• Title of article

    The impact of mortality on predator population size and stability in systems with stage-structured prey

  • Author/Authors

    Peter A. Abrams، نويسنده , , Christopher Quince، نويسنده ,

  • Issue Information
    دوماهنامه با شماره پیاپی سال 2005
  • Pages
    14
  • From page
    253
  • To page
    266
  • Abstract
    The relationships between a predator populationʹs mortality rate and its population size and stability are investigated for several simple predator–prey models with stage-structured prey populations. Several alternative models are considered; these differ in their assumptions about the nature of density dependence in the preyʹs population growth; the nature of stage-transitions; and the stage-selectivity of the predator. Instability occurs at high, rather than low predator mortality rates in most models with highly stage-selective predation; this is the opposite of the effect of mortality on stability in models with homogeneous prey populations. Stage-selective predation also increases the range of parameters that lead to a stable equilibrium. The results suggest that it may be common for a stable predator population to increase in abundance as its own mortality rate increases in stable systems, provided that the predator has a saturating functional response. Sufficiently strong density dependence in the prey generally reverses this outcome, and results in a decrease in predator population size with increasing predator mortality rate. Stability is decreased when the juvenile stage has a fixed duration, but population increases with increasing mortality are still observed in large areas of stable parameter space. This raises two coupled questions which are as yet unanswered; (1) do such increases in population size with higher mortality actually occur in nature; and (2) if not, what prevents them from occurring? Stage-structured prey and stage-related predation can also reverse the ‘paradox of enrichment’, leading to stability rather than instability when prey growth is increased.
  • Keywords
    Hydra effect , Limit cycles , Predation , Predator–prey models , stability , Stage structure
  • Journal title
    Theoretical Population Biology
  • Serial Year
    2005
  • Journal title
    Theoretical Population Biology
  • Record number

    773871