Effects of Soil Properties and Plant Diversity on Soil Microbial Community Composition and Diversity during Secondary Succession

Ruiguang Shang; Shuaifeng Li; Xiaobo Huang; Wande Liu; Xuedong Lang; Jianrong Su

doi:10.3390/f12060805

Forests (Jun 2021)

Effects of Soil Properties and Plant Diversity on Soil Microbial Community Composition and Diversity during Secondary Succession

Ruiguang Shang,
Shuaifeng Li,
Xiaobo Huang,
Wande Liu,
Xuedong Lang,
Jianrong Su

Affiliations

Ruiguang Shang: Research Institute of Resource Insects, Chinese Academy of Forestry, Kunming 650224, China
Shuaifeng Li: Research Institute of Resource Insects, Chinese Academy of Forestry, Kunming 650224, China
Xiaobo Huang: Research Institute of Resource Insects, Chinese Academy of Forestry, Kunming 650224, China
Wande Liu: Research Institute of Resource Insects, Chinese Academy of Forestry, Kunming 650224, China
Xuedong Lang: Research Institute of Resource Insects, Chinese Academy of Forestry, Kunming 650224, China
Jianrong Su: Research Institute of Resource Insects, Chinese Academy of Forestry, Kunming 650224, China

DOI: https://doi.org/10.3390/f12060805
Journal volume & issue: Vol. 12, no. 6
p. 805

Abstract

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Soil microbial communities play an important role in maintaining the ecosystem during forest secondary succession. However, the underlying mechanisms that drive change in soil microbial community structures during secondary succession remain poorly defined in species-rich subtropical coniferous forests. In this study, Illumina high-throughput sequencing was used to analyze the variations in soil microbial community structures during forest secondary succession in subtropical coniferous forests in China. The role of soil properties and plant diversity in affecting soil bacterial and fungal communities was determined using random forest and structural equation models. Highly variable soil microbial diversity was observed in different stages of secondary succession. Bacterial community diversity rose from early to middle and late successional stages, whereas fungal community diversity increased from early to middle successional stages and then declined in the late stage. The relative abundance of Acidobacteria, Gemmatimonadetes, Eremiobacterota(WPS-2), Rokubacteria, and Mortierellomycota increased during succession, whereas the relative abundance of Ascomycota and Mucoromycota decreased. The community composition and diversity of the soil microbial community were remarkably influenced by plant diversity and soil properties. Notably, tree species richness (TSR) displayed a significant and direct correlation to the composition and diversity of both bacterial and fungal communities. The carbon-to-nitrogen (C:N) ratio had a direct impact on the bacterial community composition and diversity, and pH had a marked impact on the fungal community composition and diversity. Furthermore, succession stage and plant diversity indirectly impacted the composition and diversity of soil bacterial and fungal communities via soil properties. Overall, it can be concluded that soil intrinsic properties and plant diversity might jointly drive the changes in soil microbial community composition and diversity during secondary succession of subtropical coniferous forests.

Published in Forests

ISSN: 1999-4907 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Botany: Plant ecology
Website: http://www.mdpi.com/journal/forests/

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