期刊
APPLIED MATHEMATICAL MODELLING
卷 112, 期 -, 页码 632-648出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.apm.2022.08.016
关键词
Gierer-Meinhardt model; Multi -stable patterns; Superposition patterns; Turing -Turing bifurcation; Normal form
资金
- National Natural Science Foundation of China [11871176]
This paper explores the coexistence of multi-stable patterns and the superposition of patterns in the classical Gierer-Meinhardt system from the perspective of Turing-Turing bifurcation. The study reveals the existence of semi-stable patterns superimposed by two different spatial resonances and the coexistence of four stable steady states with different characteristic wavelengths. Numerical simulations are consistent with the theoretical analysis. The findings suggest that experimental patterns of vascular mesenchymal cells can be interpreted as the superposition of different spatial modal patterns.
The classical Gierer-Meinhardt system portrays the formation process of a self-organizing pattern of vascular mesenchymal cells. In this paper, the coexistence of multi-stable patterns with different spatial responses and the superposition for patterns have been explored in theory from the perspective of Turing-Turing bifurcation. On the one-dimensional region, the system is simplified near the Turing-Turing singularity to obtain a third-order ordinary differential equation employing center manifold and normal form theory, which is locally topologically equivalent to the primitive system and its coefficients can be represented by the parameters of original equation. Especially, considering the simplified system, it is theoretically revealed that the system supports semi-stable patterns superimposed by two different spatial resonances and the coexistence of four stable steady states with different single characteristic wavelengths, indicating that different initial conditions may tent to completely different spatial patterns. Finally, some numerical simulations are given, which are consistent with the theoretical analysis. The multi-stable and superimposed modes of the system are also studied on a two-dimensional region, which shows that some experimental patterns of vascular mesenchymal cells in vitro can be interpreted as the superposition of different spatial modal patterns to a certain extent.(c) 2022 Elsevier Inc. All rights reserved.
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