Mosquito control based on pesticides and endosymbiotic bacterium \textit{Wolbachia}
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Publication:829032
DOI10.1007/s11538-021-00881-9zbMath1466.92186OpenAlexW3155940905WikidataQ113900182 ScholiaQ113900182MaRDI QIDQ829032
Linchao Hu, Cui Yang, Yuanxian Hui, Jian She Yu
Publication date: 5 May 2021
Published in: Bulletin of Mathematical Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s11538-021-00881-9
\textit{Wolbachia}population replacementmosquito-borne diseasesheatwavepesticidespopulation suppression
Related Items (6)
A mosquito population suppression model by releasing \textit{Wolbachia}-infected males ⋮ \textit{Wolbachia} invasion to wild mosquito population in stochastic environment ⋮ Existence and stability of periodic solutions for a mosquito suppression model with incomplete cytoplasmic incompatibility ⋮ Modeling mosquito population control by a coupled system ⋮ Existence and stability of periodic solutions in a mosquito population suppression model with time delay ⋮ Effects of sterile males and fertility of infected mosquitoes on mosquito-borne disease dynamics
Cites Work
- \textit{Wolbachia} spread dynamics in stochastic environments
- Structured and unstructured continuous models for \(Wolbachia\) infections
- Modeling and dynamics of Wolbachia-infected male releases and mating competition on mosquito control
- Assessing the efficiency of \textit{Wolbachia} driven \textit{Aedes} mosquito suppression by delay differential equations
- Wolbachia spreading dynamics in mosquitoes with imperfect maternal transmission
- The threshold infection level for \textit{Wolbachia} invasion in random environments
- \textit{Wolbachia} spread dynamics in multi-regimes of environmental conditions
- Modeling and control of mosquito-borne diseases with \textit{Wolbachia} and insecticides
- Existence and stability of a unique and exact two periodic orbits for an interactive wild and sterile mosquito model
- Global asymptotic stability in an interactive wild and sterile mosquito model
- A stage structured model of delay differential equations for \textit{Aedes} mosquito population suppression
- ModelingWolbachiaSpread in Mosquitoes Through Delay Differential Equations
- Dynamics of interactive wild and sterile mosquitoes with time delay
- Modelling releases of sterile mosquitoes with different strategies
- Modeling Mosquito Population Suppression Based on Delay Differential Equations
- Modeling the Transmission of Wolbachia in Mosquitoes for Controlling Mosquito-Borne Diseases
- ModelingWolbachiainfection in mosquito population via discrete dynamical models
- Dynamics of Mosquitoes Populations with Different Strategies for Releasing Sterile Mosquitoes
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