# Forest Age and Soil Depth Mediate the Effects of Soil and Root Traits on Soil Microbial Community in Plantations

**Authors:** Yaxuan Chen, Qianyuan Liu, Yanmei Chen, Changqi Ai, Peipei Jiang

PMC · DOI: 10.1002/ece3.72264 · 2025-10-14

## TL;DR

This study shows how soil microbial communities in plantations are influenced by forest age and soil depth, with soil properties having a bigger impact than root traits.

## Contribution

The study reveals how forest age and soil depth mediate the effects of soil and root traits on microbial community composition and diversity.

## Key findings

- Soil properties had a stronger influence on bacterial composition (41.4%) than fungi (28.8%).
- Soil clay, water content, and conductivity positively affected bacterial diversity.
- Root traits' influence on bacterial diversity decreased with forest age.

## Abstract

The soil microbial community composition and Alpha diversity serve as key indicators of soil quality changes driven by forest development. We explored the variations in soil properties, root traits, microbial communities, and their interrelationships across forest age and soil depth in 
Populus tomentosa
, 
Platycladus orientalis
, and 
Styphnolobium japonicum
 plantations. The results showed that the Chao, Shannon, and Pielou_e indices of the soil microbial community increased with forest age. Soil properties and root traits had a stronger influence on the composition of soil bacteria (41.4%) compared to fungi (28.8%). In comparison to root traits (7%–10%), soil properties had a more significant influence (23%–26%) on microbial composition. Soil clay, water content, and conductivity showed positive effects on bacterial diversity and composition, while fungi were mainly affected by soil total phosphorus and soil pH. The influence of root traits on bacterial diversity declined with forest age, whereas the effect of soil properties increased. Fungal diversity was jointly shaped by soil properties and root traits in 13–19a plantations, but mainly by soil properties in 9–12a and 16–36a plantations. With increasing soil depth, the impact of roots on bacterial diversity grew while on fungal diversity diminished. The results highlight the need to account for forest age and soil depth when revealing the association among soil microbial diversity, environmental variation, and root traits.

We determined the soil properties, root traits, and microbial community in two soil depths in 
Populus tomentosa
, 
Platycladus orientalis
, and 
Styphnolobium japonicum
 plantations with different forest ages and found that: (1) The influence of soil properties and root traits on the composition of soil bacteria was greater than that of fungi. (2) Compared with root traits, soil properties exhibited greater effects on the composition of bacterial and fungal communities. (3) The influence of root traits on bacterial diversity decreased while that of soil properties increased with increasing forest age. (4) As soil depth increased, the impact of roots on bacterial diversity increased while the impact on fungal diversity decreased.

## Linked entities

- **Species:** Populus tomentosa (taxon 118781), Platycladus orientalis (taxon 58046), Styphnolobium japonicum (taxon 3897)

## Full-text entities

- **Chemicals:** phosphorus (MESH:D010758)
- **Species:** Platycladus orientalis (species) [taxon 58046], Populus tomentosa (Chinese white poplar, species) [taxon 118781], Styphnolobium japonicum (Japanese pagoda tree, species) [taxon 3897]

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12521610/full.md

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Source: https://tomesphere.com/paper/PMC12521610