English

Adaptation in a heterogeneous environment. I: Persistence versus extinction

Analysis of PDEs 2021-03-08 v2

Abstract

Understanding how a diversity of plants in agroecosystems affects the adaptation of pathogens in a key issue in agroecology. We analyze PDE systems describing the dynamics of adaptation of two phenotypically structured populations, under the effects of mutation, selection and migration in a two-patches environment, each patch being associated with a different phenotypic optimum. We consider two types of growth functions that depend on the n--dimensional phenotypic trait: either local and linear or nonlocal nonlinear. In both cases, we obtain existence and uniqueness results as well as a characterization of the large-time behaviour of the solution (persistence or extinction) based on the sign of a principal eigenvalue. We show that migration between the two environments decreases the chances of persistence, with in some cases a 'lethal migration threshold' above which persistence is not possible. Comparison with stochastic individual-based simulations shows that the PDE approach accurately captures this threshold. Our results illustrate the importance of cultivar mixtures for disease prevention and control.

Keywords

Cite

@article{arxiv.2005.09869,
  title  = {Adaptation in a heterogeneous environment. I: Persistence versus extinction},
  author = {François Hamel and Florian Lavigne and Lionel Roques},
  journal= {arXiv preprint arXiv:2005.09869},
  year   = {2021}
}
R2 v1 2026-06-23T15:40:44.633Z