Embodiments of a composition and/or combination comprising an anionic dietary supplement and 25-hydroxy vitamin D are disclosed. The anionic dietary supplement may be a negative dietary cation anion difference (DCAD) supplement and/or may comprise magnesium chloride, magnesium sulfate, ammonium chloride, ammonium sulfate, and calcium sulfate, and/or complexes thereof. Also disclosed are embodiments of a method for administrating the combination and/or composition to an animal, such as a ruminant. In certain embodiments, the animal is a dairy cow, and the method may be a method for increasing milk yield, and/or improving the health of the animal.

Embodiments of a composition and/or combination comprising an anionic dietary supplement and 25-hydroxy vitamin D are disclosed. The anionic dietary supplement may be a negative dietary cation anion difference (DCAD) supplement and/or may comprise magnesium chloride, magnesium sulfate, ammonium chloride, ammonium sulfate, and calcium sulfate, and/or complexes thereof. Also disclosed are embodiments of a method for administrating the combination and/or composition to an animal, such as a ruminant. In certain embodiments, the animal is a dairy cow, and the method may be a method for increasing milk yield, and/or improving the health of the animal.

The present invention describes a bio-based process to produce high quality protein concentrate (HQPC) by converting hempseed derived celluloses into bioavailable protein by incubation of hempseed feedstock with microbes, including the use of such HQPC so produced as a nutrient for animals and humans.

The present invention includes extruded livestock feed particles comprising a high level of fat and methods of making these animal feed particles. The particles are palatable and digestible by the livestock animals and lead to an enhanced energy intake by the animals. The particles are also flowable. The method includes the use of a vacuum coater to incorporate the fat into extruded animal feed particles. The present invention also includes methods of feeding dairy cows.

The present invention includes extruded livestock feed particles comprising a high level of fat and methods of making these animal feed particles. The particles are palatable and digestible by the livestock animals and lead to an enhanced energy intake by the animals. The particles are also flowable. The method includes the use of a vacuum coater to incorporate the fat into extruded animal feed particles. The present invention also includes methods of feeding dairy cows.

A co-extruded, dual-texture animal food is provided. The food has a dry outer portion partially surrounding a semi-moist inner portion. The inner portion has a higher or similar moisture content and a softer texture compared to the outer portion which has a lower moisture content and harder texture. The outer portion comprises cereal grain and a legume at about 75-85% of the weight of the outer portion, and an animal-based protein contributing to about 5-10% of the weight or more of the outer portion. The inner portion has animal-derived grease mixed with lactic acid at about 3% by weight of the inner portion, along with at least one meat comprising at least 3% by weight of the inner portion. The composition inhibits moisture transference within and between individual pieces of the food. The food is shelf stable and the inner and outer portions retain their hardness and moisture profiles, post-packaging.

A co-extruded, dual-texture animal food is provided. The food has a dry outer portion partially surrounding a semi-moist inner portion. The inner portion has a higher or similar moisture content and a softer texture compared to the outer portion which has a lower moisture content and harder texture. The outer portion comprises cereal grain and a legume at about 75-85% of the weight of the outer portion, and an animal-based protein contributing to about 5-10% of the weight or more of the outer portion. The inner portion has animal-derived grease mixed with lactic acid at about 3% by weight of the inner portion, along with at least one meat comprising at least 3% by weight of the inner portion. The composition inhibits moisture transference within and between individual pieces of the food. The food is shelf stable and the inner and outer portions retain their hardness and moisture profiles, post-packaging.

The method and system for processing meal from oilseeds after oil extraction includes biotransformation of meal and its cascade, sequential refining leading to the separation of the product or products with high added value, and finally obtaining the remaining biomass with an increased nutritional value compared to the original post-extraction meal material.

The method and system for processing meal from oilseeds after oil extraction includes biotransformation of meal and its cascade, sequential refining leading to the separation of the product or products with high added value, and finally obtaining the remaining biomass with an increased nutritional value compared to the original post-extraction meal material.

Cat food includes: food granules including extruded puffed granules having a moisture content of 12% or less. 60% or more of the food granules have a hardness of 2.5 kgw or less 1 minute after being immersed in a dilute hydrochloric acid (pH of 2.5) at 25° C. for 10 minutes. A pepsin digestibility of the food granules, 1 minute after being immersed in a 500 U/mL pepsin hydrochloric acid solution at 38° C. for 4 hours, is 60% or more.