The present invention relates to formulations of crude degummed corn oil (CDGCO) for use as plant biostimulants, for increasing yield and quality and for offsetting phytotoxic effects of active ingredients in pesticides and plant washes. Such formulations are typically combined with one or more emulsifier and a solvent, and or just an emulsifier or just a solvent, and combined with water and applied to plants as a spray or fog to foliage, or pruning cuts, or a a root zone drench, or to seeds. The invention improves upon existing pesticide formulations by reducing phytotoxicity. The invention provides for affordable plant biostimulant formulations for agriculture for producing better quality and higher yielding crops when subject to environmental stresses.

The present invention relates to formulations of crude degummed corn oil (CDGCO) for use as plant biostimulants, for increasing yield and quality and for offsetting phytotoxic effects of active ingredients in pesticides and plant washes. Such formulations are typically combined with one or more emulsifier and a solvent, and or just an emulsifier or just a solvent, and combined with water and applied to plants as a spray or fog to foliage, or pruning cuts, or a a root zone drench, or to seeds. The invention improves upon existing pesticide formulations by reducing phytotoxicity. The invention provides for affordable plant biostimulant formulations for agriculture for producing better quality and higher yielding crops when subject to environmental stresses.

A composition for inhibiting the attachment of microbes to an animate or inanimate surface is disclosed. The composition includes a carrier and an effective amount of an anti-adherent agent. The anti-adherent agents include botanical agents such Soybean extract, Horse chestnut extract, Gypenoside, Resveratrol, Astragalus extract, Rhubarb rootextract, Allium cepaextract, Cassia seedextract, Ginkgo bilobaextract, and Silymarin, and combinations thereof. The efficacy of the botanical agents is microbe and surface dependent. Various delivery vehicles, including a wipe, may be used to deliver the composition to the surface.

A composition for inhibiting the attachment of microbes to an animate or inanimate surface is disclosed. The composition includes a carrier and an effective amount of an anti-adherent agent. The anti-adherent agents include botanical agents such Soybean extract, Horse chestnut extract, Gypenoside, Resveratrol, Astragalus extract, Rhubarb rootextract, Allium cepaextract, Cassia seedextract, Ginkgo bilobaextract, and Silymarin, and combinations thereof. The efficacy of the botanical agents is microbe and surface dependent. Various delivery vehicles, including a wipe, may be used to deliver the composition to the surface.

A pesticidal mixture of an oil and an aliphatic acid is provided. In mixture, the aliphatic acid and oil are each effective to reduce the mixture's melting point (or viscosity transition point) to below the oil's and acid's melting points (or viscosity transition points). The mixture can be eutectic, such that the melting point of the mixture is less than both the oil melting point and the acid melting point. The oil can be a fatty acid ester, such as a wax ester. The aliphatic acid can be a fatty acid. Pesticidal mixtures comprising various natural pesticidal oils are disclosed, including neem oil, palm oil, coconut oil, and karanja oil.

A pesticidal mixture of an oil and an aliphatic acid is provided. In mixture, the aliphatic acid and oil are each effective to reduce the mixture's melting point (or viscosity transition point) to below the oil's and acid's melting points (or viscosity transition points). The mixture can be eutectic, such that the melting point of the mixture is less than both the oil melting point and the acid melting point. The oil can be a fatty acid ester, such as a wax ester. The aliphatic acid can be a fatty acid. Pesticidal mixtures comprising various natural pesticidal oils are disclosed, including neem oil, palm oil, coconut oil, and karanja oil.

A pesticidal mixture of an oil and an aliphatic acid is provided. In mixture, the aliphatic acid and oil are each effective to reduce the mixture's melting point (or viscosity transition point) to below the oil's and acid's melting points (or viscosity transition points). The mixture can be eutectic, such that the melting point of the mixture is less than both the oil melting point and the acid melting point. The oil can be a fatty acid ester, such as a wax ester. The aliphatic acid can be a fatty acid. Pesticidal mixtures comprising various natural pesticidal oils are disclosed, including neem oil, palm oil, coconut oil, and karanja oil.

The present invention relates to herbicidal) active pyridyl-/pyrimidyl-pyrazine derivatives, as well as to processes and intermediates used for the preparation of such derivatives. The invention further extends to herbicidal compositions comprising such derivatives, as well as to the use of such compounds and compositions in controlling undesirable plant growth: in particular the use in controlling weeds, in crops of useful plants.

A plastic material for extended release of a bio-active agent, the plastic material comprising a structural polymer, at least one bio-active ingredient embedded within the structural polymer as solid islands, a liquid binding material embedded within the structural polymer as granules, and a carrier liquid absorbed within the liquid-absorbent material. The carrier liquid may be sufficiently non-compatible with the structural polymer so that at least a portion of the carrier liquid is released from the liquid-absorbent material through the structural polymer to an outer surface of the plastic material over a period of time, such as a week or more, a month or more, or about three months. The bio-active agent comprised in the at least one bio-active ingredient may be sufficiently soluble in the carrier liquid at room or body temperature so that the carrier liquid released to the outer surface comprises the bio-active agent in solution.

A plastic material for extended release of a bio-active agent, the plastic material comprising a structural polymer, at least one bio-active ingredient embedded within the structural polymer as solid islands, a liquid binding material embedded within the structural polymer as granules, and a carrier liquid absorbed within the liquid-absorbent material. The carrier liquid may be sufficiently non-compatible with the structural polymer so that at least a portion of the carrier liquid is released from the liquid-absorbent material through the structural polymer to an outer surface of the plastic material over a period of time, such as a week or more, a month or more, or about three months. The bio-active agent comprised in the at least one bio-active ingredient may be sufficiently soluble in the carrier liquid at room or body temperature so that the carrier liquid released to the outer surface comprises the bio-active agent in solution.