Robust persistence and permanence of polynomial and power law dynamical systems

Abstract

A persistent dynamical system in Rd> 0 is one whose solutions have positive lower bounds for large t, while a permanent dynamical system in Rd> 0 is one whose solutions have uniform upper and lower bounds for large t. These properties have important applications for the study of mathematical models in biochemistry, cell biology, and ecology. Inspired by reaction network theory, we define a class of polynomial dynamical systems called tropically endotactic. We show that two-dimensional tropically endotactic polynomial dynamical systems are permanent, irrespective of the values of (possibly time-dependent) parameters in these systems. These results generalize the permanence of two-dimensional reversible, weakly reversible, and endotactic mass action systems.