Soil Fungal Community Composition Correlates with Site-Specific Abiotic Factors, Tree Community Structure, and Forest Age in Regenerating Tropical Rainforests

Soil Fungal Community Composition Correlates with Site-Specific Abiotic Factors, Tree Community Structure, and Forest Age in Regenerating Tropical Rainforests

Successional dynamics of plants and animals during tropical forest regeneration have been thoroughly studied, while fungal compositional dynamics during tropical forest succession remain unknown, despite the crucial roles of fungi in ecological processes. We combined tree data and soil fungal DNA me...

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Bibliographic Details
Published in:Biology (Basel, Switzerland) Vol. 10; no. 11; p. 1120
Main Authors: Adamo, Irene, Ortiz-Malavasi, Edgar, Chazdon, Robin, Chaverri, Priscila, ter Steege, Hans, Geml, József
Format: Journal Article
Language:English
Published: Basel MDPI AG 31-10-2021
MDPI
Subjects:
Abiotic factors
Age composition
Biodiversity
Climatic conditions
Community composition
Community structure
Costa Rica
Ecological succession
Environmental conditions
Environmental factors
Flowers & plants
forest communities
Forest management
Forests
Fungi
Hypotheses
impact of disturbance
ITS
Land use
Pacific wet forest
Pathogens
Rainforests
Reptiles & amphibians
Ribosomal DNA
Soil chemistry
Soil microorganisms
Stochasticity
Taxonomy
Trees
Tropical forests
Vegetation
Osa Peninsula
Golfo Dulce
United States > US
Costa Rica
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Summary:Successional dynamics of plants and animals during tropical forest regeneration have been thoroughly studied, while fungal compositional dynamics during tropical forest succession remain unknown, despite the crucial roles of fungi in ecological processes. We combined tree data and soil fungal DNA metabarcoding data to compare richness and community composition along secondary forest succession in Costa Rica and assessed the potential roles of abiotic factors influencing them. We found a strong coupling of tree and soil fungal community structure in wet tropical primary and regenerating secondary forests. Forest age, edaphic variables, and regional differences in climatic conditions all had significant effects on tree and fungal richness and community composition in all functional groups. Furthermore, we observed larger site-to-site compositional differences and greater influence of edaphic and climatic factors in secondary than in primary forests. The results suggest greater environmental heterogeneity and greater stochasticity in community assembly in the early stages of secondary forest succession and a certain convergence on a set of taxa with a competitive advantage in the more persisting environmental conditions in old-growth forests. Our work provides unprecedented insights into the successional dynamics of fungal communities during secondary tropical forest succession.
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ISSN:2079-7737
2079-7737
DOI:10.3390/biology10111120