English

Adapting to a Changing Environment: Non-obvious Thresholds in Multi-Scale Systems

Dynamical Systems 2015-06-18 v4 Chaotic Dynamics

Abstract

Many natural and technological systems fail to adapt to changing external conditions and move to a different state if the conditions vary too fast. Such "non-adiabatic" processes are ubiquitous, but little understood. We identify these processes with a new nonlinear phenomenon---an intricate threshold where a forced system fails to adiabatically follow a changing stable state. In systems with multiple time-scales such thresholds are generic, but non-obvious, meaning they cannot be captured by traditional stability theory. Rather, the phenomenon can be analysed using concepts from modern singular perturbation theory: folded singularities and canard trajectories, including composite canards. Thus, non-obvious thresholds should explain the failure to adapt to a changing environment in a wide range of multi-scale systems including: tipping points in the climate system, regime shifts in ecosystems, excitability in nerve cells, adaptation failure in regulatory genes, and adiabatic switching in technology.

Keywords

Cite

@article{arxiv.1401.5268,
  title  = {Adapting to a Changing Environment: Non-obvious Thresholds in Multi-Scale Systems},
  author = {Clare Perryman and Sebastian Wieczorek},
  journal= {arXiv preprint arXiv:1401.5268},
  year   = {2015}
}

Comments

24 pages, 6 figures

R2 v1 2026-06-22T02:51:00.320Z