• Title of article

    Is maximizing resilience compatible with established ecological goal functions?

  • Author/Authors

    Kristensen، نويسنده , , Nadiah Pardede and Gabric، نويسنده , , Albert and Braddock، نويسنده , , Roger A. Cropp، نويسنده , , Roger، نويسنده ,

  • Pages
    11
  • From page
    61
  • To page
    71
  • Abstract
    Cropp and Gabric [Ecosystem adaptation: do ecosystems maximise resilience? Ecology. In press] used a simple phytoplankton–zooplankton–nutrient model and a genetic algorithm to determine the parameter values that would maximize the value of certain goal functions. These goal functions were to maximize biomass, maximize flux, maximize flux to biomass ratio, and maximize resilience. It was found that maximizing goal functions maximized resilience. The objective of this study was to investigate whether the Cropp and Gabric [Ecosystem adaptation: do ecosystems maximise resilience? Ecology. In press] result was indicative of a general ecosystem principle, or peculiar to the model and parameter ranges used. This study successfully replicated the Cropp and Gabric [Ecosystem adaptation: do ecosystems maximise resilience? Ecology. In press] experiment for a number of different model types, however, a different interpretation of the results is made. A new metric, concordance, was devised to describe the agreement between goal functions. It was found that resilience has the highest concordance of all goal functions trialled, for most model types. This implies that resilience offers a compromise between the established ecological goal functions. The parameter value range used is found to affect the parameter versus goal function relationships. Local maxima and minima affected the relationship between parameters and goal functions, and between goal functions.
  • Keywords
    concordance , Emergent properties , Thermodynamic goal functions , Resilience
  • Journal title
    Astroparticle Physics
  • Record number

    2037796