An ecoepidemiological predator-prey model with standard disease incidence

Mainul Haque; Jin Zhen; Ezio Venturino

doi:10.1002/mma.1071

An ecoepidemiological predator-prey model with standard disease incidence

Mainul Haque, Jin Zhen, Ezio Venturino

Research output: Journal Publication › Article › peer-review

72 Citations (Scopus)

Abstract

This investigation accounts for epidemics spreading among interacting populations. The infective disease spreads among the prey, of which only susceptibles reproduce, while infected prey do not grow, recover, reproduce nor compete for resources. The model is general enough to describe a large number of ecosystems, on land, in the air or in the water. The main results concern the boundedness of the trajectories, the analysis of local and global stability, system's persistency and a threshold property below which the infection disappears. A sufficiently strong disease in the prey may avoid predators extinction and its presence can destabilize an otherwise stable predator-prey configuration. The occurrence of transcritical, saddle-node and Hopf-bifurcations is also shown.

Original language	English
Pages (from-to)	875-898
Number of pages	24
Journal	Mathematical Methods in the Applied Sciences
Volume	32
Issue number	7
DOIs	https://doi.org/10.1002/mma.1071
Publication status	Published - 15 May 2009
Externally published	Yes

Keywords

Bifurcations
Ecoepidemiology
Epidemics
Global stability
Local stability
Persistence
Predator-
Prey models

ASJC Scopus subject areas

General Mathematics
General Engineering

UN SDGs

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

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10.1002/mma.1071

Cite this

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AU - Zhen, Jin

AU - Venturino, Ezio

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N2 - This investigation accounts for epidemics spreading among interacting populations. The infective disease spreads among the prey, of which only susceptibles reproduce, while infected prey do not grow, recover, reproduce nor compete for resources. The model is general enough to describe a large number of ecosystems, on land, in the air or in the water. The main results concern the boundedness of the trajectories, the analysis of local and global stability, system's persistency and a threshold property below which the infection disappears. A sufficiently strong disease in the prey may avoid predators extinction and its presence can destabilize an otherwise stable predator-prey configuration. The occurrence of transcritical, saddle-node and Hopf-bifurcations is also shown.

AB - This investigation accounts for epidemics spreading among interacting populations. The infective disease spreads among the prey, of which only susceptibles reproduce, while infected prey do not grow, recover, reproduce nor compete for resources. The model is general enough to describe a large number of ecosystems, on land, in the air or in the water. The main results concern the boundedness of the trajectories, the analysis of local and global stability, system's persistency and a threshold property below which the infection disappears. A sufficiently strong disease in the prey may avoid predators extinction and its presence can destabilize an otherwise stable predator-prey configuration. The occurrence of transcritical, saddle-node and Hopf-bifurcations is also shown.

KW - Bifurcations

KW - Ecoepidemiology

KW - Epidemics

KW - Global stability

KW - Local stability

KW - Persistence

KW - Predator-

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An ecoepidemiological predator-prey model with standard disease incidence

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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