Eco-epidemiological model with fatal disease in the prey

David Greenhalgh; Qamar J.A. Khan; Fatma Ahmed Al-Kharousi

doi:10.1016/j.nonrwa.2019.103072

Eco-epidemiological model with fatal disease in the prey

David Greenhalgh, Qamar J.A. Khan^*, Fatma Ahmed Al-Kharousi

^*Corresponding author for this work

Mathematics

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

24 Citations (Scopus)

Abstract

We investigate a model consisting of a predator population and both susceptible and infected prey populations. The predator can feed on either prey species but instead of choosing individuals at random the predator feeds preferentially on the most abundant prey species. More specifically we assume that the likelihood of a predator catching a susceptible prey or an infected prey is proportional to the numbers of these two different types of prey species. This phenomenon, involving changing preference from susceptible to infected prey, is called switching. Mukhopadhyay studied a switching model and proposed that the interaction of predators with infected prey is beneficial for the growth of the predator. In this model, we assume that the predator will eventually die as a result of eating infected prey. We find a threshold parameter R₀ and showed that the disease will be eradicated from the system if R₀<1.

Original language	English
Article number	103072
Journal	Nonlinear Analysis: Real World Applications
Volume	53
DOIs	https://doi.org/10.1016/j.nonrwa.2019.103072
Publication status	Published - Jun 2020

Keywords

Epidemiological Model
Fatal disease
Predator
Prey
Switching
epidemiology

ASJC Scopus subject areas

Analysis
General Engineering
Economics, Econometrics and Finance(all)
Computational Mathematics
Applied Mathematics

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10.1016/j.nonrwa.2019.103072

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title = "Eco-epidemiological model with fatal disease in the prey",

abstract = "We investigate a model consisting of a predator population and both susceptible and infected prey populations. The predator can feed on either prey species but instead of choosing individuals at random the predator feeds preferentially on the most abundant prey species. More specifically we assume that the likelihood of a predator catching a susceptible prey or an infected prey is proportional to the numbers of these two different types of prey species. This phenomenon, involving changing preference from susceptible to infected prey, is called switching. Mukhopadhyay studied a switching model and proposed that the interaction of predators with infected prey is beneficial for the growth of the predator. In this model, we assume that the predator will eventually die as a result of eating infected prey. We find a threshold parameter R0 and showed that the disease will be eradicated from the system if R0<1.",

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volume = "53",

journal = "Nonlinear Analysis: Real World Applications",

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AU - Greenhalgh, David

AU - Khan, Qamar J.A.

AU - Al-Kharousi, Fatma Ahmed

PY - 2020/6

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N2 - We investigate a model consisting of a predator population and both susceptible and infected prey populations. The predator can feed on either prey species but instead of choosing individuals at random the predator feeds preferentially on the most abundant prey species. More specifically we assume that the likelihood of a predator catching a susceptible prey or an infected prey is proportional to the numbers of these two different types of prey species. This phenomenon, involving changing preference from susceptible to infected prey, is called switching. Mukhopadhyay studied a switching model and proposed that the interaction of predators with infected prey is beneficial for the growth of the predator. In this model, we assume that the predator will eventually die as a result of eating infected prey. We find a threshold parameter R0 and showed that the disease will be eradicated from the system if R0<1.

AB - We investigate a model consisting of a predator population and both susceptible and infected prey populations. The predator can feed on either prey species but instead of choosing individuals at random the predator feeds preferentially on the most abundant prey species. More specifically we assume that the likelihood of a predator catching a susceptible prey or an infected prey is proportional to the numbers of these two different types of prey species. This phenomenon, involving changing preference from susceptible to infected prey, is called switching. Mukhopadhyay studied a switching model and proposed that the interaction of predators with infected prey is beneficial for the growth of the predator. In this model, we assume that the predator will eventually die as a result of eating infected prey. We find a threshold parameter R0 and showed that the disease will be eradicated from the system if R0<1.

KW - Epidemiological Model

KW - Fatal disease

KW - Predator

KW - Prey

KW - Switching

KW - epidemiology

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Eco-epidemiological model with fatal disease in the prey

Abstract

Keywords

ASJC Scopus subject areas

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