Dynamical Analysis of Discrete-Time Two-Predators One-Prey Lotka–Volterra Model

Khaliq, Abdul; Ibrahim, Tarek F.; Alotaibi, Abeer M.; Shoaib, M.; El-Moneam, M. A.

doi:10.3390/math10214015

Cited by 10 publications

(9 citation statements)

References 33 publications

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“…Thus, from (1), there exists m 0 such that (10) holds true. This completes the proof of the theorem.…”

Section: Resultsmentioning

confidence: 99%

“…Modeling dynamic systems [10]: Difference equations are often used to model dynamic systems, such as population growth, stock prices, or the spread of infectious diseases. By describing the relationship between the values of a sequence over time, these equations help researchers to understand how these systems behave.…”

Section: Introduction 1motivation and Literature Reviewmentioning

confidence: 99%

“…Analyzing the dynamics of solutions to systems of difference equations, and discussing the local and global asymptotic stability of their equilibriums, is interesting [10,12,13,[15][16][17][18]. The authors in [19], obtained the behavior of solutions to the difference equation:…”

Section: Introduction 1motivation and Literature Reviewmentioning

confidence: 99%

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The Dynamical Behavior of a Three-Dimensional System of Exponential Difference Equations

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The boundedness nature and persistence, global and local behavior, and rate of convergence of positive solutions of a second-order system of exponential difference equations, is investigated in this work. Where the parameters A,B,C,α,β,γ,δ,η, and ξare constants that are positive, and the initials U−1,U0,V−1,V0,W−1, and W0 are non-negative real numbers. Some examples are provided to support our theoretical results.

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“…Thus, from (1), there exists m 0 such that (10) holds true. This completes the proof of the theorem.…”

Section: Resultsmentioning

confidence: 99%

Section: Introduction 1motivation and Literature Reviewmentioning

confidence: 99%

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The Dynamical Behavior of a Three-Dimensional System of Exponential Difference Equations

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“…However, various mathematical model options can be explored for future investigations. Potential directions for model development include a difference model [36][37][38], fractional difference [39,40], fractional differential [41,42], and partial differential [43][44][45]. Given that the data obtained in applications are discrete in time, the inclusion of a difference- Srinivas et al [24] developed a mathematical model for predator-prey dynamics in marine reserves and harvesting areas considering both immature and mature predator species.…”

Section: 𝐸 (𝑢) = 𝛼 (𝑡) − 𝛽 (𝑡)mentioning

confidence: 99%

Harvested Predator–Prey Models Considering Marine Reserve Areas: Systematic Literature Review

et al. 2023

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The United Nations has predicted the growth of the human population to reach 8.405 billion by mid-2023, which is a 70% increase in global food demand. This growth will significantly affect global food security, mainly marine resources. Most marine resources exist within complex biological food webs, including predator–prey interactions. These interactions have been researched for decades by mathematicians, who have spent their efforts developing realistic and applicable models. Therefore, this paper systematically reviews articles related to predator–prey models considering the harvesting of resources in marine protected areas. The review identifies future remodeling problems using several mathematical tools. It also proposes the use of feedback linearization consisting of both the approximation and exact methods as an alternative to Jacobian linearization. The results show that in an optimal control analysis, adding a constraint in the form of population density greater than or equal to the positive threshold value should be considered to ensure an ecologically sustainable policy. This research and future developments in this area can significantly contribute to achieving the Sustainable Development Goals (SDGs) set for 2030.

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“…Predator-prey models are the building blocks of ecosystems, as biomass grows from resource masses. This topic plays an important role in ecology [4][5][6][7][8][9][10][11][12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Stability and Bifurcation Analysis in a Discrete Predator–Prey System of Leslie Type with Radio-Dependent Simplified Holling Type IV Functional Response

Lv,

2024

Mathematics

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In this paper, we use a semi-discretization method to consider the predator–prey model of Leslie type with ratio-dependent simplified Holling type IV functional response. First, we discuss the existence and stability of the positive fixed point in total parameter space. Subsequently, through using the central manifold theorem and bifurcation theory, we obtain sufficient conditions for the flip bifurcation and Neimark–Sacker bifurcation of this system to occur. Finally, the numerical simulations illustrate the existence of Neimark–Sacker bifurcation and obtain some new dynamical phenomena of the system—the existence of a limit cycle. Corresponding biological meanings are also formulated.

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Dynamical Analysis of Discrete-Time Two-Predators One-Prey Lotka–Volterra Model

Cited by 10 publications

References 33 publications

The Dynamical Behavior of a Three-Dimensional System of Exponential Difference Equations

The Dynamical Behavior of a Three-Dimensional System of Exponential Difference Equations

Harvested Predator–Prey Models Considering Marine Reserve Areas: Systematic Literature Review

Stability and Bifurcation Analysis in a Discrete Predator–Prey System of Leslie Type with Radio-Dependent Simplified Holling Type IV Functional Response

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