Litcius/Paper detail

Engineering the Plant Microenvironment To Facilitate Plant-Growth-Promoting Microbe Association

Augustine T. Zvinavashe, Ilham Mardad, Manal Mhada, Lamfeddal Kouisni, Benedetto Marelli

2021Journal of Agricultural and Food Chemistry57 citationsDOI

Abstract

New technologies that enhance soil biodiversity and minimize the use of scarce resources while boosting crop production are highly sought to mitigate the increasing threats that climate change, population growth, and desertification pose on the food infrastructure. In particular, solutions based on plant-growth-promoting bacteria (PGPB) bring merits of self-replication, low environmental impact, tolerance to biotic and abiotic stressors, and reduction of inputs, such as fertilizers. However, challenges in facilitating PGPB delivery in the soil still persist and include survival to desiccation, precise delivery, programmable resuscitation, competition with the indigenous rhizosphere, and soil structure. These factors play a critical role in microbial root association and development of a beneficial plant microbiome. Engineering the seed microenvironment with protein and polysaccharides is one proposed way to deliver PGPB precisely and effectively in the seed spermosphere. In this review, we will cover new advancements in the precise and scalable delivery of microbial inoculants, also highlighting the latest development of multifunctional rhizobacteria solutions that have beneficial impact on not only legumes but also cereals. To conclude, we will discuss the role that legislators and policymakers play in promoting the adoption of new technologies that can enhance the sustainability of crop production.

Topics & Concepts

RhizosphereRhizobacteriaBiotechnologyMicrobial inoculantBiologyPopulationSustainabilityBusinessDesertificationAgricultureEcologyMedicineEnvironmental healthGeneticsBacteriaLegume Nitrogen Fixing SymbiosisPlant tissue culture and regenerationNematode management and characterization studies