# Resolving phylogenetic conflicts in Pandanales: the dual roles of gene flow and whole-genome duplication

**Authors:** Tian Shi, Jian He

PMC · DOI: 10.3389/fpls.2025.1511582 · Frontiers in Plant Science · 2025-02-24

## TL;DR

This study resolves evolutionary conflicts in the Pandanales plant order by identifying gene flow and whole-genome duplication as key factors.

## Contribution

The study reveals gene flow and ancient whole-genome duplication events as primary drivers of phylogenetic conflict in Pandanales.

## Key findings

- Gene flow, not incomplete lineage sorting, causes phylogenetic conflict in Pandanales.
- Two ancient gene flow events were identified between Velloziaceae, Triuridaceae, and the C-P clade.
- Five whole-genome duplication events were detected, influencing diversification in Pandanales.

## Abstract

Accurate phylogenetic reconstruction is crucial for understanding evolutionary relationships and biodiversity. Despite advances in molecular systematics, the relationships within Pandanales—which include Cyclanthaceae, Pandanaceae, Stemonaceae, Triuridaceae, and Velloziaceae—remain unresolved. This study aims to clarify these relationships by analyzing transcriptomic and genomic data from these families.

We analyzed transcriptomic and genomic data from 20 samples representing all five families of Pandanales. Our approach involved assembling 2,668 single-copy orthologous genes (SCOGs) and conducting phylogenetic analyses using both coalescent- and concatenation-based methods, alongside plastid genome data. Additionally, we employed HyDe for gene flow analysis and conducted coalescent simulations and QuIBL analyses to explore sources of phylogenetic conflict. We also investigated whole-genome duplication (WGD) events within Pandanales.

The phylogenetic analyses produced strongly supported but topologically incongruent trees. Our gene flow analysis suggested that the concatenation-based topology likely reflects the true evolutionary history of Pandanales. We identified two significant ancient gene flow events: one between Velloziaceae and Triuridaceae, and another between Triuridaceae and the C-P clade (Cyclanthaceae + Pandanaceae). Furthermore, we detected five whole-genome duplication (WGD) events, including two that occurred before the Cretaceous–Paleogene boundary in Stemonaceae and Pandanaceae, one in Triuridaceae during the mid-Paleogene, and two within Velloziaceae near the Paleogene–Neogene boundary.

Our findings indicate that gene flow, rather than incomplete lineage sorting, is the primary source of phylogenetic conflict at certain nodes within Pandanales. The identified WGD events likely played a significant role in facilitating adaptation and diversification under changing environmental conditions. These results not only resolve long-standing phylogenetic conflicts but also enhance our understanding of the mechanisms driving plant diversification within this order.

## Linked entities

- **Species:** Cyclanthaceae (taxon 25913), Pandanaceae (taxon 4724), Stemonaceae (taxon 49662), Triuridaceae (taxon 232376), Velloziaceae (taxon 16376)

## Full-text entities

- **Genes:** tRNA [NCBI Gene 25103242]
- **Diseases:** WGD (MESH:C531766), ILS (MESH:D015456)
- **Species:** Pandanus tectorius (hala tree, species) [taxon 4726], Pandanus odorifer (species) [taxon 1165086], Pandanus dubius (species) [taxon 1165079], Burmannia biflora (species) [taxon 101608], Carludovica palmata (jipijapa, species) [taxon 108411], Stemona tuberosa (species) [taxon 167572], Stemona sessilifolia (species) [taxon 339784], Freycinetia excelsa (species) [taxon 413026], Croomia pauciflora (species) [taxon 101609], Croomia heterosepala (species) [taxon 49664], Aletris farinosa (species) [taxon 167569], Sciaphila densiflora (species) [taxon 548678], Acanthochlamys bracteata (species) [taxon 145231], Xerophyta retinervis (species) [taxon 136983], Lacandonia schismatica (species) [taxon 244034]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11891173/full.md

## References

78 references — full list in the complete paper: https://tomesphere.com/paper/PMC11891173/full.md

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Source: https://tomesphere.com/paper/PMC11891173