The effects of fear and delay on a predator-prey model with Crowley-Martin functional response and stage structure for predator

IF 1.8 3区 数学 Q1 MATHEMATICS
Weili Kong, Yuanfu Shao
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引用次数: 0

Abstract

Taking into account the delayed fear induced by predators on the birth rate of prey, the counter-predation sensitiveness of prey, and the direct consumption by predators with stage structure and interference impacts, we proposed a prey-predator model with fear, Crowley-Martin functional response, stage structure and time delays. By use of the functional differential equation theory and Sotomayor's bifurcation theorem, we established some criteria of the local asymptotical stability and bifurcations of the system equilibrium points. Numerically, we validated the theoretical findings and explored the effects of fear, counter-predation sensitivity, direct predation rate and the transversion rate of the immature predator. We found that the functional response as well as the stage structure of predators affected the system stability. The fear and anti-predation sensitivity have positive and negative impacts to the system stability. Low fear level and high anti-predation sensitivity are beneficial to the system stability and the survival of prey. Meanwhile, low anti-predation sensitivity can make the system jump from one equilibrium point to another or make it oscillate between stability and instability frequently, leading to such phenomena as the bubble, or bistability. The fear and mature delays can make the system change from unstable to stable and cause chaos if they are too large. Finally, some ecological suggestions were given to overcome the negative effect induced by fear on the system stability.

恐惧和延迟对具有Crowley-Martin功能反应和捕食者阶段结构的捕食者-猎物模型的影响
摘要考虑捕食者对猎物出生率的延迟恐惧、猎物的反捕食敏感性以及捕食者的直接消耗与阶段结构和干扰的影响,提出了一个具有恐惧、Crowley-Martin功能反应、阶段结构和时间延迟的捕食者-捕食者模型。利用泛函微分方程理论和Sotomayor分岔定理,建立了系统平衡点局部渐近稳定和分岔的判据。在数值上验证了理论结果,并探讨了恐惧、反捕食敏感性、直接捕食率和未成熟捕食者翻转率的影响。研究发现,捕食者的功能反应和阶段结构影响着系统的稳定性。恐惧和反捕食敏感性对系统稳定性有正、负两方面的影响。低恐惧水平和高反捕食敏感性有利于系统的稳定和猎物的生存。同时,低的抗捕食灵敏度会使系统从一个平衡点跳到另一个平衡点,或在稳定与不稳定之间频繁振荡,导致气泡、双稳定等现象。恐惧和成熟的延迟会使系统从不稳定变为稳定,如果它们太大则会导致混乱。最后,提出了克服恐惧对系统稳定性负面影响的生态学建议。</ </abstract>
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来源期刊
AIMS Mathematics
AIMS Mathematics Mathematics-General Mathematics
CiteScore
3.40
自引率
13.60%
发文量
769
审稿时长
90 days
期刊介绍: AIMS Mathematics is an international Open Access journal devoted to publishing peer-reviewed, high quality, original papers in all fields of mathematics. We publish the following article types: original research articles, reviews, editorials, letters, and conference reports.
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