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The reverse effects of random perturbation on discrete systems for single and multiple population models
Affiliation:1. Saratov State Technical University, Politehnicheskaya Str. 77, 410054, Saratov, Russia;2. Saratov State University, Astrakhanskaya Str. 83, 410012, Saratov, Russia;1. Library, Ludong University, Yantai, Shandong 264025, China;2. School of Physics and Optoelectronic Engineering, Ludong University, Yantai, Shandong 264025, China;1. Tianjin Key Laboratory of Intelligence Computing and Novel Software Technology, Tianjin University of Technology, Tianjin 300384, PR China;2. Key Laboratory of Computer Vision and System (Ministry of Education), Tianjin University of Technology, Tianjin 300384, PR China;3. School of Electrical Engineering, Tianjin University of Technology, Tianjin 300384, PR China
Abstract:The natural species are likely to present several interesting and complex phenomena under random perturbations, which have been confirmed by simple mathematical models. The important questions are: how the random perturbations influence the dynamics of the discrete population models with multiple steady states or multiple species interactions? and is there any different effects for single species and multiple species models with random perturbation? To address those interesting questions, we have proposed the discrete single species model with two stable equilibria and the host-parasitoid model with Holling type functional response functions to address how the random perturbation affects the dynamics. The main results indicate that the random perturbation does not change the number of blurred orbits of the single species model with two stable steady states compared with results for the classical Ricker model with same random perturbation, but it can strength the stability. However, extensive numerical investigations depict that the random perturbation does not influence the complexities of the host-parasitoid models compared with the results for the models without perturbation, while it does increase the period of periodic orbits doubly. All those confirm that the random perturbation has a reverse effect on the dynamics of the discrete single and multiple population models, which could be applied in reality including pest control and resources management.
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