Local and global dynamics of a prey-predator system with fear, Allee effect, and variable attack rate.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-01 DOI:10.1063/5.0227458
Shri Harine P, Ankit Kumar, Reshma K P
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Abstract

Fear prompts prey to adopt risk-averse behaviors, such as reduced foraging activity, increased vigilance, and avoidance of areas with high predator presence, which affects its reproduction. In a real scenario, a population requires a minimum density to avoid extinction, known as an Allee threshold. In light of these biological factors, we propose a predator-prey model with (i) a fear effect in a prey population, (ii) an Allee effect in a predator population, and (iii) a non-constant attack rate that modifies the functional response. We ensured the non-negativity and boundedness of the solutions and examined the local and global stability status for each existing steady state solutions. We investigated some deep dynamical properties of the system by varying different parameters, such as cost of fear in prey and strength of the Allee effect in predators and their mortality rate. In codimension one bifurcations, we observed saddle node, Hopf, homoclinic, and coalescence of two limit cycles. Additionally, codimension two bifurcations were observed, including Bautin and Bogdanov Takens bifurcations. To provide a clearer understanding of these bifurcations, we conducted biparametric analysis involving the fear and Allee parameters, as well as the fear parameter and predator mortality rate. Our investigation shows that cost of fear and strength of Allee strongly influences the survival status of the predator. Furthermore, bistability and tristability reveal that the survival and extinction of predator are dependent on the initial population level. Numerical simulations and graphical illustrations are provided to support and validate our theoretical findings.

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具有恐惧、Allee效应和可变攻击率的捕食者-捕食者系统的局部和全局动态。
恐惧会促使猎物采取规避风险的行为,如减少觅食活动、提高警惕和避开捕食者较多的区域,从而影响其繁殖。在实际情况中,一个种群需要一个最低密度才能避免灭绝,这就是所谓的阿利阈值(Allee threshold)。考虑到这些生物因素,我们提出了一个捕食者-猎物模型,其中包含:(i) 猎物种群的恐惧效应;(ii) 捕食者种群的阿利效应;(iii) 改变功能反应的非恒定攻击率。我们确保了解的非负性和有界性,并检验了每个现有稳态解的局部和全局稳定状态。我们通过改变不同的参数,如猎物的恐惧成本、捕食者的阿利效应强度及其死亡率,研究了系统的一些深层动态特性。在一维分岔中,我们观察到了鞍节点、霍普夫、同线性和两个极限循环的凝聚。此外,我们还观察到了二维分岔,包括鲍廷分岔和波格丹诺夫-塔肯斯分岔。为了更清楚地了解这些分岔,我们进行了涉及恐惧参数和 Allee 参数以及恐惧参数和捕食者死亡率的双参数分析。我们的研究表明,恐惧成本和阿利强度对捕食者的生存状态有很大影响。此外,双稳态和三稳态揭示了捕食者的生存和灭绝取决于初始种群水平。数值模拟和图表说明支持并验证了我们的理论发现。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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