Effect of delay in a Lotka-Volterra type predator-prey model with a transmissible disease in the predator species

Mainul Haque; Sahabuddin Sarwardi; Simon Preston; Ezio Venturino

doi:10.1016/j.mbs.2011.06.009

Effect of delay in a Lotka-Volterra type predator-prey model with a transmissible disease in the predator species

Mainul Haque, Sahabuddin Sarwardi, Simon Preston, Ezio Venturino

Research output: Journal Publication › Article › peer-review

55 Citations (Scopus)

Abstract

We consider a system of delay differential equations modeling the predator-prey ecoepidemic dynamics with a transmissible disease in the predator population. The time lag in the delay terms represents the predator gestation period. We analyze essential mathematical features of the proposed model such as local and global stability and in addition study the bifurcations arising in some selected situations. Threshold values for a few parameters determining the feasibility and stability conditions of some equilibria are discovered and similarly a threshold is identified for the disease to die out. The parameter thresholds under which the system admits a Hopf bifurcation are investigated both in the presence of zero and non-zero time lag. Numerical simulations support our theoretical analysis.

Original language	English
Pages (from-to)	47-57
Number of pages	11
Journal	Mathematical Biosciences
Volume	234
Issue number	1
DOIs	https://doi.org/10.1016/j.mbs.2011.06.009
Publication status	Published - Nov 2011
Externally published	Yes

Keywords

Delay
Ecoepidemic models
Global stability
Hopf-bifurcation
Local stability
Population models

ASJC Scopus subject areas

Statistics and Probability
Modelling and Simulation
General Biochemistry,Genetics and Molecular Biology
General Immunology and Microbiology
General Agricultural and Biological Sciences
Applied Mathematics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.mbs.2011.06.009

Cite this

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title = "Effect of delay in a Lotka-Volterra type predator-prey model with a transmissible disease in the predator species",

abstract = "We consider a system of delay differential equations modeling the predator-prey ecoepidemic dynamics with a transmissible disease in the predator population. The time lag in the delay terms represents the predator gestation period. We analyze essential mathematical features of the proposed model such as local and global stability and in addition study the bifurcations arising in some selected situations. Threshold values for a few parameters determining the feasibility and stability conditions of some equilibria are discovered and similarly a threshold is identified for the disease to die out. The parameter thresholds under which the system admits a Hopf bifurcation are investigated both in the presence of zero and non-zero time lag. Numerical simulations support our theoretical analysis.",

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AU - Haque, Mainul

AU - Sarwardi, Sahabuddin

AU - Preston, Simon

AU - Venturino, Ezio

PY - 2011/11

Y1 - 2011/11

N2 - We consider a system of delay differential equations modeling the predator-prey ecoepidemic dynamics with a transmissible disease in the predator population. The time lag in the delay terms represents the predator gestation period. We analyze essential mathematical features of the proposed model such as local and global stability and in addition study the bifurcations arising in some selected situations. Threshold values for a few parameters determining the feasibility and stability conditions of some equilibria are discovered and similarly a threshold is identified for the disease to die out. The parameter thresholds under which the system admits a Hopf bifurcation are investigated both in the presence of zero and non-zero time lag. Numerical simulations support our theoretical analysis.

AB - We consider a system of delay differential equations modeling the predator-prey ecoepidemic dynamics with a transmissible disease in the predator population. The time lag in the delay terms represents the predator gestation period. We analyze essential mathematical features of the proposed model such as local and global stability and in addition study the bifurcations arising in some selected situations. Threshold values for a few parameters determining the feasibility and stability conditions of some equilibria are discovered and similarly a threshold is identified for the disease to die out. The parameter thresholds under which the system admits a Hopf bifurcation are investigated both in the presence of zero and non-zero time lag. Numerical simulations support our theoretical analysis.

KW - Delay

KW - Ecoepidemic models

KW - Global stability

KW - Hopf-bifurcation

KW - Local stability

KW - Population models

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AN - SCOPUS:80054120406

SN - 0025-5564

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Effect of delay in a Lotka-Volterra type predator-prey model with a transmissible disease in the predator species

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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