Disclosed herein are compounds and methods for regulating plant growth and/or combating root parasitic plants. Formulations containing one or more disclosed compounds or salts thereof, and one or more excipients are disclosed. Methods for regulating plant growth typically includes applying one or more formulations to a plant, a plant part, or a growing site of plant, where the one or more compounds or salts thereof can be in an effective amount to inhibit tillering, trigger senescence, and/or cause stunted growth of the plant. The plant can be a cereal, grain, or vegetable plant. Methods for combating root parasitic plants typically includes applying one or more formulations to a root parasitic plant, a plant part of root parasitic plant, or a growing site of root parasitic plant, where the one or more compounds or salts thereof can be in an effective amount to induce parasitic seed germination.

An antimicrobial composition includes an aqueous and/or ethanolic solution of iodine and hydrogen peroxide, which is acidified. The acidifying agent may be aspirin, hydrochloric acid, or other acidic agent tolerable to the body. The composition may also include a witch hazel extract, or alternately hamamelitannin, gallic acid, or other components thereof that effect quorum signaling inhibition that blocks and erodes microbe-induced biofilm on cellular and device surfaces. Acetohydroxamic acid may be combined with the composition as a counter to microbe-induced alkalinization, particularly in urine. Moreover, a metal, halogen, and combinations of these, such as a silver colloid, may be added as a secondary microbicidal agent. The antimicrobial composition may be applied topically to or instilled through an indwelling urinary catheter or applied as a device surface-coating on other medical devices.

An antimicrobial composition includes an aqueous and/or ethanolic solution of iodine and hydrogen peroxide, which is acidified. The acidifying agent may be aspirin, hydrochloric acid, or other acidic agent tolerable to the body. The composition may also include a witch hazel extract, or alternately hamamelitannin, gallic acid, or other components thereof that effect quorum signaling inhibition that blocks and erodes microbe-induced biofilm on cellular and device surfaces. Acetohydroxamic acid may be combined with the composition as a counter to microbe-induced alkalinization, particularly in urine. Moreover, a metal, halogen, and combinations of these, such as a silver colloid, may be added as a secondary microbicidal agent. The antimicrobial composition may be applied topically to or instilled through an indwelling urinary catheter or applied as a device surface-coating on other medical devices.

An antimicrobial composition includes an aqueous and/or ethanolic solution of iodine and hydrogen peroxide, which is acidified. The acidifying agent may be aspirin, hydrochloric acid, or other acidic agent tolerable to the body. The composition may also include a witch hazel extract, or alternately hamamelitannin, gallic acid, or other components thereof that effect quorum signaling inhibition that blocks and erodes microbe-induced biofilm on cellular and device surfaces. Acetohydroxamic acid may be combined with the composition as a counter to microbe-induced alkalinization, particularly in urine. Moreover, a metal, halogen, and combinations of these, such as a silver colloid, may be added as a secondary microbicidal agent. The antimicrobial composition may be applied topically to or instilled through an indwelling urinary catheter or applied as a device surface-coating on other medical devices.

The present invention relates to monoterpenoid and phenylpropanoid containing derivative compounds, methods of making the compounds, compositions comprising the compounds, and methods of repelling pests using the compounds and/or compositions.

The present invention relates to monoterpenoid and phenylpropanoid containing derivative compounds, methods of making the compounds, compositions comprising the compounds, and methods of repelling pests using the compounds and/or compositions.

This invention describes discovery and development of a biological system of plant growth promotion and environmental improvement by carbon sequestration and/or nitrogen utilization by application of a microbial agent, e.g., a highly effective strain of T. viride, particularly strains NRRL B-50520 and/or K5. This strain outperforms the best current strains of Trichoderma used for this purpose available commercially. The highly active products also are expected to increase plant productivity and improve quality of fruits, vegetables, flowers or other plant products. The invention also describes and demonstrates that strain combinations including Bacillus amyloliquifaciens AS2 or AS3, as well as disclosed metabolites, promote plant growth. This is true across monocots and dicots, seed treatments and foliar sprays. In the field plant height, shoot weight, root weight, and photosynthesis (Spad meter readings) were all increased in comparison to the untreated control as well as the leading biological seed treatments. The invention also describes metabolite utilization for enhancing plant growth.

This invention describes discovery and development of a biological system of plant growth promotion and environmental improvement by carbon sequestration and/or nitrogen utilization by application of a microbial agent, e.g., a highly effective strain of T. viride, particularly strains NRRL B-50520 and/or K5. This strain outperforms the best current strains of Trichoderma used for this purpose available commercially. The highly active products also are expected to increase plant productivity and improve quality of fruits, vegetables, flowers or other plant products. The invention also describes and demonstrates that strain combinations including Bacillus amyloliquifaciens AS2 or AS3, as well as disclosed metabolites, promote plant growth. This is true across monocots and dicots, seed treatments and foliar sprays. In the field plant height, shoot weight, root weight, and photosynthesis (Spad meter readings) were all increased in comparison to the untreated control as well as the leading biological seed treatments. The invention also describes metabolite utilization for enhancing plant growth.

Embodiments of the present invention relate to formulations that can be used in the agriculture industry. In one aspect, an agricultural formulation comprises at least one agricultural active ingredient in an amount from 1 weight percent up to 80 weight percent based on the total weight of the formulation, and an alkyl furan ester solvent of Formula 1, wherein the formulation comprises from 5 weight percent up to 80 weight percent of the alkyl furan ester solvent.

Embodiments of the present invention relate to formulations that can be used in the agriculture industry. In one aspect, an agricultural formulation comprises at least one agricultural active ingredient in an amount from 1 weight percent up to 80 weight percent based on the total weight of the formulation, and an alkyl furan ester solvent of Formula 1, wherein the formulation comprises from 5 weight percent up to 80 weight percent of the alkyl furan ester solvent.