Dynamics and bifurcations of a discrete-time prey-predator model with Allee effect on the prey population

Z. Eskandari; J. Alidousti; Z. Avazzadeh; J. A. Tenreiro Machado

doi:10.1016/j.ecocom.2021.100962

Dynamics and bifurcations of a discrete-time prey-predator model with Allee effect on the prey population

Z. Eskandari, J. Alidousti, Z. Avazzadeh^*, J. A. Tenreiro Machado

^*Corresponding author for this work

Department of Applied Mathematics

Research output: Contribution to journal › Article › peer-review

21 Citations (Scopus)

Abstract

This paper studies the dynamic behavior of a discrete-time prey-predator model. It is shown that this model undergoes codimension one and codimension two bifurcations such as transcritical, flip (period-doubling), Neimark-Sacker and strong resonances 1:2, 1:3 and 1:4. The bifurcation analysis is based on the numerical normal form method and the bifurcation scenario around the bifurcation point is determined by their critical normal form coefficients. The advantage of this method is that there is no need to calculate the center manifold and to convert the linear part of the map to a Jordan form. The bifurcation curves of fixed points under variation of one and two parameters are obtained, and the codimensions one and the two bifurcations on the corresponding curves are computed.

Original language	English
Article number	100962
Journal	Ecological Complexity
Volume	48
DOIs	https://doi.org/10.1016/j.ecocom.2021.100962
Publication status	Published - Dec 2021

Keywords

Neimark-Sacker
bifurcation
critical normal form coefficient
numerical continuation
numerical normal form
period doubling
strong resonances
transcritical

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10.1016/j.ecocom.2021.100962

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title = "Dynamics and bifurcations of a discrete-time prey-predator model with Allee effect on the prey population",

abstract = "This paper studies the dynamic behavior of a discrete-time prey-predator model. It is shown that this model undergoes codimension one and codimension two bifurcations such as transcritical, flip (period-doubling), Neimark-Sacker and strong resonances 1:2, 1:3 and 1:4. The bifurcation analysis is based on the numerical normal form method and the bifurcation scenario around the bifurcation point is determined by their critical normal form coefficients. The advantage of this method is that there is no need to calculate the center manifold and to convert the linear part of the map to a Jordan form. The bifurcation curves of fixed points under variation of one and two parameters are obtained, and the codimensions one and the two bifurcations on the corresponding curves are computed.",

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T1 - Dynamics and bifurcations of a discrete-time prey-predator model with Allee effect on the prey population

AU - Eskandari, Z.

AU - Alidousti, J.

AU - Avazzadeh, Z.

AU - Tenreiro Machado, J. A.

PY - 2021/12

Y1 - 2021/12

N2 - This paper studies the dynamic behavior of a discrete-time prey-predator model. It is shown that this model undergoes codimension one and codimension two bifurcations such as transcritical, flip (period-doubling), Neimark-Sacker and strong resonances 1:2, 1:3 and 1:4. The bifurcation analysis is based on the numerical normal form method and the bifurcation scenario around the bifurcation point is determined by their critical normal form coefficients. The advantage of this method is that there is no need to calculate the center manifold and to convert the linear part of the map to a Jordan form. The bifurcation curves of fixed points under variation of one and two parameters are obtained, and the codimensions one and the two bifurcations on the corresponding curves are computed.

AB - This paper studies the dynamic behavior of a discrete-time prey-predator model. It is shown that this model undergoes codimension one and codimension two bifurcations such as transcritical, flip (period-doubling), Neimark-Sacker and strong resonances 1:2, 1:3 and 1:4. The bifurcation analysis is based on the numerical normal form method and the bifurcation scenario around the bifurcation point is determined by their critical normal form coefficients. The advantage of this method is that there is no need to calculate the center manifold and to convert the linear part of the map to a Jordan form. The bifurcation curves of fixed points under variation of one and two parameters are obtained, and the codimensions one and the two bifurcations on the corresponding curves are computed.

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KW - critical normal form coefficient

KW - numerical continuation

KW - numerical normal form

KW - period doubling

KW - strong resonances

KW - transcritical

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JO - Ecological Complexity

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Dynamics and bifurcations of a discrete-time prey-predator model with Allee effect on the prey population

Abstract

Keywords

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