An Eco-Epidemiological Model Incorporating Harvesting Factors

An Eco-Epidemiological Model Incorporating Harvesting Factors

The biological system relies heavily on the interaction between prey and predator. Infections may spread from prey to predators or vice versa. This study proposes a virus-controlled prey-predator system with a Crowley–Martin functional response in the prey and an SI-type in the prey. A prey-predator...

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Détails bibliographiques
Auteurs principaux: Kawa Hassan, Arkan Mustafa, Mudhafar Hama
Format: article
Langue:EN
Publié: MDPI AG 2021
Sujets:
prey-predator model
eco-epidemiological model
harvesting factor
equilibrium points
existence criteria
stability analysis
Mathematics
QA1-939
Accès en ligne:https://doaj.org/article/a2d890f43aa842258bd9485a23d009d9
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Résumé:The biological system relies heavily on the interaction between prey and predator. Infections may spread from prey to predators or vice versa. This study proposes a virus-controlled prey-predator system with a Crowley–Martin functional response in the prey and an SI-type in the prey. A prey-predator model in which the predator uses both susceptible and sick prey is used to investigate the influence of harvesting parameters on the formation of dynamical fluctuations and stability at the interior equilibrium point. In the analytical section, we outlined the current circumstances for all possible equilibria. The stability of the system has also been explored, and the required conditions for the model’s stability at the equilibrium point have been found. In addition, we give numerical verification for our analytical findings with the help of graphical illustrations.

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