Abstract
Fungi are key components of belowground ecosystems with various ecological roles in forests. Although the changes in the richness and composition of belowground fungi across altitudinal gradients have been widely reported, only a few studies have focused on the microhabitat types along altitudinal gradients. Here, we analysed the effect of altitude on the ectomycorrhizal and non-ectomycorrhizal fungal communities in belowground microhabitats. We collected root and soil samples from 16 Pinus densiflora forests at various altitudes across Korea, and measured the soil properties as potential factors. Fungal communities were analysed by high-throughput sequencing of the internal transcribed spacer 2 (ITS2) region. We found that altitude negatively affected the species richness of root-inhabiting fungi but did not influence that of soil-inhabiting fungi. In addition, the composition of ectomycorrhizal (ECM) fungi was less influenced by altitude than non-ECM fungi. Most of the soil properties did not show a significant relationship with altitude, but the effect of soil properties was different across microhabitat types and ecological roles of fungi. Our results reveal that microhabitat types and altitudinal gradients differently affect the richness and composition of fungal communities associated with P. densiflora, providing a better understanding of plant-associated fungal communities.
Highlights
Fungi are key components of belowground ecosystems with various ecological roles in forests
Here, we analyzed the effect of altitudinal gradients on the fungal communities of belowground microhabitats and their different ecological roles
Root and nearby soil samples were collected from 80 Pinus densiflora trees in 16 localities at various altitudes across the country, and their community composition was analyzed using DNA metabarcoding of the ITS2 region on the Illumina MiSeq platform
Summary
Fungi are key components of belowground ecosystems with various ecological roles in forests. Distinct fungal communities widely interact along a continuum of mutualism to parasitism with vascular plants and other microbes in root and soil microhabitats [2, 3]. Mycorrhizal fungi spread mycelia around the soil [14] to mobilize limiting nutrients [15], link multiple trees and understory vegetation, and transport carbon through the mycelial network [16]. Because of their essential roles in ecosystem processes, belowground fungi are important for forest management and ecosystem restoration [17,18,19]. Our understanding of the belowground ecosystem of forests is still limited due to the complexity of belowground fungal species [18, 20], diverse forms of plant–fungi interactions [21, 22], and the variable spatial structure within belowground forest
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