Browsing by Author "Shireen Jawad"

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    Stability and bifurcation analysis in a novel discrete prey-predator system incorporating moonlight, water availability, and vigilance effects
    (Springer Nature, 2025-05-27) Ashraf Adnan Thirthar; Karima Mokni; Mohamed Ch-Chaoui; Shireen Jawad; Muhammad Aqib Abbasi
    Abstract This study explores the dynamics of a discrete-time predator–prey model derived from a continuous framework, integrating factors such as prey vigilance, refuge availability, water resources, and moonlight. The model captures realistic ecological scenarios where vigilance reduces predation success but also incurs energetic and temporal costs, leading to diminished prey population growth. Additionally, mammalian prey consumption is influenced by the availability of refuge, water resources, and moonlight intensity, reflecting key environmental and behavioral factors. The analysis examines the boundedness of solutions, the stability and existence of fixed points, and the emergence of bifurcations. The study emphasizes codimensionone bifurcations, including Neimark–Sacker bifurcations, and codimension-two bifurcations, such as 1:2 resonance. Detailed numerical simulations are employed to investigate the complex dynamics arising from these bifurcations, providing significant insights into the model’s behavior. The findings contribute to a deeper understanding of how ecological and environmental factors interact in predator–prey systems and their implications for ecosystem stability.
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    The modified predator–prey model response to the effects of global warming, wind flow, fear, and hunting cooperation
    (Springer Nature, 2024-11-11) Ashraf Adnan Thirthar; Shireen Jawad; Muhammad Aqib Abbasi
    Global warming has a serious impact on the survival of organisms. Very few studies have considered the effect of global warming as a mathematical model. The effect of global warming on the carrying capacity of prey and predators has not been studied before. In this article, an ecological model describing the relationship between prey and predator and the effect of global warming on the carrying capacity of prey was studied. Moreover, the wind speed was considered an influencing factor in the predation process after developing the function that describes it. From a biological perspective, the nonnegativity and uniform bounded of all solutions for the model are proven. The existence of equilibria for the model and its local stability is investigated. The proof that the model has no periodic solution is studied, and the backward Hopf bifurcation analysis of the positive equilibrium point. Through numerical results, we can analyze the impact of periodic and chaotic nature on the species population. Furthermore, to confirm the complex dynamics like bifurcation and oscillation the numerical simulation plays an important role. Furthermore, this also helps us to visualize the dynamic results of the model. Here, we also present different numerical outcomes in terms of other parameters.