Existence of periodic solutions to a non-autonomous allelopathic phytoplankton model with fear effect

Satyam Narayan Srivastava; Alexander Domoshnitsky; Seshadev Padhi; Rana D. Parshad; John R. Graef

doi:10.3934/era.2026033

Existence of periodic solutions to a non-autonomous allelopathic phytoplankton model with fear effect

Satyam Narayan Srivastava
, Alexander Domoshnitsky
, Seshadev Padhi
, Rana D. Parshad
, John R. Graef

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

The authors considered a non-autonomous allelopathic phytoplankton competition model that incorporates the influence of fear effects that are often observed in natural biological phenomena. Based on Mawhin’s coincidence degree theory, sufficient conditions for the existence of periodic solutions were obtained. The authors validated their findings with an example and simulations showing that the constant coefficient case leads to dynamics that are neither steady state nor T-periodic, while the periodic coefficient case generates sustained T-periodic oscillations.

Original language	English
Pages (from-to)	723-737
Number of pages	15
Journal	Electronic Research Archive
Volume	34
Issue number	2
DOIs	https://doi.org/10.3934/era.2026033
State	Published - Jan 2026

Keywords

allelopathy
coincidence degree theory
competition model
existence of periodic solutions
fear effects
phytoplankton

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10.3934/era.2026033

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title = "Existence of periodic solutions to a non-autonomous allelopathic phytoplankton model with fear effect",

abstract = "The authors considered a non-autonomous allelopathic phytoplankton competition model that incorporates the influence of fear effects that are often observed in natural biological phenomena. Based on Mawhin{\textquoteright}s coincidence degree theory, sufficient conditions for the existence of periodic solutions were obtained. The authors validated their findings with an example and simulations showing that the constant coefficient case leads to dynamics that are neither steady state nor T-periodic, while the periodic coefficient case generates sustained T-periodic oscillations.",

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author = "Srivastava, \{Satyam Narayan\} and Alexander Domoshnitsky and Seshadev Padhi and Parshad, \{Rana D.\} and Graef, \{John R.\}",

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AU - Srivastava, Satyam Narayan

AU - Domoshnitsky, Alexander

AU - Padhi, Seshadev

AU - Parshad, Rana D.

AU - Graef, John R.

PY - 2026/1

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AB - The authors considered a non-autonomous allelopathic phytoplankton competition model that incorporates the influence of fear effects that are often observed in natural biological phenomena. Based on Mawhin’s coincidence degree theory, sufficient conditions for the existence of periodic solutions were obtained. The authors validated their findings with an example and simulations showing that the constant coefficient case leads to dynamics that are neither steady state nor T-periodic, while the periodic coefficient case generates sustained T-periodic oscillations.

KW - allelopathy

KW - coincidence degree theory

KW - competition model

KW - existence of periodic solutions

KW - fear effects

KW - phytoplankton

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Existence of periodic solutions to a non-autonomous allelopathic phytoplankton model with fear effect

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Keywords

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