
pmid: 32996612
pmc: PMC7821104
AbstractVolatiles play major roles in mediating ecological interactions between soil (micro)organisms and plants. It is well‐established that microbial volatiles can increase root biomass and lateral root formation. To date, however, it is unknown whether microbial volatiles can affect directional root growth. Here, we present a novel method to study belowground volatile‐mediated interactions. As proof‐of‐concept, we designed a root Y‐tube olfactometer, and tested the effects of volatiles from four different soil‐borne fungi on directional growth of Brassica rapa roots in soil. Subsequently, we compared the fungal volatile organic compounds (VOCs) previously profiled with Gas Chromatography–Mass Spectrometry (GC–MS). Using our newly designed setup, we show that directional root growth in soil is differentially affected by fungal volatiles. Roots grew more frequently toward volatiles from the root pathogen Rhizoctonia solani, whereas volatiles from the other three saprophytic fungi did not impact directional root growth. GC–MS profiling showed that six VOCs were exclusively emitted by R. solani. These findings verify that this novel method is suitable to unravel the intriguing chemical cross‐talk between roots and soil‐borne fungi and its impact on root growth.
Volatile Organic Compounds, Rhizoctonia solani, Brassica rapa, national, root pathogen, chemotaxis; fungal volatiles; Rhizoctonia solani; root attraction; root olfactometer; root pathogen, Plant Roots, Gas Chromatography-Mass Spectrometry, fungal volatiles, Technical Report, root olfactometer, root attraction, chemotaxis, Plan_S-Compliant_TA, Soil Microbiology
Volatile Organic Compounds, Rhizoctonia solani, Brassica rapa, national, root pathogen, chemotaxis; fungal volatiles; Rhizoctonia solani; root attraction; root olfactometer; root pathogen, Plant Roots, Gas Chromatography-Mass Spectrometry, fungal volatiles, Technical Report, root olfactometer, root attraction, chemotaxis, Plan_S-Compliant_TA, Soil Microbiology
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