Computational and Mathematical Biophysics (Feb 2024)
Behavior of solutions of a discrete population model with mutualistic interaction
Abstract
We focus on the stability analysis of two types of discrete dynamic models: a discrete dynamic equation and a discrete dynamics system consisting of two equations with mutualistic interaction given by xn+1=a+bxnλ−(xn−1+xn−k)c+xn−1+xn−k{x}_{n+1}=a+\frac{b{x}_{n}{\lambda }^{-\left({x}_{n-1}+{x}_{n-k})}}{c+{x}_{n-1}+{x}_{n-k}} and xn+1=a1+b1ynλ−(yn−1+xn−k)c1+yn−1+xn−k,yn+1=a2+b2xnλ−(xn−1+yn−k)c2+xn−1+yn−k,{x}_{n+1}={a}_{1}+\frac{{b}_{1}{y}_{n}{\lambda }^{-({y}_{n-1}+{x}_{n-k})}}{{c}_{1}+{y}_{n-1}+{x}_{n-k}},\hspace{1.0em}{y}_{n+1}={a}_{2}+\frac{{b}_{2}{x}_{n}{\lambda }^{-\left({x}_{n-1}+{y}_{n-k})}}{{c}_{2}+{x}_{n-1}+{y}_{n-k}}, respectively, where k∈{2,3,…}k\in \left\{2,3,\ldots \right\}, the constants a,a1,≥0a,{a}_{1},\ge 0, b,b1>0b,{b}_{1}\gt 0, and c,c1≥0c,{c}_{1}\ge 0 be the initial densities, finite rate of increase and the limiting constant associated with the density of the species, respectively, and a2≥0{a}_{2}\ge 0, b2>0{b}_{2}\gt 0, and c2≥0{c}_{2}\ge 0 be the initial densities, finite rate of increase, and the limiting constant associated with the density of the mutually interacting species, respectively. kk, a positive integer represents a time delay in the system and λ≥1\lambda \ge 1 shows a decay factor based on the sum of two past time step population densities. Our main objective is to understand the impact of mutualistic interactions on the stability of discrete dynamic systems. To illustrate the boundedness and stability of these models, we also provide animated plots and bifurcation diagrams.
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