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Soil fungal and bacterial community structure in monocultures of fourteen tree species of the temperate zone.

Authors :
Rożek, Katarzyna
Chmolowska, Dominika
Odriozola, Iñaki
Větrovský, Tomáš
Rola, Kaja
Kohout, Petr
Baldrian, Petr
Zubek, Szymon
Source :
Forest Ecology & Management; Feb2023, Vol. 530, pN.PAG-N.PAG, 1p
Publication Year :
2023

Abstract

[Display omitted] • The effects of 14 tree species on soil microorganisms were compared. • Identity of tree species explained composition of fungal communities. • Soil chemical properties impacted bacterial community composition. • Acer spp. and Tilia cordata improved microbial diversity. • No differences in microbial diversity were found between native and alien trees. Knowledge about the effects of tree species on the soil environment is crucial for implementation of sustainable forest management. The aim of our study was thus to compare the effects of 14 tree species with contrasting traits and origin in Poland and/or Europe on fungal and bacterial diversity in soils. To reduce confounding factors such as differences in topography, microclimate, the age of the tree stand, the admixture of other tree species and soil type, we used a common garden experiment, comprising 14 tree species planted 50 years ago as monoculture plots. We examined soil microbial communities via metabarcoding of bacteria and fungi, including arbuscular mycorrhizal fungi, followed by Illumina sequencing. The highest fungal species richness was found under Acer pseudoplatanus , whereas Carpinus betulus and Quercus rubra were characterized by the lowest species richness. Acer pseudoplatanus and Tilia cordata were associated with the highest species richness of bacteria, followed by Acer platanoides. Fungal composition was mainly explained by the tree species identity, while bacterial composition was explained by soil chemical properties, namely pH and contents of exchangeable Ca, K and Mg. Interaction between tree species identity and soil chemical properties was also important. Tree species belonging to the same genus tended to harbor microbial communities with similar structures, while we did not observe a clear difference between broadleaf and coniferous trees, and between native and alien species. We suggest using admixtures of Acer spp. and T. cordata to improve soil microbial diversity in the process of afforestation of new areas and in restoration of degraded lands. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03781127
Volume :
530
Database :
Supplemental Index
Journal :
Forest Ecology & Management
Publication Type :
Academic Journal
Accession number :
161342789
Full Text :
https://doi.org/10.1016/j.foreco.2022.120751