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POLYMER-BASED COATINGS TO INCREASE THE SURVIVAL OF MICROBIAL INOCULANTS APPLIED TO AGRICULTURAL SEEDS. World-wide, there is much active research to maximise the use of Rhizobium for legumes and to develop a new range of growth-promoting micro-organisms for application to agricultural crops including cereals. However, very poor survival of inoculant bacteria after application to seed severely limits their effectiveness. New polymer coatings on seed may enhance survival of inoculants. By collabora ....POLYMER-BASED COATINGS TO INCREASE THE SURVIVAL OF MICROBIAL INOCULANTS APPLIED TO AGRICULTURAL SEEDS. World-wide, there is much active research to maximise the use of Rhizobium for legumes and to develop a new range of growth-promoting micro-organisms for application to agricultural crops including cereals. However, very poor survival of inoculant bacteria after application to seed severely limits their effectiveness. New polymer coatings on seed may enhance survival of inoculants. By collaboration between chemists, rhizobiologists and the inoculant and seed-coating industries, innovative technology can now be generated, improving inoculum potential, giving higher crop yields using less fertilisers. The technology will generate a rural service industry providing coated seed products that reduce farmers' input costs and help maximise their income.Read moreRead less
The Development of Microbial Inoculants as Biofertilisers for Rice, Wheat and Turf-Grass. Plant-microbial interactions can increase vegetative growth and crop yield. These PGPR effects result from improved N and P nutrition, stimulation of root growth, disease control, altered environmental conditions and, most importantly, positive interactions between all these. This project aims to develop plant growth promoting bacteria and fungi as commercial products. By matching microbes to plants and soi ....The Development of Microbial Inoculants as Biofertilisers for Rice, Wheat and Turf-Grass. Plant-microbial interactions can increase vegetative growth and crop yield. These PGPR effects result from improved N and P nutrition, stimulation of root growth, disease control, altered environmental conditions and, most importantly, positive interactions between all these. This project aims to develop plant growth promoting bacteria and fungi as commercial products. By matching microbes to plants and soil environments, a set of peat-based inoculants will be optimised for application as biofertilisers to field crops and turfgrass.
Potential applications are both rural and urban.
The outcomes will be proven commercial products able to promote plant growth and rapid recovery from adverse conditions.Read moreRead less