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Microbial Consortia: Promising Tool as Plant Bioinoculants for Agricultural Sustainability.

Rajeshwari NegiBabita SharmaTawseefa JanTanvir KaurSohini ChowdhuryMonit KapoorSangram SinghAnu KumarAshutosh Kumar RaiSarvesh RustagiSheikh ShreazDivjot KourNaseer AhmedKrishan KumarAjar Nath Yadav
Published in: Current microbiology (2024)
In the present scenario, growing population demands more food, resulting in the need for sustainable agriculture. Numerous approaches are explored in response to dangers and obstacles to sustainable agriculture. A viable approach is to be exploiting microbial consortium, which generate diverse biostimulants with growth-promoting characteristics for plants. These bioinoculants play an indispensable role in optimizing nutrient uptake efficiency mitigating environmental stress. Plant productivity is mostly determined by the microbial associations that exist at the rhizospheric region of plants. The engineered consortium with multifunctional attributes can be effectively employed to improve crop growth efficacy. A number of approaches have been employed to identify the efficient consortia for plant growth and enhanced crop productivity. Various plant growth-promoting (PGP) microbes with host growth-supporting characteristics were investigated to see if they might work cohesively and provide a cumulative effect for improved growth and crop yield. The effective microbial consortia should be assessed using compatibility tests, pot experimentation techniques, generation time, a novel and quick plant bioassay, and sensitivity to external stimuli (temperature, pH). The mixture of two or more microbial strains found in the root microbiome stimulates plant growth and development. The present review deals with mechanism, formulation, inoculation process, commercialization, and applications of microbial consortia as plant bioinoculants for agricultural sustainability.
Keyphrases
  • plant growth
  • climate change
  • microbial community
  • human health
  • risk assessment
  • escherichia coli
  • heavy metals
  • single molecule