An agricultural spray may be produced by admixing citric acid and glutamic acid with a metal salt and a pesticide or other agricultural chemical containing components capable of precipitating with the metal salt in the admixture. The citric acid and the glutamic acid chelate with the metal salt to provide a stability and compatibility-enhancing composition, thereby preventing the metal salt from forming an insoluble solid within the admixture. Such a composition may be produced by admixing citric acid and glutamic acid at a molar ratio of about 6.8:0.5 to about 1:0.29. The composition may include a metal sat, citric acid and glutamic acid in a molar ratio of about 1:6.8:0.5 to about 1:1:0.29 and a pesticide.

Systems and methods are disclosed for delivering a substance into a plant. The systems and methods include a light energy that is applied to a first area on the plant to create a first indentation. The first indentation can be a minor incision or a rupture of a portion of the first area. Once the first indentation is created, a first dosage of the substance is applied to the first area in an amount effective to promote a biological response of the plant. It is contemplated that at least a portion of the substance is absorbed by the plant via the first indentation.

Method of controlling infestation of citrus comprising the steps of: i) application of nanobiocide component-1 as a soil drench and foliar spray followed by simultaneous application of component-2 and component-4 followed by the application of component-3, as and when the citrus psyllid observed at threshold levels; ii) application of component-6 which is silicone based wetting and spreading agent cum penetrant mixed with components 3 and 5 and water as foliar spray; ii) finally applying component-5from the onset of flowering at 30-45 day intervals.

An agrochemical micronutrient concentrate and or formulations with dispersants for said concentrates/formulations, in particular a dispersant for use in suspending solid micronutrients in suspension concentrate type formulations comprising one or more micronutrients. The dispersant is preferably a water dispersible styrene (meth)acrylic copolymer. The micronutrient is selected from zinc oxide, manganese carbonate, manganese oxide, or calcium carbonate, and present in the concentrate at 40 wt. %. or more. The present invention also includes methods of treating crops with such micronutrient formulations.

A method for controlling plant viruses comprising treating plant or soil with a composition for controlling plant viruses comprising Trichodermin wherein the composition has antiviral activity against plant viruses when applied to a plant or to soil. In some embodiments, the Trichodermin is isolated from a Trichoderma albolutescens strain.

This invention provides low-dose, low-concentration formulations of phytotoxic trace inorganic compounds for use in methods and systems for selectively and effectively controlling invasive plants.

High solids suspension fertilizers containing macro and micronutrients are provided herein. The fertilizers comprise at least one nutrient suspended in a liquid medium, along with a thickener and a dispersant. The liquid compositions advantageously comprise a suspension of larger fertilizer particles compared to prior art compositions, providing for a high solids content. The fertilizers are compatible with fungicide and insecticide seed treatments in coating agronomically important substrates, such as crop seed or prilled and granulated fertilizer. Also provided are methods of producing liquid fertilizers.

A coated seed comprises a seed and a coating at least partially surrounding the seed. The coating comprises a fungicide, a micronutrient metal, and a chelating agent, the fungicide comprising copper (II) hydroxide, wherein the amount of copper (II) hydroxide is from about 0.05 mg/seed to about 0.21 mg/seed. A method for applying a seed treatment to a seed or a population of seeds comprises distributing on the surface of the seed or the population of seeds a seed treatment formulation comprising a fungicide, a micronutrient metal, and a chelating agent. The fungicide comprises copper (II) hydroxide in an amount ranging from about 2 wt. % to about 20 wt. % of the total seed treatment formulation.

Systems and methods are disclosed for delivering a substance into a plant. The systems and methods include a light energy that is applied to a first area on the plant to create a first indentation. The first indentation can be a minor incision or a rupture of a portion of the first area. Once the first indentation is created, a first dosage of the substance is applied to the first area in an amount effective to promote a biological response of the plant. It is contemplated that at least a portion of the substance is absorbed by the plant via the first indentation.

A method enhances soil by preparing a microbial solution with microbes, a growth medium, and water; iteratively and selectively breeding generations of microbes to arrive at a predetermined microbial solution in a concentrated form of at least 110.sup.7 cfu/ml (colony-forming units per milliliter); adding humic acid with amino acids and protein to support an active microbial population to support active and healthy plant growth; and storing the microbial solution as a solid for enriching the soil with micronutrients, microbial cultures and organic materials.