Root Exudate Metabolites Alter Food Crops Microbiomes, Impacting Plant Biocontrol and Growth

Ali, Shimaila; Glick, Bernard R.

doi:10.3390/crops4010004

Crops

2024

DOI: 10.3390/crops4010004

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Root Exudate Metabolites Alter Food Crops Microbiomes, Impacting Plant Biocontrol and Growth

Shimaila Ali,

Bernard R. Glick

Abstract: Exuded plant metabolites play an important role in fostering beneficial interactions with the surrounding soil microbiota, thereby helping plants to better adjust to changing environmental conditions. These metabolites act as signals to attract or enhance the colonization of plant roots with specific groups of beneficial microbes and they modulate the dynamics of plant–microbe interactions in fulfilling plant niche-based requirements, directly and/or indirectly. This review emphasizes the expression, levels, m… Show more

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Cited by 4 publications

References 111 publications

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Linking biodiversity and biotic interactions to ecosystem functioning

Jayaramaiah,

Egidi,

Macdonald

et al. 2024

J of Sust Agri & Env

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Biodiversity is an essential component for ecosystem functioning and stability, with numerous biotic interactions and complementarity playing important roles. The complexity of these relationships can be seen in both above‐ and belowground ecosystems and understanding these intricate relationships between biodiversity and ecosystem functioning (BEF) is critical to ecological research, especially in the context of rapidly changing global environments. This review synthesizes contemporary research and fundamental insights into BEF linkages, with a particular emphasis on the function of plant‐microbial biotic interactions in shaping aboveground biodiversity and their cascading effects on ecosystem processes. One of the most significant developments is the discovery that microbial communities responsible for a variety of soil functions are inextricably linked to plant communities and ecosystem processes. However, BEF studies rarely explore the relationships between above‐ and belowground biodiversity components, as well as how global change affects them. In light of this, we propose emerging paths for future study, emphasizing the necessity of global‐scale networks and collaborative efforts to address difficult ecological challenges. Addressing these crucial knowledge gaps might help to improve our understanding of the interplay between biodiversity, biotic interactions and ecosystem functions, thereby improving primary productivity as well as ecosystem resilience and sustainability in the face of projected global change.

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Linking biodiversity and biotic interactions to ecosystem functioning

Jayaramaiah,

Egidi,

Macdonald

et al. 2024

J of Sust Agri & Env

View full text Add to dashboard Cite

show abstract

Drought stress mitigation through bioengineering of microbes and crop varieties for sustainable agriculture and food security

Kumar,

Sindhu

2024

Current Research in Microbial Sciences

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Harnessing Pseudomonas spp. for sustainable plant crop protection

Alattas,

Glick,

Murphy

et al. 2024

Front. Microbiol.

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This review examines the role of Pseudomonas spp. bacteria as biocontrol agents against crop diseases, focusing on their mechanisms of action, efficacy, and potential applications in sustainable agriculture. Pseudomonas spp., ubiquitous in soil ecosystems and root microbiomes, have attracted attention for their ability to suppress phytopathogens and enhance plant health through various mechanisms. These include direct competition for nutrients, production of antimicrobial compounds and volatile organic compounds, competition using type VI secretion systems, and indirect induction of systemic resistance. Our review shows that Pseudomonas strains effectively control a wide range of diseases across diverse plant species, with some strains demonstrating efficacy comparable to chemical fungicides. However, the review also highlights challenges in achieving consistent performance when using Pseudomonas inoculants under field conditions due to various biotic and abiotic factors. Strategies to optimize biocontrol potential, such as formulation techniques, application methods, and integration with other management practices, are discussed. The advantages of Pseudomonas-based biocontrol for sustainable agriculture include reduced reliance on chemical pesticides, enhanced crop productivity, and improved environmental sustainability. Future research directions should focus on understanding the complex interactions within the plant microbiome, optimizing delivery systems, and addressing regulatory hurdles for commercial deployment. This review underscores the significant potential of Pseudomonas spp. in sustainable crop protection while acknowledging the need for further research to fully harness their capabilities in agricultural systems.

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Root Exudate Metabolites Alter Food Crops Microbiomes, Impacting Plant Biocontrol and Growth

Cited by 4 publications

References 111 publications

Linking biodiversity and biotic interactions to ecosystem functioning

Linking biodiversity and biotic interactions to ecosystem functioning

Drought stress mitigation through bioengineering of microbes and crop varieties for sustainable agriculture and food security

Harnessing Pseudomonas spp. for sustainable plant crop protection

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