# The Impact of Pleistocene Glacial Cycles on the Evolutionary Diversification of the Arctic‐Alpine Silene acaulis Species Complex

**Authors:** Oliver Reutimann, Gwyneth Halstead‐Nussloch, Andreas Tribsch, Pablo Tejero Ibarra, Niklaus Zemp, Alex Widmer, Martin C. Fischer

PMC · DOI: 10.1111/mec.70254 · Molecular Ecology · 2026-01-23

## TL;DR

This study explores how glacial cycles during the Pleistocene shaped the evolution of the Silene acaulis plant species complex in arctic-alpine regions.

## Contribution

The study presents the first high-quality genome for Silene acaulis and reveals how glacial cycles drove lineage diversification and ecotype formation.

## Key findings

- Five evolutionary lineages were identified, with divergence linked to glacial cooling over the last two million years.
- Hybridization occurred in glacial refugia and during interglacial expansions, influencing genetic diversity.
- Niche specialization and ecotype differentiation were observed in response to soil and climate factors in the European Alps.

## Abstract

Arctic‐alpine species are highly sensitive to long‐term temperature changes and associated glacial cycles due to their occurrence in cold environments to which they are adapted and spatially restricted. Unravelling their evolutionary responses to past climatic fluctuations can provide new insights into their diversification. In this study, we investigated the evolutionary history of the 
Silene acaulis
 species complex and how it was shaped by past glacial cycles. We assembled the first high‐quality reference genome for 
S. acaulis
 and analysed reduced representation sequencing data from 955 individuals spanning 132 populations across the Holarctic distribution range of these arctic‐alpine cushion plants. We identified five evolutionary lineages and assessed their phylogeographical structure in relation to current subspecies classifications, refugia, and historic migration patterns. Phylogenetic dating revealed that lineage divergence largely coincided with repeated phases of glacial cooling over the last two million years and was driven by isolation in glacial refugia. Secondary contact in glacial refugia or during interglacial expansions promoted hybridization and further shaped the distribution of genetic diversity across the species complex. Adaptive divergence amongst sympatric genetic groups in the European Alps highlights the contribution of niche specialisation to intraspecific divergence, with evidence for ecotype differentiation in response to a combination of edaphic and climatic factors. The 
S. acaulis
 species complex has an intricate evolutionary history, shaped by glacial cycles in the Late Pleistocene that have driven lineage diversification, secondary contact and ecotype formation. Our study underscores the significance of glacial cycles in shaping genetic diversity in arctic‐alpine plant species and improves our understanding of how arctic‐alpine species have responded to past climate fluctuations.

## Linked entities

- **Species:** Silene acaulis (taxon 39862)

## Full-text entities

- **Diseases:** anther-smut disease (MESH:D004194)
- **Chemicals:** ice (MESH:D007053), carbon (MESH:D002244), QuantiFluor ONE (-)
- **Species:** Silene acaulis subsp. exscapa (subspecies) [taxon 1552231], Microbotryum silenes-acaulis (species) [taxon 370302], Silene acaulis (cushion pink, species) [taxon 39862], Silene acaulis subsp. bryoides (subspecies) [taxon 474083], Silene (campions, genus) [taxon 3573], Jacobaea carniolica (species) [taxon 189240], Vaccinium uliginosum (bog bilberry, species) [taxon 190548], Silene acaulis subsp. acaulis (subspecies) [taxon 474085], Ranunculus glacialis (species) [taxon 235900], Ursus arctos (brown bear, species) [taxon 9644]

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/PMC12831043/full.md

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12831043/full.md

## References

116 references — full list in the complete paper: https://tomesphere.com/paper/PMC12831043/full.md

---
Source: https://tomesphere.com/paper/PMC12831043