English

Nested tree space: a geometric framework for co-phylogeny

Combinatorics 2026-04-16 v2 Metric Geometry Populations and Evolution

Abstract

Nested (or reconciled) phylogenetic trees model co-evolutionary systems in which one evolutionary history is embedded within another. We introduce a geometric framework for such systems by defining σ\sigma-space, a moduli space of fully nested ultrametric phylogenetic trees with a fixed leaf map. Generalizing the τ\tau-space of Gavryushkin and Drummond, σ\sigma-space is constructed as a cubical complex parametrised by nested ranked tree topologies and inter-event time coordinates of the combined host and parasite speciation events. We characterise admissible orderings via binary \textit{nesting sequences} and organise them into a natural poset. We show that σ\sigma-space is contractible and satisfies Gromov's cube condition, and is therefore CAT(0). In particular, it admits unique geodesics and well-defined Fr\'echet means. We further describe its geometric structure, including boundary strata corresponding to cospeciation events, and relate it to products of ultrametric tree spaces via natural forgetful maps.

Keywords

Cite

@article{arxiv.2604.05056,
  title  = {Nested tree space: a geometric framework for co-phylogeny},
  author = {G. Grindstaff and R. S. Hoekzema},
  journal= {arXiv preprint arXiv:2604.05056},
  year   = {2026}
}

Comments

16 pages, 5 figures

R2 v1 2026-07-01T11:55:54.033Z