dependence as assessed by goodness of fit to logistic population growth. The finite (λ) and instantaneous ( r ) population growth rates were significantly positively related to food (field vole) availability. The demographic rates, annual adult mortality, juvenile mortality and annual fecundity were reported to be correlated with vole abundance. The best fit ( R ² = 0.82) numerical response of the owl population described a positive effect of food (field voles) and a negative additive effect of owl abundance on r . The numerical response of the barn owl population to food availability was estimated from both census and demographic data, with very similar results. Our analysis shows how the demographic and mechanistic determinants of population growth rate are linked; food availability determines demographic rates, and demographic rates determine population growth rate. The effects of food availability on population growth rate are modified by predator abundance.