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Dynamical Behaviors Of A Fractional-Order Predator–Prey Model: Insights Into Multiple Predators Competing For A Single Prey

Author

Listed:
  • HASAN S. PANIGORO

    (Biomathematics Research Group, Department of Mathematics, Universitas Negeri Gorontalo, Bone Bolango 96554, Indonesia)

  • EMLI RAHMI

    (Biomathematics Research Group, Department of Mathematics, Universitas Negeri Gorontalo, Bone Bolango 96554, Indonesia)

  • EBENEZER BONYAH

    (Department of Mathematics Education, Akenten Appiah Menka University of Skills, Training and Entrepreneurial Development, Kumasi 22222, Ghana3Department of Mathematics, Faculty of Science and Technology, Universitas Airlangga, Surabaya 60115, Indonesia4Saveetha School of Engineering Saveetha, Institute of Medical and Technical Sciences (SIMATS), Chennai 602105, Tamilnadu, India)

  • ALI AKGÃœL

    (Department of Electronics and Communication Engineering, Saveetha School of Engineering, SIMATS, Chennai, Tamilnadu, India6Department of Mathematics, Art and Science Faculty, Siirt University, Siirt 56100, Turkey7Department of Computer Engineering, Biruni University, Topkapı 34010, Istanbul, Turkey8Mathematics Research Center, Department of Mathematics, Near East University, Near East Boulevard, PC)

  • SAYOOJ ABY JOSE

    (Department of Mathematics, Faculty of Education, Phuket Rajabhat University, Phuket 83000, Thailand)

Abstract

In this paper, we investigate the dynamical behaviors of a modified Bazykin-type two predator-one prey model involving the intra-specific and inter-specific competition among predators. A Caputo fractional-order derivative is utilized to include the influence of the memory on the constructed mathematical model. The mathematical validity is ensured by showing the model always has a unique, non-negative and bounded solution. Four kinds of equilibria are well identified which represent the condition when all populations are extinct, both two predators are extinct, only the first predator is extinct, only the second predator is extinct, and all populations are extinct. The Matignon condition is given to identify the dynamics around equilibrium points. The Lyapunov direct method, the Lyapunov function, and the generalized LaSalle invariant principle are also provided to show the global stability condition of the model. To explore the dynamics of the model more deeply, we utilize the predictor–corrector numerical scheme. Numerically, we find the forward bifurcation and the bistability conditions by showing the bifurcation diagram, phase portraits, and the time series. The biological interpretation of the analytical and numerical results is described explicitly when an interesting phenomenon occurs.

Suggested Citation

  • Hasan S. Panigoro & Emli Rahmi & Ebenezer Bonyah & Ali Akgãœl & Sayooj Aby Jose, 2025. "Dynamical Behaviors Of A Fractional-Order Predator–Prey Model: Insights Into Multiple Predators Competing For A Single Prey," FRACTALS (fractals), World Scientific Publishing Co. Pte. Ltd., vol. 33(04), pages 1-18.
    • Handle: RePEc:wsi:fracta:v:33:y:2025:i:04:n:s0218348x25400778
    DOI: 10.1142/S0218348X25400778
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