English

Chaotic dynamics in a simple predator-prey model with discrete delay

Dynamical Systems 2020-08-03 v1 Chaotic Dynamics

Abstract

A discrete delay is included to model the time between the capture of the prey and its conversion to viable biomass in the simplest classical Gause type predator-prey model that has equilibrium dynamics without delay. As the delay increases from zero, the coexistence equilibrium undergoes a supercritical Hopf bifurcation, two saddle-node bifurcations of limit cycles, and a cascade of period doublings, eventu1ally leading to chaos. The resulting periodic orbits and the strange attractor resemble their counterparts for the Mackey-Glass equation. Due to the global stability of the system without delay, these complicated dynamics can be solely attributed to the introduction of the delay. Since many models include predator-prey like interactions as submodels, this study emphasizes the importance of understanding the implications of overlooking delay in such models on the reliability of the model-based predictions, especially since the temperature is known to have an effect on the length of certain delays.

Keywords

Cite

@article{arxiv.2007.16140,
  title  = {Chaotic dynamics in a simple predator-prey model with discrete delay},
  author = {Guihong Fan and Gail S. K. Wolkowicz},
  journal= {arXiv preprint arXiv:2007.16140},
  year   = {2020}
}

Comments

This paper has 28 pages, 12 figures and has been accepted to DCDS-B. Please cite the journal version once it is published in DCDS-B. Appreciate that

R2 v1 2026-06-23T17:33:34.431Z