Plant functional group drives the community structure of saprophytic fungi in a grassland biodiversity experimentLost in diversity: the interactions between soil-borne fungi, biodiversity and plant productivityLinking ecology and plant pathology to unravel the importance of soil-borne fungal pathogens in species-rich grasslands
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Plant phenotypic and transcriptional changes induced by volatiles from the fungal root pathogen Rhizoctonia solaniBiochar application differentially affects soil micro-, meso-macro-fauna and plant productivity within a nature restoration grasslandPlant neighbours can make or break the disease transmission chain of a fungal root pathogenSpatial heterogeneity of plant-soil feedback affects root interactions and interspecific competitionDeciphering the interactions between plant species and their main fungal root pathogens in mixed grassland communitiesPlant species richness leaves a legacy of enhanced root litter-induced decomposition in soilBiodiversity increases multitrophic energy use efficiency, flow and storage in grasslandsRoot responses of grassland species to spatial heterogeneity of plant-soil feedbackBelowground dynamics and plant growth effects of fungal pathogens in a grassland biodiversity experimentMind the blind spotDepth‐based differentiation in nitrogen uptake between graminoids and shrubs in an Arctic tundra plant communityPinpointing the distinctive impacts of ten cover crop species on the resident and active fractions of the soil microbiomeBiochar application rate affects biological nitrogen fixation in red clover conditional on potassium availabilityThe structure of root‐associated fungal communities is related to the long‐term effects of plant diversity on productivityBiochar application does not improve the soil hydrological function of a sandy soilBiochars produced from individual grassland species differ in their effect on plant growthUnraveling the prevalence of soil-borne fungal pathogens in the North China PlainSoil biochar amendment in a nature restoration area: effects on plant productivity and community compositionInitial biochar effects on plant productivity derive from N fertilizationThe way forward in biochar research: targeting trade-offs between the potential winsDeciphering the role of specialist and generalist plant–microbial interactions as drivers of plant–soil feedbackIndependent variations of plant and soil mixtures reveal soil feedback effects on plant community overyieldingSoil amendment with biochar increases the competitive ability of legumes via increased potassium availability
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Liesje Mommer