Wavelength Selection for Periodic Travelling Waves: An Unsolved Problem
Lukas Eigentler, Mattia Sensi

TL;DR
This paper explores the unsolved problem of how periodic traveling waves in ecological models select their wavelengths during transitions, highlighting gaps in current theory and suggesting new research directions.
Contribution
The paper identifies a lack of general theory for wavelength selection in periodic traveling waves and presents new numerical trends observed during transitions.
Findings
Some stable wavelengths are more frequently selected during PTW-to-PTW transitions.
Cascades of wavelength changes can lead to extinction events despite bistability.
Busse balloon theory is insufficient for predicting wavelength selection in general systems.
Abstract
Periodic travelling waves (PTWs) are a common solution type of models describing spatio-temporal patterns in biology and ecology. Particularly in ecology, pattern formation is regarded as a resilience mechanism and an ecosystem’s ability to change its pattern wavelength is seen as a tool to adapt to environmental change. PTW solutions of corresponding mathematical models also possess this ability and typically undergo a cascade of wavelength changes in response to a gradual change in a bifurcation parameter. Extensive analysis has been conducted to develop a predictive understanding of parameter thresholds leading to wavelength changes. By contrast, theory on what determines PTW wavelength selection during a wavelength change is currently lacking and most conjectures stem from limited observations of specific simulations, or apply to special cases only. In this unsolved problems…
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Taxonomy
TopicsNonlinear Dynamics and Pattern Formation · Ecosystem dynamics and resilience · Mathematical and Theoretical Epidemiology and Ecology Models
