The invention relates to a biological product for increasing the yield of crop plants. The invention can be used in agriculture, horticulture and plant protection. The product for stimulating the growth of crop plants is characterized by containing a cold-tolerant Bacillus strain.

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.

A pesticidal composition comprises at least one soil conditioner selected from the group consisting of organic soil conditioners, microorganisms, activators, and combinations thereof and an active ingredient group alpha (AIGA) compound. The weight ratio of soil conditioner to AIGA compound is at least about 20:1. The pesticidal composition shows an enhanced residue activity of the AIGA compound in soil. A method of controlling a sap-feeding insect on a top part of the plant comprises applying a pesticidally effective amount of such pesticidal composition to soil around a root system of the plant. A method of controlling pests comprises applying a pesticidally effective amount of such pesticidal composition to at least one of: soil, seed of a plant, a portion of a plant, and locus where control of pests is desired.

A substrate designed to be used as animal litter, for controlling insects, preferably flies, in which the substrate includes an absorbent substrate impregnated with at least one insect growth regulator (IGR) in a preferred determined concentration, and where the substrate is preferably impregnated with a formulation including, in addition to the growth regulator, a film-forming substance, a water insoluble particulate mineral material, an organic solvent, one or more additives and water. A method for obtaining the substrate impregnated with the formulation is also disclosed, as well as using the substrate as animal litter for controlling insects. Use of the waste resulting from the mix of the substrate with manure, after it has been used as animal litter, as organic compost for agricultural soils by subjecting it to a process of stabilization and degradation by means of biosolarisation is also disclosed.

A titanium-containing formulation contains complexes of titanium salts with an ascorbic acid and a citric acid, a preservative agent, and water-soluble sulfates of metals absorbable by plants, and optionally additional plant nutrients, in particular nitrogen and potassium. The titanium-containing formulation is a product of titanium complexation reaction of titanyl sulfate with a mixture of ascorbic acid and citric acid in aqueous environment alkalized with magnesium hydroxide in presence of acetic acid, at a mass ratio of magnesium, calculated as MgO, to titanium amounting from 1:1 to 20:1. Furthermore, in the titanium-containing formulation a mass ratio of the ascorbic acid to the citric acid amounts from 5:1 to 3:5, a mass ratio of the ascorbic acid to titanium amounts from 7:2 to 10:1, and a mass ratio of the magnesium hydroxide, calculated as MgO, to the acetic acid, calculated as 100% of the acetic acid, amounts from 8:1 to 3:5.

The invention is directed to manufacturing fertilizers having commercial levels of nitrogen reacted with organic substances. The process comprises treatment of organics with acid that acidifies and heats a mix causing the hydrolysis of polymers. The acidified organic mix is injected sequentially with a nitrogen base under conditions that result in a partially neutralized melt. The sterilized and liquefied organic matter is disbursed over recycled material for production of granules in a granulator before final drying. The process is green scalable, and safe for the location of community organics processing facilities in locations without generating a nuisance to local communities. Fertilizers also provide a green, dual nitrogen-release profile when applied to crops releasing a bolus of nitrogen over one to two weeks following application followed by a continued slow or enhanced efficiency release of nitrogen over a growing season.

An encapsulated particle comprises a core particle, a transferrable-pesticide disposed about the core particle, and a polyurethane layer disposed about the transferrable-pesticide. The core particle comprises a fertilizer, such as urea. The transferrable-pesticide can comprise a dinitroaniline, such as pendimethalin. The polyurethane layer is generally formed from a reaction mixture having a maximum temperature of no greater than about 30 C. The polyurethane layer inhibits the transferrable-pesticide from transferring to a surface different from the core particle when the encapsulated particle physically contacts the surface. A method of forming the encapsulated particle comprises the steps of encapsulating the core particle with the transferrable-pesticide to form an intermediate-particle, combining an isocyanate and a polyol to form the reaction mixture, and encapsulating the intermediate-particle with the reaction mixture to form the polyurethane layer of the encapsulated particle. The polyurethane layer comprises the reaction product of the isocyanate and polyol.

A method of delivering at least one nucleic acid to a plant, comprising: applying a light energy to a surface of the plant to create a pore; and applying at least one nucleic acid to the pore, wherein the at least one nucleic acid comprises RNA, wherein the at least one nucleic acid comprises at least one of a RNA interference (RNAi), an antisense RNA (asRNA), a micro RNA (miRNA), a small interfering RNA (siRNA), a double-stranded RNA (dsRNA), a non-coding RNA (ncRNA), mitochondrial RNA (mtDNA), and combinations thereof.

A chelated zinc adjuvant composition includes water, an effective amount of a micronutrient consisting of zinc chelated with an organic acid and an organic amine, a mono-, di- or polysaccharide and an alkyl polysaccharide. The adjuvant has a pH of up to 6.5. When admixed with a pesticide capable of precipitating with the zinc, due to the zinc being chelated, the zinc is prevented from precipitating with the pesticide and is available for uptake. When the adjuvant composition is applied in seed, soil, foliage or fruit applications, zinc uptake is improved.

In some embodiments, a composition and/or method may include a rodenticide binding system formulated for safe and effective mixture into various feed rations which are fed to monogastric and ruminant animals such as poultry, swine, cows, cattle, and fish, among others. The rodenticide binding system includes novel combinations of one or more of an organoclay, an activated hydrated sodium calcium aluminosilicate clay, and a synthetic hectorite clay. In some embodiments, the binding composition may include organoclay, bentonite, hectorite, Leonardite, and/or any combination thereof. The toxin binding complex may effectively bind some pesticides (e.g., rodenticides) in the animal's digestive system, preventing their absorption and the consequent damages to the animal.