Mathematical model of mosquito population dynamics with constants and periodic releases of Wolbachia-infected males

Mathematical model of mosquito population dynamics with constants and periodic releases of Wolbachia-infected males

In this article, we propose three mathematical models of mosquito dynamics. The first model describes the dynamics of wild mosquitoes in combination with mechanical control and larvicide. For this model, we derive a threshold parameter [Formula: see text], called the basic number of offspring, and s...

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Bibliographic Details
Main Authors: Abdoulaye Kaboré, Boureima Sangaré, Bakary Traoré
Format: Article
Language:English
Published: Taylor & Francis Group 2024-12-01
Series:Applied Mathematics in Science and Engineering
Subjects:
Basic offspring number
stability
vector control
Wolbachia
impulsive model
periodic solutions
Online Access:https://www.tandfonline.com/doi/10.1080/27690911.2024.2372581
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Summary:In this article, we propose three mathematical models of mosquito dynamics. The first model describes the dynamics of wild mosquitoes in combination with mechanical control and larvicide. For this model, we derive a threshold parameter [Formula: see text], called the basic number of offspring, and show that the trivial equilibrium is globally asymptotically stable when [Formula: see text], while if [Formula: see text], the non-trivial equilibrium is globally asymptotically stable. In the second model, we evaluated a constant release of Wolbachia-infected males in the wild mosquito population. Our analysis identified a critical threshold for releasing Wolbachia-infected male mosquitoes [Formula: see text] to reduce or eliminate the wild mosquito population. In the third model, we assessed wild mosquito dynamics by periodically releasing Wolbachia-infected male mosquitoes. The analysis of this model produced two thresholds, [Formula: see text] the threshold on the release period and [Formula: see text] the threshold on the release quantity. The existence of trivial periodic solutions is obtained, and the corresponding local and global stability conditions are proved by Floquet's theory and Lyapunov's stability theorem, respectively. We also prove the existence conditions for non-trivial periodic solutions and their local stability. Finally, we perform some numerical simulations to illustrate our theoretically pertinent results.
ISSN:2769-0911

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