# The Impact of Phyllostachys heterocyclas Expansion on the Phylogenetic Diversity and Community Assembly of Subtropical Forest

**Authors:** Jiannan Wang, Ru Li, Zichen Huang, Sili Peng, Zhiwei Ge, Xiaoyue Lin, Lingfeng Mao

PMC · DOI: 10.3390/plants14203231 · Plants · 2025-10-21

## TL;DR

Moso bamboo expansion in Chinese forests reduces tree diversity and alters soil conditions, but may not harm understory plants as much.

## Contribution

A new phylogenetically informed Resistance Index is introduced to assess species responses to bamboo expansion.

## Key findings

- Tree species richness and phylogenetic diversity decline sharply with increasing bamboo cover.
- Soil pH increases while organic carbon and nitrogen decrease significantly along the bamboo expansion gradient.
- Some shade-tolerant species show resilience to bamboo expansion, while dominant canopy trees are highly susceptible.

## Abstract

Moso bamboo (Phyllostachys heterocyclas) has rapidly expanded in subtropical broadleaf forests of eastern China, raising concerns about biodiversity loss and community restructuring. We investigated how the expansion of this native bamboo influences species diversity and phylogenetic diversity across forest strata (trees, shrubs, herbs) by surveying 16 plots along a gradient from bamboo-free to bamboo-dominated stands. We measured soil properties, calculated multiple α-diversity indices, and constructed a community phylogeny to assess phylogenetic metrics. We also constructed a phylogenetically informed Resistance Index (RI) to evaluate species-specific responses to bamboo expansion. The results showed that overstory tree species richness and Faith’s phylogenetic diversity declined sharply with increasing bamboo cover, accompanied by significant losses of evolutionary lineages. In contrast, understory shrub and herb layers exhibited stable or higher species richness under bamboo expansion, although functional redundancy among new colonists suggests limited gains in ecosystem function. Soil conditions shifted substantially along the expansion gradient: pH increased by approximately 0.5 units, while total organic carbon and total nitrogen each decreased by about 30% (p < 0.01). Redundancy analysis and variance partitioning indicated that bamboo’s impacts on community diversity are mediated primarily through these soil changes. Species-level trends revealed that formerly dominant canopy trees (e.g., Schima superba, Pinus massoniana) were highly susceptible to bamboo, whereas certain shade-tolerant taxa (e.g., Cyclobalanopsis glauca, Rubus buergeri) showed resilience. In conclusion, the aggressive expansion of Moso bamboo drastically alters multi-layer forest diversity and community assembly processes. Our findings point to a need for targeted management (e.g., reducing bamboo density, soil restoration, and enrichment planting of native species) to mitigate biodiversity loss, underscoring the importance of considering phylogenetic diversity in expansion ecology and forest conservation.

## Linked entities

- **Species:** Schima superba (taxon 59677), Pinus massoniana (taxon 88730), Rubus buergeri (taxon 321604)

## Full-text entities

- **Chemicals:** nitrogen (MESH:D009584), organic carbon (-)
- **Species:** Rubus buergeri (han mei, species) [taxon 321604], Quercus glauca (species) [taxon 103489], Pinus massoniana (Chinese red pine, species) [taxon 88730], Schima superba (species) [taxon 59677]

## Full text

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## Figures

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## References

53 references — full list in the complete paper: https://tomesphere.com/paper/PMC12566707/full.md

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Source: https://tomesphere.com/paper/PMC12566707