Dynamical Analysis of a Lotka-Volterra Competition Model with both Allee and Fear Effect

IF 2.4 3区数学 Q2 MATHEMATICAL & COMPUTATIONAL BIOLOGY

International Journal of Biomathematics Pub Date : 2023-03-08 DOI:10.1142/s1793524523500778

Shang-Feng Chen, Fengde Chen, V. Srivastava, R. Parshad

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引用次数: 2

Abstract

Population ecology theory is replete with density dependent processes. However trait-mediated or behavioral indirect interactions can both reinforce or oppose density-dependent effects. This paper presents the first two species competitive ODE and PDE systems where an Allee effect, which is a density dependent process and the fear effect, which is non-consumptive and behavioral are both present. The stability of the equilibria is discussed analytically using the qualitative theory of ordinary differential equations. It is found that the Allee effect and the fear effect change the extinction dynamics of the system and the number of positive equilibrium points, but they do not affect the stability of the positive equilibria. We also observe some special dynamics that induce bifurcations in the system by varying the Allee or fear parameter. Interestingly we find that the Allee effect working in conjunction with the fear effect, can bring about several qualitative changes to the dynamical behavior of the system with only the fear effect in place, in regimes of small fear. That is, for small amounts of the fear parameter, it can change a competitive exclusion type situation to a strong competition type situation. It can also change a weak competition type situation to a bi-stability type situation. However for large fear regimes the Allee effect reinforces the dynamics driven by the fear effect. The analysis of the corresponding spatially explicit model is also presented. To this end the comparison principle for parabolic PDE is used. The conclusions of this paper have strong implications for conservation biology, biological control as well as the preservation of biodiversity.

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考虑Allee和Fear效应的Lotka-Volterra竞争模型的动力学分析

种群生态学理论充满了密度依赖过程。然而，特质介导或行为间接相互作用既可以加强也可以反对密度依赖效应。本文首先提出了两种物种竞争ODE和PDE系统，其中Allee效应(密度依赖过程)和恐惧效应(非消耗性和行为性)同时存在。利用常微分方程定性理论，对平衡态的稳定性进行了分析讨论。研究发现，Allee效应和恐惧效应改变了系统的消光动力学和正平衡点的数目，但不影响正平衡点的稳定性。我们还观察到一些特殊的动力学，通过改变Allee或fear参数在系统中引起分叉。有趣的是，我们发现Allee效应和恐惧效应一起工作，可以给系统的动态行为带来几个质变，只有恐惧效应存在，在小恐惧的情况下。也就是说，对于少量的恐惧参数，它可以将竞争排斥型情境转变为强竞争型情境。它还可以将弱竞争类型的情况转变为双稳定类型的情况。然而，对于大型恐惧政权，Allee效应强化了由恐惧效应驱动的动态。并对相应的空间显式模型进行了分析。为此，采用了抛物线偏微分方程的比较原理。研究结果对保护生物学、生物防治以及生物多样性保护具有重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Biomathematics MATHEMATICAL & COMPUTATIONAL BIOLOGY-

CiteScore

4.70

自引率

13.60%

发文量

820

审稿时长

7.5 months

期刊介绍： The goal of this journal is to present the latest achievements in biomathematics, facilitate international academic exchanges and promote the development of biomathematics. Its research fields include mathematical ecology, infectious disease dynamical system, biostatistics and bioinformatics. Only original papers will be considered. Submission of a manuscript indicates a tacit understanding that the paper is not actively under consideration for publication with other journals. As submission and reviewing processes are handled electronically whenever possible, the journal promises rapid publication of articles. The International Journal of Biomathematics is published bimonthly.