The present invention relates to a preparation for stabilizing fungal spores. The formulation comprises at least one glycerophospholipid and spores of a fungal microorganism.

The present invention relates to a preparation for stabilizing fungal spores. The formulation comprises at least one glycerophospholipid and spores of a fungal microorganism.

The present invention relates to compositions of natural origin for use in agricultural crops (vegetables and fruit trees), particularly for use in biostimulant formulations and/or with antimicrobial action, which allow crops to be protected from stress, improving the quality and yield of plants and/or their fruits.

The invention provides a biostimulant and/or antimicrobial composition comprising extracts made from plants that include berry leaves rich in polyphenols, flavonoids, and micronutrients. In a preferred embodiment of the invention, the composition comprises extracts made from blueberry leaves. A process for making said composition is also provided.

The present invention relates to compositions of natural origin for use in agricultural crops (vegetables and fruit trees), particularly for use in biostimulant formulations and/or with antimicrobial action, which allow crops to be protected from stress, improving the quality and yield of plants and/or their fruits.

The invention provides a biostimulant and/or antimicrobial composition comprising extracts made from plants that include berry leaves rich in polyphenols, flavonoids, and micronutrients. In a preferred embodiment of the invention, the composition comprises extracts made from blueberry leaves. A process for making said composition is also provided.

Cyclodextrin compositions including one or more radiation polymerizable monomers and a cyclodextrin inclusion complex, the cyclodextrin inclusion complex including a cyclodextrin compound and an olefinic inhibitor of an ethylene generation in produce, are coated onto packaging materials and cured. Treated containers and treated package inserts having the cured cyclodextrin compositions are useful in packaging of respiring plant materials.

Cyclodextrin compositions including one or more radiation polymerizable monomers and a cyclodextrin inclusion complex, the cyclodextrin inclusion complex including a cyclodextrin compound and an olefinic inhibitor of an ethylene generation in produce, are coated onto packaging materials and cured. Treated containers and treated package inserts having the cured cyclodextrin compositions are useful in packaging of respiring plant materials.

The present invention is directed to aqueous herbicidal compositions containing flumiclorac-pentyl, pyroxasulfone and dioctyl sodium sulfosuccinate. The present invention is further directed to a method of controlling weeds by applying compositions of the present invention.

The present invention is directed to aqueous herbicidal compositions containing flumiclorac-pentyl, pyroxasulfone and dioctyl sodium sulfosuccinate. The present invention is further directed to a method of controlling weeds by applying compositions of the present invention.

Disclosed is a method for synthesizing an antimicrobial base. The method comprises treating a Silver salt in a reaction mixture. The method further comprises adding one or more reactants to the reaction mixture in a pre-defined ratio. Further, the method comprises heating the reaction mixture at a first temperature between 45° C. to 90° C. for a first period of 5 to 8 hours. Furthermore, the method comprises stabilizing the conversion by adding a ligand and a stabilizing agent. Subsequently, the method comprises digesting the reaction mixture at a second temperature between 45° C. to 65° C. for a period of 2 to 4 hours to form an end product. Finally, the method comprises filtering the reaction mixture. The sub-micron particle forms a dispersion containing the colloidal silver particles (Ag.sup.0), thereby forming the antimicrobial base.

Disclosed is a method for synthesizing an antimicrobial base. The method comprises treating a Silver salt in a reaction mixture. The method further comprises adding one or more reactants to the reaction mixture in a pre-defined ratio. Further, the method comprises heating the reaction mixture at a first temperature between 45° C. to 90° C. for a first period of 5 to 8 hours. Furthermore, the method comprises stabilizing the conversion by adding a ligand and a stabilizing agent. Subsequently, the method comprises digesting the reaction mixture at a second temperature between 45° C. to 65° C. for a period of 2 to 4 hours to form an end product. Finally, the method comprises filtering the reaction mixture. The sub-micron particle forms a dispersion containing the colloidal silver particles (Ag.sup.0), thereby forming the antimicrobial base.