English

Trophic coherence determines food-web stability

Populations and Evolution 2016-08-11 v3 Statistical Mechanics Dynamical Systems

Abstract

Why are large, complex ecosystems stable? Both theory and simulations of current models predict the onset of instability with growing size and complexity, so for decades it has been conjectured that ecosystems must have some unidentified structural property exempting them from this outcome. We show that 'trophic coherence' -- a hitherto ignored feature of food webs which current structural models fail to reproduce -- is a better statistical predictor of linear stability than size or complexity. Furthermore, we prove that a maximally coherent network with constant interaction strengths will always be linearly stable. We also propose a simple model which, by correctly capturing the trophic coherence of food webs, accurately reproduces their stability and other basic structural features. Most remarkably, our model shows that stability can increase with size and complexity. This suggests a key to May's Paradox, and a range of opportunities and concerns for biodiversity conservation.

Keywords

Cite

@article{arxiv.1404.7728,
  title  = {Trophic coherence determines food-web stability},
  author = {Samuel Johnson and Virginia Domínguez-García and Luca Donetti and Miguel A. Muñoz},
  journal= {arXiv preprint arXiv:1404.7728},
  year   = {2016}
}

Comments

Manuscript plus Supporting Information. To appear in PNAS

R2 v1 2026-06-22T04:03:04.769Z