Volume 3, Issue 4
Investigating the Turing Conditions for Diffusion-Driven Instability in Predator-Prey System with Hunting Cooperation Functional Response

Shuo Xu, Mingzhu Qu & Chunrui Zhang

J. Nonl. Mod. Anal., 3 (2021), pp. 663-676.

Published online: 2022-06

[An open-access article; the PDF is free to any online user.]

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  • Abstract

In this paper, we focus on stability analysis of steady-state solutions of a predator-prey system with hunting cooperation functional response. The results show that the Turing instability can be affected not only the existence of hunting cooperation, but also the diffusion coefficients: (1) in the absence of predator diffusion, diffusion-driven instability can be induced by hunting cooperation, but no stable patterns appear; (2) the system can occur diffusion-driven instability and Turing patterns, when both predator and prey have diffusion, and the diffusion coefficient of prey is greater than that of the predator. The numerical simulations of two cases are presented to verify the validity of our theoretical results.

  • AMS Subject Headings

34C23, 35K57

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COPYRIGHT: © Global Science Press

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@Article{JNMA-3-663, author = {Xu , ShuoQu , Mingzhu and Zhang , Chunrui}, title = {Investigating the Turing Conditions for Diffusion-Driven Instability in Predator-Prey System with Hunting Cooperation Functional Response}, journal = {Journal of Nonlinear Modeling and Analysis}, year = {2022}, volume = {3}, number = {4}, pages = {663--676}, abstract = {

In this paper, we focus on stability analysis of steady-state solutions of a predator-prey system with hunting cooperation functional response. The results show that the Turing instability can be affected not only the existence of hunting cooperation, but also the diffusion coefficients: (1) in the absence of predator diffusion, diffusion-driven instability can be induced by hunting cooperation, but no stable patterns appear; (2) the system can occur diffusion-driven instability and Turing patterns, when both predator and prey have diffusion, and the diffusion coefficient of prey is greater than that of the predator. The numerical simulations of two cases are presented to verify the validity of our theoretical results.

}, issn = {2562-2862}, doi = {https://doi.org/10.12150/jnma.2021.663}, url = {http://global-sci.org/intro/article_detail/jnma/20689.html} }
TY - JOUR T1 - Investigating the Turing Conditions for Diffusion-Driven Instability in Predator-Prey System with Hunting Cooperation Functional Response AU - Xu , Shuo AU - Qu , Mingzhu AU - Zhang , Chunrui JO - Journal of Nonlinear Modeling and Analysis VL - 4 SP - 663 EP - 676 PY - 2022 DA - 2022/06 SN - 3 DO - http://doi.org/10.12150/jnma.2021.663 UR - https://global-sci.org/intro/article_detail/jnma/20689.html KW - Reaction-diffusion-ordinary differential equations, Steady state solutions, Hunting cooperation functional response, Carnivorous plants and insects model. AB -

In this paper, we focus on stability analysis of steady-state solutions of a predator-prey system with hunting cooperation functional response. The results show that the Turing instability can be affected not only the existence of hunting cooperation, but also the diffusion coefficients: (1) in the absence of predator diffusion, diffusion-driven instability can be induced by hunting cooperation, but no stable patterns appear; (2) the system can occur diffusion-driven instability and Turing patterns, when both predator and prey have diffusion, and the diffusion coefficient of prey is greater than that of the predator. The numerical simulations of two cases are presented to verify the validity of our theoretical results.

Xu , ShuoQu , Mingzhu and Zhang , Chunrui. (2022). Investigating the Turing Conditions for Diffusion-Driven Instability in Predator-Prey System with Hunting Cooperation Functional Response. Journal of Nonlinear Modeling and Analysis. 3 (4). 663-676. doi:10.12150/jnma.2021.663
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