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Global population dynamics of a single species structured with distinctive time-varying maturation and self-limitation delays

Chuangxia Huang, Lihong Huang, Jianhong Wu

2021Discrete and Continuous Dynamical Systems - B20 citationsDOIOpen Access PDF

Abstract

<p style='text-indent:20px;'>We consider the classical Nicholson's blowflies model incorporating two distinctive time-varying delays. One of the delays corresponds to the length of the individual's life cycle, and another corresponds to the specific physiological stage when self-limitation feedback takes place. Unlike the classical formulation of Nicholson's blowflies equation where self-regulation appears due to the competition of the productive adults for resources, the self-limitation of our considered model can occur at any developmental stage of an individual during the entire life cycle. We aim to find sharp conditions for the global asymptotic stability of a positive equilibrium. This is a significant challenge even when both delays are held at constant values. Here, we develop an approach to obtain a sharp and explicit criterion in an important situation where the two delays are asymptotically apart. Our approach can be also applied to the non-autonomous Mackey-Glass equation to provide a partial solution to an open problem about the global dynamics.</p>

Topics & Concepts

Dynamics (music)MathematicsStability (learning theory)Applied mathematicsExponential stabilityStability theoryConstant (computer programming)Competition (biology)PopulationControl theory (sociology)Mathematical analysisMathematical economicsComputer sciencePhysicsEcologyBiologyArtificial intelligenceControl (management)DemographyNonlinear systemProgramming languageSociologyMachine learningAcousticsQuantum mechanicsMathematical and Theoretical Epidemiology and Ecology ModelsEvolution and Genetic DynamicsEvolutionary Game Theory and Cooperation
Global population dynamics of a single species structured with distinctive time-varying maturation and self-limitation delays | Litcius