# Integrated Vegetative and Reproductive Traits Reveal Functional Groups and Assembly Mechanisms in a Subtropical Forest Ecotone

**Authors:** Chenxing Xu, Lan Jiang, Jing Zhu, Xin We, Jinfu Liu, Daowei Xu, Zhaopeng Zhang, Xiangyi Guo, Zhongsheng He

PMC · DOI: 10.3390/plants15030406 · Plants · 2026-01-29

## TL;DR

This study explores how plant traits in a subtropical forest ecotone form functional groups, revealing adaptive strategies for species coexistence.

## Contribution

The paper introduces an integrated classification of functional groups using both vegetative and reproductive traits in a subtropical forest ecotone.

## Key findings

- Evergreen microphanerophytes dominate with animal-mediated pollination and seed dispersal as primary strategies.
- Ten functional groups were identified, showing convergent adaptations and distinct strategies like wind-dependent pollination in rare species.
- Functional groups reflect niche differentiation through traits like leaf morphology and plant-animal interactions, aiding species coexistence.

## Abstract

In species-rich forests, the integration of vegetative and reproductive traits defines plant ecological strategies and underpins community assembly. How these trait syndromes assemble into functional groups to facilitate species coexistence in ecotones remains unclear. To address this, we measured 17 key functional traits in 121 woody plant species, covering vegetative and reproductive traits, and used hierarchical clustering to classify these species into functional groups (FGs). We found the following: (1) The woody plant community exhibits distinct trait syndromes adapted to the ecotonal environment: evergreen species accounted for 84.3%, microphanerophytes dominated (95.04%), simple leaves and alternate phyllotaxy prevailed, and animal-mediated pollination (91.74%) and seed dispersal (77.69%) were the primary reproductive strategies. (2) The 121 species were classified into 10 optimal FGs based on integrated differences in vegetative traits (e.g., leaf morphology, life form, phyllotaxy) and reproductive traits (e.g., pollination/dispersal mode, inflorescence/fruit type). Most FGs were dominated by evergreen microphanerophytes, reflecting convergent adaptation to the subtropical ecotonal environment, while distinct adaptive strategies differentiated the groups: FG1 (solely Meliosma rigida) was distinguished by whorled phyllotaxy and large leaves, a specialization for high-light microhabitats; FG5, a unique deciduous group, comprised species (e.g., Nyssa sinensis) with alternate leaves and axillary inflorescences, adapting to seasonal resource fluctuations. (3) These FGs reflected adaptive strategies to diverse microhabitats: rare species in FG4 (e.g., Acer cordatum) adopted wind-dependent pollination/dispersal to cope with mountainous wind variability, while FGs 3, 7, 8, 10 relied on animal mutualism to ensure reproductive success, highlighting the role of plant–animal interactions in community structure. Our study clarifies the trait differentiation patterns and FG assembly mechanisms of woody plants in the mid-subtropical–south-subtropical ecotone. The integrated trait-based FG classification could provide insights into how species coexist via niche differentiation and offer a theoretical basis for biodiversity and ecosystem conservation.

## Linked entities

- **Species:** Meliosma rigida (taxon 453238), Nyssa sinensis (taxon 561372), Acer cordatum (taxon 873087)

## Full-text entities

- **Species:** Acer cordatum (species) [taxon 873087], Nyssa sinensis (species) [taxon 561372], Meliosma rigida (species) [taxon 453238]

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12899091/full.md

## References

56 references — full list in the complete paper: https://tomesphere.com/paper/PMC12899091/full.md

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Source: https://tomesphere.com/paper/PMC12899091