A Semi-Analytical Method for Solving Problems on the Role of Prey Taxis in a Biological Control-Mathematical Model

IF 1 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Journal of Multiscale Modelling Pub Date : 2019-06-13 DOI:10.1142/S1756973718500099
Ophir Nave, Yifat Baron, Manju Sharma
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引用次数: 1

Abstract

In this paper, we applied the well-known homotopy analysis methods (HAM), which is a semi-analytical method, perturbation method, to study a reaction–diffusion–advection model for the dynamics of populations under biological control. According to the predator–prey model, the advection expression represents the predator density movement in which the acceleration is proportional to the prey density gradient. The prey population reproduces logistically, and the interactions of prey population obey the Holling’s prey-dependent Type II functional response. The predation process splits into the following subdivided processes: random movement which is represented by diffusion, direct movement which is described by prey taxis, local prey interactions, and consumptions which are represented by the trophic function. In order to ensure a successful biological control, one should make the predator-pest population to stabilize at a very low level of pest density. One reason for this effect is the intermediate taxis activity. However, when the system loses stability, for example very intensive prey taxis destroys the stability, it leads to chaotic dynamics with pronounced outbreaks of pest density.
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求解猎物趋向性在生物控制中的作用的半解析方法-数学模型
本文应用同伦分析方法(HAM),即半解析方法和微扰方法,研究了生物控制下种群动态的反应-扩散-平流模型。根据捕食者-猎物模型,平流表达式表示捕食者密度运动,其加速度与猎物密度梯度成正比。食饵种群的繁殖具有逻辑性,食饵种群间的相互作用服从Holling的依赖食饵的II型功能响应。捕食过程可分为以下几个细分过程:以扩散为代表的随机运动,以猎物定位为描述的直接运动,局部猎物相互作用,以及以营养函数为代表的消耗。为了确保成功的生物防治,应使捕食者-害虫种群稳定在一个非常低的害虫密度水平。造成这种影响的一个原因是中间出租车的活动。然而,当系统失去稳定性时,例如,非常密集的猎物计程车破坏了稳定性,它导致混乱的动力学,害虫密度明显爆发。
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来源期刊
Journal of Multiscale Modelling
Journal of Multiscale Modelling MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
CiteScore
2.70
自引率
0.00%
发文量
9
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