• Title of article

    Simplifying a physiologically structured population model to a stage-structured biomass model

  • Author/Authors

    Andre M. de Roos، نويسنده , , Tim Schellekens، نويسنده , , Tobias Van Kooten، نويسنده , , Karen Van De Wolfshaar، نويسنده , , David Claessen، نويسنده , , Lennart Persson، نويسنده ,

  • Issue Information
    دوماهنامه با شماره پیاپی سال 2008
  • Pages
    16
  • From page
    47
  • To page
    62
  • Abstract
    We formulate and analyze an archetypal consumer–resource model in terms of ordinary differential equations that consistently translates individual life history processes, in particular food-dependent growth in body size and stage-specific differences between juveniles and adults in resource use and mortality, to the population level. This stage-structured model is derived as an approximation to a physiologically structured population model, which accounts for a complete size-distribution of the consumer population and which is based on assumptions about the energy budget and size-dependent life history of individual consumers. The approximation ensures that under equilibrium conditions predictions of both models are completely identical. In addition we find that under non-equilibrium conditions the stage-structured model gives rise to dynamics that closely approximate the dynamics exhibited by the size-structured model, as long as adult consumers are superior foragers than juveniles with a higher mass-specific ingestion rate. When the mass-specific intake rate of juvenile consumers is higher, the size-structured model exhibits single-generation cycles, in which a single cohort of consumers dominates population dynamics throughout its life time and the population composition varies over time between a dominance by juveniles and adults, respectively. The stage-structured model does not capture these dynamics because it incorporates a distributed time delay between the birth and maturation of an individual organism in contrast to the size-structured model, in which maturation is a discrete event in individual life history. We investigate model dynamics with both semi-chemostat and logistic resource growth.
  • Keywords
    Food-dependent individual growth , Stage-structured model , Population dynamics , Archetypalmodel , Consumer–resource , Population size-structure
  • Journal title
    Theoretical Population Biology
  • Serial Year
    2008
  • Journal title
    Theoretical Population Biology
  • Record number

    774041