The disclosure relates to methods for the screening, identification, and/or application of one or more microorganisms of use in imparting one or more beneficial properties to one or more plants.

The present invention provides a method of controlling growth of unwanted microorganisms by limiting their access to manganese. More specifically, the present invention provides a method of inhibiting or delaying growth of yeast and mold by reducing the manganese concentration in a product which is preferably a food product. The invention also provides manganese scavengers and uses thereof to inhibit or delay fungal growth.

The present invention provides a method of controlling growth of unwanted microorganisms by limiting their access to manganese. More specifically, the present invention provides a method of inhibiting or delaying growth of yeast and mold by reducing the manganese concentration in a product which is preferably a food product. The invention also provides manganese scavengers and uses thereof to inhibit or delay fungal growth.

A method for inoculating a plant with a nitrogen-fixing bacteria such as Gluconacetobacter diazotrophicus, said method comprising administering the nitrogen-fixing bacteria to a wound of a growing plant, for example to recently cut grass. Inoculation in this manner leads to enhanced growth characteristics including increased greenness of grass. Novel compositions suitable for use in the method are also described and claimed, together with kits for producing these.

A method for inoculating a plant with a nitrogen-fixing bacteria such as Gluconacetobacter diazotrophicus, said method comprising administering the nitrogen-fixing bacteria to a wound of a growing plant, for example to recently cut grass. Inoculation in this manner leads to enhanced growth characteristics including increased greenness of grass. Novel compositions suitable for use in the method are also described and claimed, together with kits for producing these.

A method for inoculating a plant with a nitrogen-fixing bacteria such as Gluconacetobacter diazotrophicus, said method comprising administering the nitrogen-fixing bacteria to a wound of a growing plant, for example to recently cut grass. Inoculation in this manner leads to enhanced growth characteristics including increased greenness of grass. Novel compositions suitable for use in the method are also described and claimed, together with kits for producing these.

The present invention relates to an agronomic composition comprising zinc, manganese and microorganism(s) capable of promoting nutrient uptake by a plant from the soil. Furthermore, the present invention provides a seed coated by an agronomic composition according to the invention and a method for improving the yield of a plant, in particular for increasing nutrient uptake and/or cold tolerance in early stages of development by applying the agronomic composition according to the invention to a seed or to soil, in which a seed is planted. Finally, the present invention also relates to the use of an agronomic composition of the present invention to improve the yield of a plant. In particular, the composition of the present invention is used to improve recovery of a plant and/or to prevent tissue damage when the plant is exposed to low temperatures at the seed or seedling stage.

The present invention relates to an agronomic composition comprising zinc, manganese and microorganism(s) capable of promoting nutrient uptake by a plant from the soil. Furthermore, the present invention provides a seed coated by an agronomic composition according to the invention and a method for improving the yield of a plant, in particular for increasing nutrient uptake and/or cold tolerance in early stages of development by applying the agronomic composition according to the invention to a seed or to soil, in which a seed is planted. Finally, the present invention also relates to the use of an agronomic composition of the present invention to improve the yield of a plant. In particular, the composition of the present invention is used to improve recovery of a plant and/or to prevent tissue damage when the plant is exposed to low temperatures at the seed or seedling stage.

The invention is directed to novel probiotic bacterial strains that colonize animal tissues, and in particular the gastrointestinal (GI) tract of aquatic animals grown in aquaculture environments and may further be engineered to express and deliver interfering RNA molecules configured to downregulate expression of one or more pathogen, or endogenous host genes.

The subject invention provides compositions and methods for treating human dermatological conditions by employing a microbiome-centered treatment approach. Preferred embodiments of the invention provide pharmaceutical and cosmetic compositions, and the methods of using the same, comprising a strain of Lactobacillus fermentum bacterium, or bioactive extracts thereof, derived from human microbiota and capable of growing in biofilm phenotype.