Predator-dependent transmissible disease spreading in prey under Holling type-II functional response

Dipankar Ghosh; Prasun K. Santra; Abdelalim A. Elsadany; Ghanshaym S. Mahapatra

doi:10.1515/zna-2020-0342

Predator-dependent transmissible disease spreading in prey under Holling type-II functional response

Dipankar Ghosh
, Prasun K. Santra
, Abdelalim A. Elsadany
, Ghanshaym S. Mahapatra

Mathematics

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

2 Scopus citations

Abstract

This paper focusses on developing two species, where only prey species suffers by a contagious disease. We consider the logistic growth rate of the prey population. The interaction between susceptible prey and infected prey with predator is presumed to be ruled by Holling type II and I functional response, respectively. A healthy prey is infected when it comes in direct contact with infected prey, and we also assume that predator-dependent disease spreads within the system. This research reveals that the transmission of this predator-dependent disease can have critical repercussions for the shaping of prey–predator interactions. The solution of the model is examined in relation to survival, uniqueness and boundedness. The positivity, feasibility and the stability conditions of the fixed points of the system are analysed by applying the linearization method and the Jacobian matrix method.

Original language	English
Pages (from-to)	479-492
Number of pages	14
Journal	Zeitschrift fur Naturforschung - Section A Journal of Physical Sciences
Volume	76
Issue number	6
DOIs	https://doi.org/10.1515/zna-2020-0342
State	Published - 1 Jun 2021

UN SDGs

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

SDG 3 Good Health and Well-being

Keywords

Disease transmission
Eco-epidemiological model
Hopf bifurcation
Stability analysis

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10.1515/zna-2020-0342

Cite this

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title = "Predator-dependent transmissible disease spreading in prey under Holling type-II functional response",

abstract = "This paper focusses on developing two species, where only prey species suffers by a contagious disease. We consider the logistic growth rate of the prey population. The interaction between susceptible prey and infected prey with predator is presumed to be ruled by Holling type II and I functional response, respectively. A healthy prey is infected when it comes in direct contact with infected prey, and we also assume that predator-dependent disease spreads within the system. This research reveals that the transmission of this predator-dependent disease can have critical repercussions for the shaping of prey–predator interactions. The solution of the model is examined in relation to survival, uniqueness and boundedness. The positivity, feasibility and the stability conditions of the fixed points of the system are analysed by applying the linearization method and the Jacobian matrix method.",

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AU - Ghosh, Dipankar

AU - Santra, Prasun K.

AU - Elsadany, Abdelalim A.

AU - Mahapatra, Ghanshaym S.

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AB - This paper focusses on developing two species, where only prey species suffers by a contagious disease. We consider the logistic growth rate of the prey population. The interaction between susceptible prey and infected prey with predator is presumed to be ruled by Holling type II and I functional response, respectively. A healthy prey is infected when it comes in direct contact with infected prey, and we also assume that predator-dependent disease spreads within the system. This research reveals that the transmission of this predator-dependent disease can have critical repercussions for the shaping of prey–predator interactions. The solution of the model is examined in relation to survival, uniqueness and boundedness. The positivity, feasibility and the stability conditions of the fixed points of the system are analysed by applying the linearization method and the Jacobian matrix method.

KW - Disease transmission

KW - Eco-epidemiological model

KW - Hopf bifurcation

KW - Stability analysis

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Predator-dependent transmissible disease spreading in prey under Holling type-II functional response

Abstract

UN SDGs

Keywords

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