Stability and bifurcation in a delayed ratio-dependent predator-prey system

Abstract

Recently, ratio-dependent predator-prey systems have been regarded by some researchers as being more appropriate for predator-prey interactions where predation involves serious searching processes. Due to the fact that every population goes through some distinct life stages in real-life, one often introduces time delays in the variables being modelled. The presence of time delay often greatly complicates the analytical study of such models. In this paper, the qualitative behaviour of a class of ratio-dependent predator-prey systems with delay at the equilibrium in the interior of the first quadrant is studied. It is shown that the interior equilibrium cannot be absolutely stable and there exist non-trivial periodic solutions for the model. Moreover, by choosing delay τ as the bifurcation parameter we study the Hopf bifurcation and the stability of the periodic solutions.