An in-feed life cycle interruption agent (LCIA) including a granulated core comprising LCIA material and a coating on the core. Related methods and products are also disclosed. Examples of LCIA include, but are not limited to Naturally occurring insect toxins (NOIT such as saponin and Insect Growth Regulators (IFR) such as Cyromazine.

An in-feed life cycle interruption agent (LCIA) including a granulated core comprising LCIA material and a coating on the core. Related methods and products are also disclosed. Examples of LCIA include, but are not limited to Naturally occurring insect toxins (NOIT such as saponin and Insect Growth Regulators (IFR) such as Cyromazine.

The invention provides a dosage form and a bolus configured for administration to an animal, wherein said dosage form and said bolus is configured to release a methane inhibitor to the animal over a period of time. Preferably the methane inhibitor is a haloform. Also provided is the use of the bolus of the invention to reduce methane production in a ruminant animal. Also provided is the method of manufacturing a bolus of the invention.

The invention relates to matrix and layer compositions comprising a first polymer. The matrix and layer compositions are useful in the delivery of bioactives. In particular, the matrices and layers may have advantageous properties including mechanical properties and protection of bioactives and may also provide for pH-dependent release of a bioactive.

The disclosure relates to isolated microorganismsincluding novel strains of the microorganismsmicrobial consortia, and compositions comprising the same. Furthermore, the disclosure teaches methods of utilizing the described microorganisms, microbial consortia, and compositions comprising the same, in methods for modulating the production and yield of milk and milk components in ruminants. In particular aspects, the disclosure provides methods of increasing desirable components of milk in ruminants. Furthermore, the disclosure provides for methods of modulating the rumen microbiome.

The disclosure relates to isolated microorganismsincluding novel strains of the microorganismsmicrobial consortia, and compositions comprising the same. Furthermore, the disclosure teaches methods of utilizing the described microorganisms, microbial consortia, and compositions comprising the same, in methods for modulating the production and yield of milk and milk components in ruminants. In particular aspects, the disclosure provides methods of increasing desirable components of milk in ruminants. Furthermore, the disclosure provides for methods of modulating the rumen microbiome.

The disclosure relates to isolated microorganismsincluding novel strains of the microorganismsmicrobial consortia, and compositions comprising the same. Furthermore, the disclosure teaches methods of utilizing the described microorganisms, microbial consortia, and compositions comprising the same, in methods for modulating the production and yield of milk and milk components in ruminants. In particular aspects, the disclosure provides methods of increasing desirable components of milk in ruminants. Furthermore, the disclosure provides for methods of modulating the rumen microbiome.

The present invention relates to a method of preparing high-strength coated whole cottonseed for livestock feed, wherein the germination ability of whole cottonseed is removed using high-temperature and high-pressure steam, and the surface of whole cottonseed is coated with gelatinized starch with high viscosity, which is prepared by gelatinizing starch in a preparation process. According the method of the present invention, since the germination ability of whole cottonseed is removed, release of foreign genes into the domestic environment, which may occur when using whole cottonseed for livestock feed, may be fundamentally prevented, and thus the method of the present invention may contribute to protection of domestic plant genetic resources. In addition, the use of gelatinized starch with increased viscosity, which is prepared by gelatinizing starch in a preparation process, may dramatically increase the selection range of coating agents. Furthermore, since coated whole cottonseed can be prepared without a drying process, which consumes a large amount of energy, the method of the present invention may increase economic effect by resolving economic problems, such as high production costs, encountered when preparing whole cottonseed for livestock feed.

The present invention relates to a method of preparing high-strength coated whole cottonseed for livestock feed, wherein the germination ability of whole cottonseed is removed using high-temperature and high-pressure steam, and the surface of whole cottonseed is coated with gelatinized starch with high viscosity, which is prepared by gelatinizing starch in a preparation process. According the method of the present invention, since the germination ability of whole cottonseed is removed, release of foreign genes into the domestic environment, which may occur when using whole cottonseed for livestock feed, may be fundamentally prevented, and thus the method of the present invention may contribute to protection of domestic plant genetic resources. In addition, the use of gelatinized starch with increased viscosity, which is prepared by gelatinizing starch in a preparation process, may dramatically increase the selection range of coating agents. Furthermore, since coated whole cottonseed can be prepared without a drying process, which consumes a large amount of energy, the method of the present invention may increase economic effect by resolving economic problems, such as high production costs, encountered when preparing whole cottonseed for livestock feed.

The present invention relates to a composition for feeding a ruminant comprising i) a non-protein nitrogen compound, and ii) a coating surrounding the non-protein nitrogen compound, wherein said coating comprises one or more layers of a mixture of a saturated fat and a fatty acid, and said coating comprises from 60 wt.-%+/10% to 85 wt.-%+/10% of the saturated fat, e.g. hydrogenated fat, and from 15 wt.-%+/10% to 40 wt.-%+/10% of the fatty acid, each based on the total weight of the coating; a process for the preparation of said composition and its uses, e.g., for improving nitrogen utilization in a ruminant.