Self-assembly is defined as the ability of an active ingredient (AI), when mixed with a polymer or polymers (solid or liquid state), to form either a complex or a strong attraction with the polymer/polymers, which influences the controlled release of the total system. This AI-polymer interaction or strong attraction can form in the solid state or in solution. The AI-polymer interaction also can form when applied to a filter paper, soil, seeds, or plant vegetation substrates, where the AI and polymer self-assembles into an AI-polymer-substrate matrix or complex that influences how the AI releases from the complex or matrix in a controlled manner.

Self-assembly is defined as the ability of an active ingredient (AI), when mixed with a polymer or polymers (solid or liquid state), to form either a complex or a strong attraction with the polymer/polymers, which influences the controlled release of the total system. This AI-polymer interaction or strong attraction can form in the solid state or in solution. The AI-polymer interaction also can form when applied to a filter paper, soil, seeds, or plant vegetation substrates, where the AI and polymer self-assembles into an AI-polymer-substrate matrix or complex that influences how the AI releases from the complex or matrix in a controlled manner.

Provided are bioactive compositions and metabolites derived from Bacillus and particularly Bacillus megaterium cultures responsible for controlling pests as well as their methods of use for controlling pests. Further provided are pesticidal Bacillus megaterium strains.

Provided are bioactive compositions and metabolites derived from Bacillus and particularly Bacillus megaterium cultures responsible for controlling pests as well as their methods of use for controlling pests. Further provided are pesticidal Bacillus megaterium strains.

Provided are bioactive compositions and metabolites derived from Bacillus and particularly Bacillus megaterium cultures responsible for controlling pests as well as their methods of use for controlling pests. Further provided are pesticidal Bacillus megaterium strains.

A composition comprising a chelate-based ternary complex is useful for: (1) at least in-part disabling existing populations of microorganisms; and (2) at least in-part inhibiting growth of new microorganism populations. The chelate-based ternary complex comprises a hydrogen peroxide component, a plant compatible growth promoter component and a divalent zinc ion component. The plant compatible growth promoter component may comprise a urea component or a gluconate component or a salicylate component.

A composition comprising a chelate-based ternary complex is useful for: (1) at least in-part disabling existing populations of microorganisms; and (2) at least in-part inhibiting growth of new microorganism populations. The chelate-based ternary complex comprises a hydrogen peroxide component, a plant compatible growth promoter component and a divalent zinc ion component. The plant compatible growth promoter component may comprise a urea component or a gluconate component or a salicylate component.

The combination of a repellent agent or an attractant agent with a wavelength-specific visual cue agent has been found to produce an unexpected and synergistic effect of increased repellency or attraction in dichromatic animals who are not maximally sensitive to the wavelength of the repellent or attractant agent. The method of the invention may be used to repel dichromatic-animal pests; or to prevent or minimize monetary damage, particularly to agricultural products, natural resources or private property. The method of the invention may also be used to attract dichromatic animals for the purpose of agricultural production, recreational opportunities (e.g., wild-rodent feeders), or the effective administration of target-animal pharmaceuticals or mitigation techniques.

The combination of a repellent agent or an attractant agent with a wavelength-specific visual cue agent has been found to produce an unexpected and synergistic effect of increased repellency or attraction in dichromatic animals who are not maximally sensitive to the wavelength of the repellent or attractant agent. The method of the invention may be used to repel dichromatic-animal pests; or to prevent or minimize monetary damage, particularly to agricultural products, natural resources or private property. The method of the invention may also be used to attract dichromatic animals for the purpose of agricultural production, recreational opportunities (e.g., wild-rodent feeders), or the effective administration of target-animal pharmaceuticals or mitigation techniques.

An aqueous agricultural composition includes a pesticide, water, and a co-polymer. The co-polymer is the reaction product of an acrylamide monomer and a macromonomer. The acrylamide monomer and the macromonomer react together in the absence of an anionic monoethylenically unsaturated monomer including an acidic group chosen from —COOH, —SO.sub.3H, —PO.sub.3H.sub.2 and associated salts. The disclosed aqueous agricultural composition may be incorporated into agricultural spray operations and demonstrates effective reduction of driftable droplets.