Modeling and control of mosquito-borne diseases with \textit{Wolbachia} and insecticides
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Publication:1984671
DOI10.1016/j.tpb.2019.12.007OpenAlexW2999565381WikidataQ92574027 ScholiaQ92574027MaRDI QIDQ1984671
Publication date: 7 April 2020
Published in: Theoretical Population Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.tpb.2019.12.007
Related Items (12)
Mosquito control based on pesticides and endosymbiotic bacterium \textit{Wolbachia} ⋮ Game-theoretical model of the voluntary use of insect repellents to prevent Zika fever ⋮ A class of fast-slow models for adaptive resistance evolution ⋮ The impact of \textit{Wolbachia} on dengue transmission dynamics in an SEI-SIS model ⋮ Modeling mosquito control by an impulsive reaction-diffusion mosquito model with periodic evolution domain ⋮ Stability and periodicity in a mosquito population suppression model composed of two sub-models ⋮ A mosquito population suppression model with a saturated \textit{Wolbachia} release strategy in seasonal succession ⋮ Existence and uniqueness of periodic orbits in a discrete model on \textit{Wolbachia} infection frequency ⋮ Existence and stability of periodic solutions in a mosquito population suppression model with time delay ⋮ Optimal control of dengue vector based on a reaction-diffusion model ⋮ Editorial. Mathematical epidemiology for a later age ⋮ Analysis of impulse release of \textit{Wolbachia} to control \textit{Nilaparvata lugens}
Cites Work
- \textit{Wolbachia} spread dynamics in stochastic environments
- Qualitative analysis for a Wolbachia infection model with diffusion
- Geometric properties of solution of a cylindrical dynamic system with impulsive state feedback control
- Birth-pulse models of \textit{Wolbachia}-induced cytoplasmic incompatibility in mosquitoes for dengue virus control
- Structured and unstructured continuous models for \(Wolbachia\) infections
- Simple paratransgenic mosquitoes models and their dynamics
- A sex-structured model with birth pulse and release strategy for the spread of \textit{Wolbachia} in mosquito population
- Complex dynamics of a predator-prey model with impulsive state feedback control
- Dynamic behavior analysis of SIVS epidemic models with state-dependent pulse vaccination
- Sex-structured wild and sterile mosquito population models with different release strategies
- A one-locus model describing the evolutionary dynamics of resistance against insecticide in anopheles mosquitoes
- Modelling the transmission dynamics of dengue in the presence of \textit{Wolbachia}
- The effect of \textit{Wolbachia} on dengue outbreaks when dengue is repeatedly introduced
- Modelling \textit{Wolbachia} infection in a sex-structured mosquito population carrying West Nile virus
- An impulsive model for Wolbachia infection control of mosquito-borne diseases with general birth and death rate functions
- ModelingWolbachiaSpread in Mosquitoes Through Delay Differential Equations
- Orbital stability of periodic solutions of autonomous systems with impulse effect
- Introduction to Applied Nonlinear Dynamical Systems and Chaos
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