The present invention provides novel non-diary frozen desserts and methods of preparation thereof, the method including forming a first mixture by mixing water and stabilizer, mixing ingredients with the first mixture to form a light mix, folding the light mix with at least one pre-pasteurized egg product to form a heavy mix and freezing the heavy mix for less than twenty minutes to form the non-dairy frozen dessert.

A rodenticide composition is described along with a method for using the same to exterminate rodents. The composition features a mixture of a dehydrant for causing dehydration in a rodent, a water-absorbent, hygromorphic carrier for absorbing water and expanding after consumption by the rodent, and a flavoring composition. The carrier can be a source of cellulose or a non-cellulosic material. After consumption of the composition by a rodent, the dehydrant and carrier cause the rodent to experience dehydration. The rodenticide composition may also include an irritant that causes digestive stress to the rodent, which further stresses and dehydrates the rodent. Once the rodenticide composition is prepared, it may be placed in areas frequented by or infested with rodents so as to kill the rodents once they consume the composition. One or more flavorings, coloring agents, and weather resistant materials may also be added to the composition.

A process for producing a composition from a biological source, which composition is preserved and, especially pathogen free and is storage stable, preferably at room temperature. Embodiments of the invention provide a process for producing a composition from eggs.

A process for producing a composition from a biological source, which composition is preserved and, especially pathogen free and is storage stable, preferably at room temperature. Embodiments of the invention provide a process for producing a composition from eggs.

The invention provides novel microalgal food compositions comprising microalgal biomass that have been processed into flakes, powders and flours. The microalgal biomass of the invention is low in saturated fats, high in monounsaturated triglyceride oil and can be a good source of fiber. The invention also comprises microalgal biomass that is suitable as a vegetarian protein source and also as a good source of fiber. Novel methods of formulating food compositions with the microalgal biomass of the invention are also disclosed herein including beverages, baked goods, egg products, reduced fat foods and gluten-free foods. The provision of food compositions incorporating the microalgal biomass of the invention to ahuman have the further benefit of providing healthful ingredients while achieving levels of satiety sufficient to reduce further caloric intake. The invention also provides novel strains of microalgae that have been subject to non-transgenic methods of mutation sufficient to reduce the coloration of the biomass produced by the strains. Oil from the microalgal biomass can be extracted and is an edible oil that is heart-healthy. The novel microalgal biomass and oil therefrom can be manufactured from edible and inedible heterotrophic fermentation feedstocks, including corn starch, sugar cane, glycerol, and depolymerized cellulose that are purpose-grown or byproducts of existing agricultural processes from an extremely broad diversity of geographic regions.

The present invention relates to omega-3 fatty acid enrichment, and n-6 to n-3 fatty acid ratio improvement, of poultry products using animal feed supplemented with defatted microalgae, and treatment methods involving such poultry products. One aspect of the present invention relates to a method of producing poultry eggs with elevated amounts of n-3 fatty acids. This method involves feeding poultry an amount of defatted microalgae under conditions effective for the poultry to produce an egg comprising about 300 mg to about 550 mg of n-3 fatty acids.

Method for modifying the essential fatty acid profile of eggs through low-dose nutritional supplementation based on plant extract rich in flavonoids in the plant extract.

The present invention relates to a method for supplementing animals that produce eggs that are intended for consumption and/or reproduction using a very low dose of plant extract so as to naturally modulate the profile of essential fatty acid in the eggs produced.

Said method consists of a step of supplementing the complete feed and/or the drinking water of the animals using a very low dose of the plant extract and makes it possible to significantly increase the proportion of at least one polyunsaturated fatty acid of the omega-3 family, particularly alpha-linolenic acid (ALA) and/or docosahexaenoic acid (DHA), in the eggs produced by these animals.

The present invention is particularly intended for the agro-feed industry, including the animal nutrition industry, in order to obtain eggs for consumption that are enriched with polyunsaturated fatty acids and/or to improve the quality of eggs intended for reproduction of the species, whether terrestrial and/or aquatic.

Method for modifying the essential fatty acid profile of eggs through low-dose nutritional supplementation based on plant extract rich in flavonoids in the plant extract.

The present invention relates to a method for supplementing animals that produce eggs that are intended for consumption and/or reproduction using a very low dose of plant extract so as to naturally modulate the profile of essential fatty acid in the eggs produced.

Said method consists of a step of supplementing the complete feed and/or the drinking water of the animals using a very low dose of the plant extract and makes it possible to significantly increase the proportion of at least one polyunsaturated fatty acid of the omega-3 family, particularly alpha-linolenic acid (ALA) and/or docosahexaenoic acid (DHA), in the eggs produced by these animals.

The present invention is particularly intended for the agro-feed industry, including the animal nutrition industry, in order to obtain eggs for consumption that are enriched with polyunsaturated fatty acids and/or to improve the quality of eggs intended for reproduction of the species, whether terrestrial and/or aquatic.

Methods and devices for determining the cooked state of eggs. These are characterised in particular in that the cooked state of the egg can be monitored and/or the cooking process can be ended when a desired cooked state has been reached. To this end, an egg is positioned in a vessel, the temperature is increased, and at least one light source is positioned on or in the direct vicinity of the egg. The transmission of light through the egg is determined and a transmission of at least 96% of the maximum transmission degree of a raw egg is achieved for a runny yolk, of at least 94% is achieved for a soft yolk, of at least 90% is achieved for a medium soft yolk, and at least 85% is achieved for a hard yolk.

Methods and devices for determining the cooked state of eggs. These are characterised in particular in that the cooked state of the egg can be monitored and/or the cooking process can be ended when a desired cooked state has been reached. To this end, an egg is positioned in a vessel, the temperature is increased, and at least one light source is positioned on or in the direct vicinity of the egg. The transmission of light through the egg is determined and a transmission of at least 96% of the maximum transmission degree of a raw egg is achieved for a runny yolk, of at least 94% is achieved for a soft yolk, of at least 90% is achieved for a medium soft yolk, and at least 85% is achieved for a hard yolk.