TY - JOUR
T1 - Harnessing the plant microbiome for sustainable crop production
AU - Compant, Stéphane
AU - Cassan, Fabricio
AU - Kostić, Tanja
AU - Johnson, Linda
AU - Brader, Günter
AU - Trognitz, Friederike
AU - Sessitsch, Angela
PY - 2024/8/15
Y1 - 2024/8/15
N2 - Global research on the plant microbiome has enhanced our understanding of the complex interactions between plants and microorganisms. The structure and functions of plant-associated microorganisms, as well as the genetic, biochemical, physical and metabolic factors that influence the beneficial traits of plant microbiota have also been intensively studied. Harnessing the plant microbiome has led to the development of various microbial applications to improve crop productivity in the face of a range of challenges, for example, climate change, abiotic and biotic stresses, and declining soil properties. Microorganisms, particularly nitrogen-fixing rhizobia as well as mycorrhizae and biocontrol agents, have been applied for decades to improve plant nutrition and health. Still, there are limitations regarding efficacy and consistency under field conditions. Also, the wealth of expanding knowledge on microbiome diversity, functions and interactions represents a huge source of information to exploit for new types of application. In this Review, we explore plant microbiome functions, mechanisms, assembly and types of interaction, and discuss current applications and their pitfalls. Furthermore, we elaborate on how the latest findings in plant microbiome research may lead to the development of new or more advanced applications. Finally, we discuss research gaps to fully leverage microbiome functions for sustainable plant production.In this Review, Compant et al. explore the functions, mechanisms, assembly and interactions of plant microbiomes, highlighting current applications and their limitations. They also discuss how recent advances could lead to new or improved applications and identify research gaps crucial for harnessing microbiome functions in sustainable plant production.
AB - Global research on the plant microbiome has enhanced our understanding of the complex interactions between plants and microorganisms. The structure and functions of plant-associated microorganisms, as well as the genetic, biochemical, physical and metabolic factors that influence the beneficial traits of plant microbiota have also been intensively studied. Harnessing the plant microbiome has led to the development of various microbial applications to improve crop productivity in the face of a range of challenges, for example, climate change, abiotic and biotic stresses, and declining soil properties. Microorganisms, particularly nitrogen-fixing rhizobia as well as mycorrhizae and biocontrol agents, have been applied for decades to improve plant nutrition and health. Still, there are limitations regarding efficacy and consistency under field conditions. Also, the wealth of expanding knowledge on microbiome diversity, functions and interactions represents a huge source of information to exploit for new types of application. In this Review, we explore plant microbiome functions, mechanisms, assembly and types of interaction, and discuss current applications and their pitfalls. Furthermore, we elaborate on how the latest findings in plant microbiome research may lead to the development of new or more advanced applications. Finally, we discuss research gaps to fully leverage microbiome functions for sustainable plant production.In this Review, Compant et al. explore the functions, mechanisms, assembly and interactions of plant microbiomes, highlighting current applications and their limitations. They also discuss how recent advances could lead to new or improved applications and identify research gaps crucial for harnessing microbiome functions in sustainable plant production.
UR - https://doi.org/10.1038/s41579-024-01079-1
U2 - 10.1038/s41579-024-01079-1
DO - 10.1038/s41579-024-01079-1
M3 - Article
SN - 1740-1526
JO - Nature Reviews Microbiology
JF - Nature Reviews Microbiology
ER -