Stéphane Uroz scite author profile

Summary Soil fungi play a major role in ecological and biogeochemical processes in forests. Little is known, however, about the structure and richness of different fungal communities and the distribution of functional ecological groups (pathogens, saprobes and symbionts). Here, we assessed the fungal diversity in six different forest soils using tag‐encoded 454 pyrosequencing of the nuclear ribosomal internal transcribed spacer‐1 (ITS‐1). No less than 166 350 ITS reads were obtained from all samples. In each forest soil sample (4 g), approximately 30 000 reads were recovered, corresponding to around 1000 molecular operational taxonomic units. Most operational taxonomic units (81%) belonged to the Dikarya subkingdom (Ascomycota and Basidiomycota). Richness, abundance and taxonomic analyses identified the Agaricomycetes as the dominant fungal class. The ITS‐1 sequences (73%) analysed corresponded to only 26 taxa. The most abundant operational taxonomic units showed the highest sequence similarity to Ceratobasidium sp., Cryptococcus podzolicus, Lactarius sp. and Scleroderma sp. This study validates the effectiveness of high‐throughput 454 sequencing technology for the survey of soil fungal diversity. The large proportion of unidentified sequences, however, calls for curated sequence databases. The use of pyrosequencing on soil samples will accelerate the study of the spatiotemporal dynamics of fungal communities in forest ecosystems.

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Soil networks become more connected and take up more carbon as nature restoration progresses

Morriën

et al. 2017

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Soil organisms have an important role in aboveground community dynamics and ecosystem functioning in terrestrial ecosystems. However, most studies have considered soil biota as a black box or focussed on specific groups, whereas little is known about entire soil networks. Here we show that during the course of nature restoration on abandoned arable land a compositional shift in soil biota, preceded by tightening of the belowground networks, corresponds with enhanced efficiency of carbon uptake. In mid- and long-term abandoned field soil, carbon uptake by fungi increases without an increase in fungal biomass or shift in bacterial-to-fungal ratio. The implication of our findings is that during nature restoration the efficiency of nutrient cycling and carbon uptake can increase by a shift in fungal composition and/or fungal activity. Therefore, we propose that relationships between soil food web structure and carbon cycling in soils need to be reconsidered.

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The role of ectomycorrhizal communities in forest ecosystem processes: New perspectives and emerging concepts

Courty

Buée

Diédhiou

et al. 2010

Soil Biology and Biochemistry

437

304

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Mineral weathering by bacteria: ecology, actors and mechanisms

Uroz

Calvaruso

Turpault³

et al. 2009

Trends in Microbiology

558

284

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Stéphane Uroz

454 Pyrosequencing analyses of forest soils reveal an unexpectedly high fungal diversity

Soil networks become more connected and take up more carbon as nature restoration progresses

The role of ectomycorrhizal communities in forest ecosystem processes: New perspectives and emerging concepts

Mineral weathering by bacteria: ecology, actors and mechanisms

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