Variations in the Compositions of Soil Bacterial and Fungal Communities Due to Microhabitat Effects Induced by Simulated Nitrogen Deposition of a Bamboo Forest in Wetland
Autor: | Haiyan Sheng, Yueping Jiang, Weicheng Li, Desy Ekawati, Huimin Yang |
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Rok vydání: | 2019 |
Předmět: |
Bamboo
soil pH value Wetland Phyllostachys violascens 03 medical and health sciences Abundance (ecology) Soil pH 030304 developmental biology 0303 health sciences geography geography.geographical_feature_category biology Chemistry Forestry 04 agricultural and veterinary sciences biology.organism_classification soil particle-size fractions Deposition (aerosol physics) Agronomy 040103 agronomy & agriculture 0401 agriculture forestry and fisheries Species evenness Alpha diversity soil microhabitat Bacteria soil microbial diversity |
Zdroj: | Forests Volume 10 Issue 12 |
ISSN: | 1999-4907 |
DOI: | 10.3390/f10121098 |
Popis: | Although numerous studies have been published on nitrogen (N) deposition, little is known about its impact on microbial communities in wetland forests. Here, we used simulated nitrogen deposition (SND) to analyze the importance of differences in soil microhabitats in promoting the diversity of soil bacteria and fungi. We compared various levels of SND (control (CK), low N (N30), medium N (N60), and high N (N90)) and found that these were associated with changes in soil microhabitats. Additionally, SND affected soil pH, clay and sand content of the soil, and specific surface area (SSA). Bacteria and fungi responded differently to increased SND levels. The alpha diversity of bacteria decreased with an increased SND level, while fungal abundance, diversity, and community evenness reached their maximum values at the N60 threshold. Principal coordinates analysis (PCoA), nonparametric multivariate analysis of variance (PERMANOVA), and linear discriminant analysis (LDA) coupled with effect size measurements (LefSe) also confirmed that the bacterial composition was different at N90 compared to other levels of SND while that of fungi was different at N60. A higher discriminant level (LDA score &ge 4) may be a valuable index of selecting indicator microbial clades sensitive to SND for wetland management. Further, an increased pH was associated with a greater abundance of bacteria and fungi. In addition, the volume contents of clay and SSA were negatively correlated with bacteria but fungi are associated with soil specific gravity (SSG). Overall, in a neutral soil pH environment, pH fluctuation is the main influencing factor in terms of bacterial and fungal abundance and diversity. The diversity of fungi is more dependent on the type and relative content of solid phase components in soil than that of bacteria, implying the presence of species-specific niches for bacteria and fungi. These results demonstrate that changes in SND can induce short-term microbial and microhabitat changes. |
Databáze: | OpenAIRE |
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