The bifurcation analysis of a predator–prey system of Holling and Leslie type with constant-yield prey harvesting is carried out in this paper. It is shown that the model has a Bogdanov–Takens singularity (cusp case) of codimension at least 4 for some parameter values. Various kinds of bifurcations, such as saddle-node bifurcation, Hopf bifurcation, repelling and attracting Bogdanov–Takens bifurcations of codimensions 2 and 3, are also shown in the model as parameters vary. Hence, there are different parameter values for which the model has a limit cycle, a homoclinic loop, two limit cycles, or a limit cycle coexisting with a homoclinic loop. These results present far richer dynamics compared to the model with no harvesting. Numerical simul...
The research presented in this paper compares the occurrence of limit cycles under different bifurca...
Two predator-prey models with nonmonotonic functional response and state-dependent impulsive harvest...
We study a predator-prey model with Holling type I functional response, an alternative food source f...
(Communicated by Yuan Lou) Abstract. In this paper we study the effect of constant-yield predator ha...
The bifurcation properties of a predator prey system with refuge and constant harvesting are investi...
Abstract. We consider a generalised Gause predator-prey system with a generalised Holling response f...
In this paper we study the complex dynamics of predator-prey systems with nonmonotonic fun...
Abstract. In this paper we study a generalized Gause model with prey harvesting and a generalized Ho...
AbstractIn this paper we study a generalized Gause model with prey harvesting and a generalized Holl...
In this paper we study bifurcations in predator-prey systems with seasonal prey harvesting. First, w...
Abstract In this work, an attempt is made to understand the dynamics of a modified Leslie–Gower mode...
AbstractThe objective of this paper is to study systematically the dynamical properties of a ratio-d...
Abstract. We consider a predator-prey system with nonmonotonic functional response: p(x) = mx ax2+bx...
In this paper a modified May-Holling-Tanner predator-prey model is analyzed, considering an alternat...
Abstract In this paper, we study a discrete predator–prey system with modified Holling–Tanner functi...
The research presented in this paper compares the occurrence of limit cycles under different bifurca...
Two predator-prey models with nonmonotonic functional response and state-dependent impulsive harvest...
We study a predator-prey model with Holling type I functional response, an alternative food source f...
(Communicated by Yuan Lou) Abstract. In this paper we study the effect of constant-yield predator ha...
The bifurcation properties of a predator prey system with refuge and constant harvesting are investi...
Abstract. We consider a generalised Gause predator-prey system with a generalised Holling response f...
In this paper we study the complex dynamics of predator-prey systems with nonmonotonic fun...
Abstract. In this paper we study a generalized Gause model with prey harvesting and a generalized Ho...
AbstractIn this paper we study a generalized Gause model with prey harvesting and a generalized Holl...
In this paper we study bifurcations in predator-prey systems with seasonal prey harvesting. First, w...
Abstract In this work, an attempt is made to understand the dynamics of a modified Leslie–Gower mode...
AbstractThe objective of this paper is to study systematically the dynamical properties of a ratio-d...
Abstract. We consider a predator-prey system with nonmonotonic functional response: p(x) = mx ax2+bx...
In this paper a modified May-Holling-Tanner predator-prey model is analyzed, considering an alternat...
Abstract In this paper, we study a discrete predator–prey system with modified Holling–Tanner functi...
The research presented in this paper compares the occurrence of limit cycles under different bifurca...
Two predator-prey models with nonmonotonic functional response and state-dependent impulsive harvest...
We study a predator-prey model with Holling type I functional response, an alternative food source f...