带有的士项的一般双物种系统的时空动力学

IF 1.9 4区数学 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

International Journal of Bifurcation and Chaos Pub Date : 2024-04-09 DOI:10.1142/s021812742450055x

Wenjie Zuo, Yongli Song

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引用次数: 0

摘要

本文研究了一个扩散性双物种系统中的时空动力学，该系统具有的士项和一般功能响应，即一个物种向上或向下运动另一个物种。研究了正平衡的稳定性以及图灵分岔、图灵-霍普夫分岔和图灵-图灵分岔的存在。我们还推导出了一种算法，用于计算由 Taxis 项和另一个参数引起的图灵-霍普夫分岔的正常形式。此外，我们还将理论结果应用于一个合作的 Lotka-Volterra 系统和一个带有猎物-税项的捕食者-猎物系统。对于合作系统，稳定的平衡会因税项驱动的图灵不稳定性而变得不稳定，而对于没有税项的合作系统来说，这是不可能的。对于有猎物税的捕食者-猎物系统，图灵-霍普夫分岔点附近的动力学分类得到了清晰的描述。在图灵-霍普夫分岔点附近，存在空间非均质稳态解、空间均质/非均质周期解以及从一种时空状态到另一种时空状态的模式转换。

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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Spatiotemporal Dynamics of a General Two-Species System with Taxis Term

In this paper, we investigate the spatiotemporal dynamics in a diffusive two-species system with taxis term and general functional response, which means the directional movement of one species upward or downward the other one. The stability of positive equilibrium and the existences of Turing bifurcation, Turing–Hopf bifurcation and Turing–Turing bifurcation are investigated. An algorithm for calculating the normal form of the Turing–Hopf bifurcation induced by the taxis term and another parameter is derived. Furthermore, we apply our theoretical results to a cooperative Lotka–Volterra system and a predator–prey system with prey-taxis. For the cooperative system, stable equilibrium becomes unstable by taxis-driven Turing instability, which is impossible for the cooperative system without taxis. For a predator–prey system with prey-taxis, the dynamical classification near the Turing–Hopf bifurcation point is clearly described. Near the Turing–Hopf point, there are spatially inhomogeneous steady-state solution, spatially homogeneous/nonhomogeneous periodic solution and pattern transitions from one spatiotemporal state to another one.

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来源期刊

International Journal of Bifurcation and Chaos 数学-数学跨学科应用

CiteScore

4.10

自引率

13.60%

发文量

237

审稿时长

2-4 weeks

期刊介绍： The International Journal of Bifurcation and Chaos is widely regarded as a leading journal in the exciting fields of chaos theory and nonlinear science. Represented by an international editorial board comprising top researchers from a wide variety of disciplines, it is setting high standards in scientific and production quality. The journal has been reputedly acclaimed by the scientific community around the world, and has featured many important papers by leading researchers from various areas of applied sciences and engineering. The discipline of chaos theory has created a universal paradigm, a scientific parlance, and a mathematical tool for grappling with complex dynamical phenomena. In every field of applied sciences (astronomy, atmospheric sciences, biology, chemistry, economics, geophysics, life and medical sciences, physics, social sciences, ecology, etc.) and engineering (aerospace, chemical, electronic, civil, computer, information, mechanical, software, telecommunication, etc.), the local and global manifestations of chaos and bifurcation have burst forth in an unprecedented universality, linking scientists heretofore unfamiliar with one another''s fields, and offering an opportunity to reshape our grasp of reality.