Described herein is a method of remediating a water source of a target aquatic life. The method comprises collecting at least one target species of aquatic life from a water source, separating an oil from the solids of the target aquatic life, and refining a polyunsaturated fatty acid (PUFA) mixture from the oil. The water source is at least partially remediated by collecting the at least one target species of aquatic life from the water source.

The present invention relates generally to the field of the LC-PUFA containing compositions. For example, the present invention relates to at least partially preventing, inhibiting, reducing and/or stopping the oxidation of LC-PUFA in a composition. An embodiment of the present invention relates to a composition comprising at least one LC-PUFA containing oil and green coffee extract. The composition may contain at least 0.01 weight-% LC-PUFA. Another embodiment of the present invention relates to the use of green coffee extract in compositions comprising an LC-PUFA containing oil to at least partially prevent, reduce, inhibit and/or stop the oxidation of LC-PUFA in a composition.

The present invention relates generally to the field of the LC-PUFA containing compositions. For example, the present invention relates to at least partially preventing, inhibiting, reducing and/or stopping the oxidation of LC-PUFA in a composition. An embodiment of the present invention relates to a composition comprising at least one LC-PUFA containing oil and Glycyrrhiza, a part and/or an extract thereof. Another embodiment of the present invention relates to the use of Glycyrrhiza, a part and/or an extract thereof in compositions comprising an LC-PUFA containing oil to at least partially prevent, inhibit, reduce and/or stop the oxidation of LC-PUFA in the composition.

Disclosed are compositions and methods relating to lecithin obtained from high-oleic soybeans. The high-oleic lecithin imparts improved characteristics to a product when compared to lecithin obtained from commodity soybeans. Examples of improved characteristics may include one or more of increased effective release, increased oxidative stability, increased OSI induction time, increased shelf life, increased smoke point, and a reduction in the increase in viscosity induced by oxidation or heat.

Stabilized oils including an edible oil and an antioxidant composition comprising cα-lipoic acid and least one of ascorbic acid, ascorbyl palmitate, green tea extract, lecithin, and rosemary extract or at least one of 1,2,4-benzenetriol, carnosic acid, dihydromyricetin, dihydrorobinetin, epigallocatechin, gallic acid, 3-hydroxytyrosol, myricetin, and nepodin, and methods of preparing such stabilized edible oils. The stabilized oils may have an Oxidative Stability Index (“OSI”) at 110° C. of at least 30 hours.

A natural antioxidant for pet food and/or pet food ingredients to extend the shelf life of the pet food and/or pet food ingredients. The natural antioxidant is a natural smoke antioxidant obtained from fractions of natural liquid smoke. A pet food or pet food ingredient that contains a phenolic fraction of a liquid natural smoke flavor (or “the natural smoke extract”). The phenolic fraction exhibits an antioxidant effect on the pet food or the pet food ingredient, such as delayed oxidation or hydrolysis of fats and oils, whereas fats include animal fat and oils include vegetable oils; or stated differently, the delayed rancidification of the pet food or pet food ingredient.

Stabilized oils including an edible oil and an antioxidant composition comprising α-lipoic acid and least one of ascorbic acid, ascorbyl palmitate, green tea extract, lecithin, and rosemary extract or at least one of 1,2,4-benzenetriol, carnosic acid, dihydromyricetin, dihydrorobinetin, epigallocatechin, gallic acid, 3-hydroxytyrosol, myricetin, and nepodin, and methods of preparing such stabilized edible oils. The stabilized oils may have an Oxidative Stability Index (“OSI”) at 110° C. of at least 30 hours.

A processes for increasing the stability of a composition containing polyunsaturated an omega-6 fatty acid against oxidation proceeds by (i) providing a starting composition containing at least one polyunsaturated omega-6 fatty acid component; (ii) providing a lysine composition; (iii) admixing an aqueous, an aqueous-alcoholic or an alcoholic solution of starting composition and lysine composition, and subjecting a resulting admixture to spray drying conditions subsequently, thus forming a solid product composition containing at least one salt of a cation derived from lysine with an anion derived from the polyunsaturated omega-6 fatty acid; the product composition exhibiting a solvent content SC selected from the following; SC<5 wt %, SC<3 wt %, SC<1 wt %, or <0.5 wt %.

Embodiments of the present invention are directed to methods, apparatus and articles of manufacture that feature omega-3 fatty acids co-processed with flavonoid and lipophilic antioxidants for improved stability.

Disclosed are compositions and methods relating to lecithin obtained from high-oleic soybeans. The high-oleic lecithin imparts improved characteristics to a product when compared to lecithin obtained from commodity soybeans. Examples of improved characteristics may include one or more of increased effective release, increased oxidative stability, increased OSI induction time, increased shelf life, increased smoke point, and a reduction in the increase in viscosity induced by oxidation or heat.