A delay nonautonomous model for the effects of fear and refuge on predator-prey interactions with water-level fluctuations

Abhijit Sarkar, P. Tiwari, Samares Pal
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Abstract

The interaction of prey (small fish) and predator (large fish) in lakes/ponds at temperate and tropical regions varies when water level fluctuates naturally during seasonal time. We relate the perceptible effect of fear and anti-predator behavior of prey with the water-level fluctuations and describe how these are influenced by the seasonal changing of water level. So, we consider these as time-dependent functions to make the system more realistic. Also, we incorporate the time-dependent delay in the negative growth rate of prey in predator–prey model with Crowley–Martin-type functional response. We clearly provide the basic dynamics of the system such as positiveness, permanence and nonpersistence. The existence of positive periodic solution is studied using Continuation theorem, and suffiecient conditions for globally attractivity of positive periodic solution are also derived. To make the system more comprehensive, we establish numerical simulations, and compare the dynamics of autonomous and nonautonomous systems in the absence as well as the presence of time delay. Our results show that seasonality and time delay create the occurrence of complex behavior such as prevalence of chaotic disorder which can be potentially suppressed by the cost of fear and prey refuge. Also, if time delay increases, then system leads a boundary periodic solution. Our findings assert that the predation, fear of predator and prey refuge are correlated with water-level variations, and give some reasonable biological interpretations for persistence as well as extinction of species due to water-level variations.
水位波动下捕食者-猎物相互作用中恐惧和避难影响的延迟非自治模型
在温带和热带地区的湖泊/池塘中,当水位随季节自然波动时,猎物(小鱼)和捕食者(大鱼)的相互作用会发生变化。我们将猎物的恐惧和反捕食行为的感知效应与水位波动联系起来,并描述了它们如何受到水位季节变化的影响。因此,为了使系统更真实,我们将这些考虑为与时间相关的函数。此外,我们还在具有crowley - martin型功能响应的捕食者-猎物模型中加入了猎物负增长速率的时间依赖延迟。我们清楚地提供了系统的基本动态,如积极性,持久性和非持久性。利用延拓定理研究了正周期解的存在性,并给出了正周期解全局吸引的充分条件。为了使系统更全面,我们建立了数值模拟,并比较了自主和非自主系统在没有和存在时间延迟的情况下的动力学。我们的研究结果表明,季节性和时间延迟造成了复杂行为的发生,如混乱无序的流行,而这种行为可能被恐惧和猎物庇护的成本所抑制。同时,当时滞增大时,系统得到一个边界周期解。我们的研究结果表明,捕食、对捕食者的恐惧和猎物的避难与水位变化有关,并为水位变化导致物种的持续存在和灭绝提供了一些合理的生物学解释。
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