Abstract
Plants communicate with microorganisms by exchanging chemical signals throughout the phytosphere. Such interactions are important not only for plant productivity and fitness, but also for terrestrial ecosystem functioning. It is known that beneficial microorganisms emit diffusible substances including volatile organic compounds (VOCs) that promote growth. Consistently, soil application of cell-free culture filtrates (CF) of beneficial soil and plant-associated microorganisms enhances plant growth and yield. However, how this treatment acts in plants and whether it alters the resident soil microbiota, are largely unknown. In this work we characterized the responses of pepper (Capsicum annuum L.) plants cultured under both greenhouse and open field conditions and of soil microbiota to soil application of CFs of beneficial and phytopathogenic fungi. To evaluate the contribution of VOCs occurring in the CFs to these responses, we characterized the responses of plants and of soil microbiota to application of distillates (DE) of the fungal CFs. CFs and their respective DEs contained the same potentially biogenic VOCs, and application of these extracts enhanced root growth and fruit yield, and altered the nutritional characteristics of fruits. High-throughput amplicon sequencing of bacterial 16S and fungal ITS rRNA genes of the soil microbiota revealed that the CF and DE treatments altered the microbial community compositions, and led to strong enrichment of the populations of the same beneficial bacterial and fungal taxa. Our findings show that CFs of both beneficial and phytopathogenic fungi can be used as biostimulants, and provide evidence that VOCs occurring in the fungal CFs act as mediators of the plants’ responses to soil application of fungal CFs through stimulation of the beneficial soil microbiota.
Highlights
Plants are metaorganisms that host a complex and dynamic consortium of bacteria, fungi, archaea and protists that communicate with plants by exchanging chemical signals throughout the rhizosphere and endosphere
culture filtrates (CFs) of both beneficial and phytopathogenic fungi can be used as biostimulants to improve crop yield
Results presented in this work show that CFs of both beneficial and phytopathogenic fungi can be used as biostimulants, and provide evidence that organic VCs (VOCs) occurring in the fungal CFs act as mediators of the plants’ responses to soil application of fungal CFs through stimulation of the beneficial soil microbiota
Summary
Plants are metaorganisms that host a complex and dynamic consortium of bacteria, fungi, archaea and protists that communicate with plants by exchanging chemical signals throughout the rhizosphere and endosphere. A safe and environmentally friendly approach to increase crop yield and/or protect plants from abiotic stress and pests while reducing the use of agrochemicals is based on the inoculation of the soil with plant growth promoting microorganisms that act as biostimulants (López-Bucio et al, 2015; Ahmad et al, 2018) These microorganisms emit diffusible substances including phytohormones and amino acids that promote root branching and nutrient uptake, enhance photosynthesis, alter metabolism, confer resistance to abiotic stresses and pathogens (Badri et al, 2013a; De-la-Peña and Loyola-Vargas, 2014; López-Bucio et al, 2015), and stimulate resident beneficial microbial communities in the phytosphere (Kröber et al, 2014; Fiorentino et al, 2018), thereby boosting plant growth and yield. Agronomic studies have shown that the application to soil of cell-free filtrates of cultures of plant-associated beneficial microbes enhances seed germination, seedling growth and crop yield (Aldesuquy et al, 1998; Varma et al, 1999; Bagde et al, 2011; Sung et al, 2011; Rahman et al, 2012; Yandigeri et al, 2012; Kaur et al, 2019)
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