Methods of improving plant growth involve applying a first growth composition to a plant or part thereof during a first growth stage. The first growth composition includes a first active component combination comprised of auxin, gibberellin and cytokinin. The amount of cytokinin is less than the amount of auxin and gibberellin. The method also involves adjusting the amount of auxin, the amount of gibberellin, and/or the amount of cytokinin after the first growth stage, and applying a second growth composition to the plant or part thereof during a second growth stage. The second growth composition can include a second active component combination, different than the first, that includes a second amount of auxin, a second amount of gibberellin, and a second amount of cytokinin. In some examples, the method can also involve growing the plant to maturity, thereby improving growth of the plant.

An antimicrobial composition for treating plant diseases includes a solvent into which an antibiotic is substantially dissolved to achieve a concentration of the antibiotic sufficient to treat a bacterial infection in a plant. An acid is added to the solvent at a concentration sufficient to generate a pH in a range of 1.5 to less than 4.0. The antimicrobial can be delivered systemically to a plant, thereby allowing the antibiotic to treat a bacterial disease inflicting the plant.

The invention relates to a liquid dispersion comprising (i) at least one growth regulator which has a solubility in vegetable oil of about 0.1 wt % or less; (ii) an organic hydrophobic carrier, preferably a vegetable oil, hydrocarbon oil or paraffin oil, or a derivative thereof; wherein the at least one growth regulator which is insoluble or unstable in water, is present in the liquid dispersion in an amount exceeding 0.1 wt %; and wherein more than 90% of the particles of said growth regulator has a particle size of between 1-7 μm; wherein the dispersion further comprises (iii) an emulsifier which stabilizes the dispersion in the organic carrier, and which causes the concentrate to be water miscible and self-emulsifying when diluted in water in a suitable dilution, such as for example a 1:50 dilution or higher dilution; wherein the dispersion is essentially water free.

The invention relates to a liquid dispersion comprising (i) at least one growth regulator which has a solubility in vegetable oil of about 0.1 wt % or less; (ii) an organic hydrophobic carrier, preferably a vegetable oil, hydrocarbon oil or paraffin oil, or a derivative thereof; wherein the at least one growth regulator which is insoluble or unstable in water, is present in the liquid dispersion in an amount exceeding 0.1 wt %; and wherein more than 90% of the particles of said growth regulator has a particle size of between 1-7 μm; wherein the dispersion further comprises (iii) an emulsifier which stabilizes the dispersion in the organic carrier, and which causes the concentrate to be water miscible and self-emulsifying when diluted in water in a suitable dilution, such as for example a 1:50 dilution or higher dilution; wherein the dispersion is essentially water free.

A method for using hydrogen-rich water to increase the content of aromatic substances in fruits and vegetables comprises the step of keeping an outlet hydrogen concentration of hydrogen-rich water no lower than a set value within a period of time for which a filed is irrigated with hydrogen-rich water.

A method for using hydrogen-rich water to increase the content of aromatic substances in fruits and vegetables comprises the step of keeping an outlet hydrogen concentration of hydrogen-rich water no lower than a set value within a period of time for which a filed is irrigated with hydrogen-rich water.

Plant growth compositions include a solvent composition and an active component composition. The solvent composition includes 1-methoxy-2-propanol, glyceryl triacetate, methyl isobutyl ketone, 2-bytoxy ethanol, ethyl acetate, butyl lactate, lactic acid and/or n-butyl pyrrolidone. The active component combination is formulated to increase the growth of a plant, and includes an auxin, a gibberellin, a cytokinin, or a combination thereof. The solvent composition excludes butanol and/or citric acid. The boiling point of the solvent composition is at least about 100° C. and less than about 180° C. The solvent composition is compatible with Rhizobia. A method of improving plant growth involves applying the plant growth composition to plant seeds, which may include soybean seeds, corn seeds, wheat seeds, barley seeds, alfalfa seeds, or combinations thereof, and growing the nascent plants to maturity.

An antimicrobial composition comprising lithocholic acid, zinc pyrithione, cinnamaldehyde and a matrix forming compound. The composition is particularly suitable for treatment of microbial contamination and the formation of biofilms.

An antimicrobial composition comprising lithocholic acid, zinc pyrithione, cinnamaldehyde and a matrix forming compound. The composition is particularly suitable for treatment of microbial contamination and the formation of biofilms.

Compositions are provided that contain biologically active components of amniotic fluid including growth factors and other proteins, carbohydrates, lipids, and metabolites. The compositions containing biologically active components of amniotic fluid can be useful for a range of therapeutic treatments including joint and soft tissue repair, regulation of skin condition, and for use in organ preservation, such as for use in organ transplant procedures. Advantages of the compositions include that they can be reproducibly produced, without the inherent variability of amniotic fluid from individual donors, and that they are free of fetal waste.