Persistence and stability analysis of discrete-time predator-prey models: a study of population and evolutionary dynamics

Persistence and stability analysis of discrete-time predator-prey models: a study of population and evolutionary dynamics

Prolonged exposure to disturbances, such as toxicants, has the potential to result in evolutionary responses in a population. These evolutionary responses may impact not just that species but also other species with which the population interacts. In this paper, we develop a discrete-time predator-p...

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Bibliographic Details
Published in:Journal of difference equations and applications Vol. 25; no. 11; pp. 1568 - 1603
Main Authors: Ackleh, Azmy S., Hossain, Md Istiaq, Veprauskas, Amy, Zhang, Aijun
Format: Journal Article
Language:English
Published: Abingdon Taylor & Francis 02-11-2019
Taylor & Francis Ltd
Subjects:
Biological evolution
Contaminants
continuous dependance on parameters
Darwinian evolutionary game theory
Discrete-time predator-prey models
Dynamics
global attractors
persistence
Population
Predator-prey simulation
stability
Stability analysis
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Summary:Prolonged exposure to disturbances, such as toxicants, has the potential to result in evolutionary responses in a population. These evolutionary responses may impact not just that species but also other species with which the population interacts. In this paper, we develop a discrete-time predator-prey model and establish conditions for the existence and stability of equilibria, as well as conditions for the persistence of the prey and predator populations. We then extend this model to an evolutionary model which couples the population dynamics with the dynamics of an evolving phenotypic trait that provides a measure for the level of toxicant resistance developed by the prey. We study the persistence dynamics of this model and establish conditions for when the prey evolves toxicant resistance. We show that the evolution of toxicant resistance may allow both the predator and prey to persist when, without the evolution, both may go extinct.
ISSN:1023-6198
1563-5120
DOI:10.1080/10236198.2019.1669579