Stability and bifurcation analysis in a predator prey model involving additive Allee effect

Stability and bifurcation analysis in a predator prey model involving additive Allee effect

In this paper we study codimension 1 Hopf bifurcation for a two dimensional autonomous nonlinear ordinary differential equations system, modeling a predator-prey interaction with Holling type II functional response and additive Allee effect in the prey equation. Positivity, dissipation, boundedness...

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Bibliographic Details
Published in:Revista integración, temas de matematicas Vol. 42; no. 2
Main Authors: Jocirei Dias Ferreira, Wilmer Libardo Molina Yepez, Jaime Tobar Muñoz
Format: Journal Article
Language:Spanish
Published: Universidad Industrial de Santander 01-08-2024
Subjects:
Allee effect
boundedness
dissipation
permanence
positivity
Predator-prey system
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Summary:In this paper we study codimension 1 Hopf bifurcation for a two dimensional autonomous nonlinear ordinary differential equations system, modeling a predator-prey interaction with Holling type II functional response and additive Allee effect in the prey equation. Positivity, dissipation, boundedness and permanence of the solutions are analyzed. Furthermore, stability and bifurcation analysis are carried out to show the existence of periodic orbits due to the occurrence of codimension 1 Hopf bifurcation, involving weak Allee effect as well as strong Allee effect. In the case of strong Allee effect, through computer simulations carried in MAPLE 13, we conjecture that this model may admit a heteroclinic bifurcation. We present some simulations which allow one to verify the analytical results.
ISSN:0120-419X
2145-8472