Compositions and method for producing a systemic acquired response (SAR) in plants. The resulting SAR may improve plant health and corresponding yields. In an example, the composition comprises a base solution and an effective amount of chitosan (Aspergillus niger) (e.g., in an amount of about 0.04 wt % of the composition). The base solution may include organic material, vitamin K compound, and nitrogen. Additionally or alternatively, the composition may include adding to the composition at least one of potassium, phosphorus, or an acidic organic polymer. Still further, the composition may include a micronutrient comprising at least one of boron, calcium, copper, iron, manganese, sulfur, silicon, or zinc. The composition may be applied as a foliar spray or used to irrigate the plant.

Compounds, compositions, and methods comprising a polyamine compound are described, which may be used to kill, disperse, treat, or reduce biofilms, or to inhibit or substantially prevent biofilm formation. In certain aspects, the present invention relates to compounds, compositions, and methods comprising polyamine compounds that have antimicrobial or dispersing activity against a variety of bacterial strains capable of forming biofilms.

Compounds, compositions, and methods comprising a polyamine compound are described, which may be used to kill, disperse, treat, or reduce biofilms, or to inhibit or substantially prevent biofilm formation. In certain aspects, the present invention relates to compounds, compositions, and methods comprising polyamine compounds that have antimicrobial or dispersing activity against a variety of bacterial strains capable of forming biofilms.

A termite bait includes a plurality of cellulosic food material pieces palatable to termites embedded within a water resistant polyurethane foam matrix. Another termite bait includes a plurality of cellulosic food material pieces embedded within a water-absorbent polyurethane foam matrix. Yet another termite bait includes at least one cellulosic food material piece encapsulated within a water resistant polyurethane foam coating. Such termite baits can be used alone or in a monitoring device or other termite control device. Another termite control device includes a container, a cellulosic food material within the container and a water resistant polyurethane foam positioned to separate the food material from its environment. The container can contain a termite bait as described above or can include a chamber containing a cellulosic food material and at least one pocket containing a polyurethane foam barrier to reduce intrusion of water through the pocket to the food material.

Disclosed are compositions and methods of preparing compositions of active herbicidal ingredients comprising two or more active herbicidal ingredients. Also disclosed are methods of using the compositions described herein to reduce herbicide resistance and minimize off-target movement. The present disclosure relates to compositions of herbicidal ionic liquids comprising one or more active herbicide ingredients and methods of making and using such ionic liquids. In some aspects, the herbicidal ionic liquids with multiple active herbicide ingredients can be prepared as separate ionic liquids, each with a single active, and later combined.

Disclosed are compositions and methods of preparing compositions of active herbicidal ingredients comprising two or more active herbicidal ingredients. Also disclosed are methods of using the compositions described herein to reduce herbicide resistance and minimize off-target movement. The present disclosure relates to compositions of herbicidal ionic liquids comprising one or more active herbicide ingredients and methods of making and using such ionic liquids. In some aspects, the herbicidal ionic liquids with multiple active herbicide ingredients can be prepared as separate ionic liquids, each with a single active, and later combined.

Compositions and methods for the disinfection of surfaces are provided. The compositions include at least about 40 weight percent of a C.sub.1-6 alcohol, and a primary enhancer selected from protein denaturants. The disinfectant composition is characterized by a pH of less than about 3. Broad spectrum efficacy is achieved, and synergistic activity is exhibited against C. difficile spores.

Compositions and methods for the disinfection of surfaces are provided. The compositions include at least about 40 weight percent of a C.sub.1-6 alcohol, and a primary enhancer selected from protein denaturants. The disinfectant composition is characterized by a pH of less than about 3. Broad spectrum efficacy is achieved, and synergistic activity is exhibited against C. difficile spores.

Solid rinsing, cleaning and/or sanitizing compositions for various applications are provided. In particular, solid compositions include a complex of urea and an acid having desirable storage stability previously unavailable in solid urea/acid compositions. Stable solid compositions are disclosed and methods of making the same to overcome conventional limitations associated with with forming kinetically and thermodynamically stable solids that utilize urea/acid compositions.

Solid rinsing, cleaning and/or sanitizing compositions for various applications are provided. In particular, solid compositions include a complex of urea and an acid having desirable storage stability previously unavailable in solid urea/acid compositions. Stable solid compositions are disclosed and methods of making the same to overcome conventional limitations associated with with forming kinetically and thermodynamically stable solids that utilize urea/acid compositions.