Litcius/Paper detail

Revisiting the Human and Nature Dynamics Model

Basil Grammaticos, Ralph Willox, Junkichi Satsuma

2020Regular and Chaotic Dynamics11 citationsDOIOpen Access PDF

Abstract

We present a simple model for describing the dynamics of the interaction between a homogeneous population or society, and the natural resources and reserves that the society needs for its survival. The model is formulated in terms of ordinary differential equations, which are subsequently discretised, the discrete system providing a natural integrator for the continuous one. An ultradiscrete, generalised cellular automaton-like, model is also derived. The dynamics of our simple, three-component, model are particularly rich exhibiting either a route to a steady state or an oscillating, limit cycle-type regime or to a collapse. While these dynamical behaviours depend strongly on the choice of the details of the model, the important conclusion is that a collapse or near collapse, leading to the disappearance of the population or to a complete transfiguration of its societal model, is indeed possible.

Topics & Concepts

Dynamics (music)Limit (mathematics)PopulationStatistical physicsSimple (philosophy)HomogeneousNatural (archaeology)Steady state (chemistry)Ordinary differential equationMathematical economicsMathematicsPopulation modelIntegratorPhysicsComputer scienceState (computer science)System dynamicsDifferential (mechanical device)Dynamical system (definition)EconomicsComplex dynamicsMathematical modelEconomic modelControl theory (sociology)Dynamical systems theoryDiscrete time and continuous timeAction (physics)Continuous modellingApplied mathematicsHuman dynamicsEarth Systems and Cosmic EvolutionChaos, Complexity, and EducationEcosystem dynamics and resilience