Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion

Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion

In this paper  we propose a nonlinear reaction-diffusion system  describing the interaction between toxin-producing phytoplankton and fish population. We analyze the effect of self- and cross-diffusion on the dynamics of the system. The existence, uniqueness and uniform boundedness of solutions are...

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Bibliographic Details
Main Authors: Hamidou Ouedraogo, Wendkouni Ouedraogo, Boureima Sangaré
Format: Article
Language:English
Published: Biomath Forum 2019-12-01
Series:Biomath
Subjects:
pattern formation
self-diffusion
cross-diffusion
stability analysis
numerical simulations
toxin-phytoplankton.
Online Access:http://www.biomathforum.org/biomath/index.php/biomath/article/view/1310
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spelling doaj-5e6580e7856f4abaacd614e8ed4b695e2020-11-25T01:58:33ZengBiomath ForumBiomath1314-684X1314-72182019-12-018210.11145/j.biomath.2019.11.237839Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusionHamidou OuedraogoWendkouni OuedraogoBoureima SangaréIn this paper  we propose a nonlinear reaction-diffusion system  describing the interaction between toxin-producing phytoplankton and fish population. We analyze the effect of self- and cross-diffusion on the dynamics of the system. The existence, uniqueness and uniform boundedness of solutions are established in the positive octant. The system is analyzed for various interesting dynamical behaviors which include boundedness, persistence, local stability, global stability around each equilibria based on some conditions on self-  and cross-diffusion coefficients.  The analytical findings are verified by numerical simulation.http://www.biomathforum.org/biomath/index.php/biomath/article/view/1310pattern formationself-diffusioncross-diffusionstability analysisnumerical simulationstoxin-phytoplankton.
collection DOAJ
language English
format Article
sources DOAJ
author Hamidou Ouedraogo
Wendkouni Ouedraogo
Boureima Sangaré
spellingShingle Hamidou Ouedraogo
Wendkouni Ouedraogo
Boureima Sangaré
Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion
Biomath
pattern formation
self-diffusion
cross-diffusion
stability analysis
numerical simulations
toxin-phytoplankton.
author_facet Hamidou Ouedraogo
Wendkouni Ouedraogo
Boureima Sangaré
author_sort Hamidou Ouedraogo
title Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion
title_short Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion
title_full Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion
title_fullStr Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion
title_full_unstemmed Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion
title_sort mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion
publisher Biomath Forum
series Biomath
issn 1314-684X
1314-7218
publishDate 2019-12-01
description In this paper  we propose a nonlinear reaction-diffusion system  describing the interaction between toxin-producing phytoplankton and fish population. We analyze the effect of self- and cross-diffusion on the dynamics of the system. The existence, uniqueness and uniform boundedness of solutions are established in the positive octant. The system is analyzed for various interesting dynamical behaviors which include boundedness, persistence, local stability, global stability around each equilibria based on some conditions on self-  and cross-diffusion coefficients.  The analytical findings are verified by numerical simulation.
topic pattern formation
self-diffusion
cross-diffusion
stability analysis
numerical simulations
toxin-phytoplankton.
url http://www.biomathforum.org/biomath/index.php/biomath/article/view/1310
work_keys_str_mv AT hamidououedraogo mathematicalanalysisoftoxinphytoplanktonfishmodelwithselfdiffusionandcrossdiffusion
AT wendkouniouedraogo mathematicalanalysisoftoxinphytoplanktonfishmodelwithselfdiffusionandcrossdiffusion
AT boureimasangare mathematicalanalysisoftoxinphytoplanktonfishmodelwithselfdiffusionandcrossdiffusion
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