The present invention relates to a method of improving flock uniformity and/or meat quality of a monogastric animal comprising administering to the animal a composition, an animal feed or an animal feed additive comprising one or more microbial muramidases.

The present invention relates to phytase variants. The present invention also relates to polynucleotides encoding the variants; nucleic acid constructs, vectors, and host cells comprising the polynucleotides; and methods of using the variants.

The present invention relates to a method for identifying a pepsin resistant alpha amylase enzyme for use in a feed supplement comprising: i) providing an alpha amylase enzyme; ii) admixing said alpha amylase with com based feed and buffer solution comprising a pepsin concentration of 9000 U/ml at pH 3, 40° C., 500 rpm for al least 120 minutes and analysing alpha amylase activity on said alpha amylase compared to a control sample; wherein said control sample differs in that no pepsin is present during incubation; and iii) selecting an alpha amylase enzyme which substantially maintains alpha amylase activity under the assay conditions; feed supplements and feed stuffs comprising a pepsin resistant alpha amylase and the use of pepsin resistant alpha amylases in feed.

There is provided a pellet composition of ruminant feed which reduces the risk of acidosis in the rumen and a process of making such ruminant feed.

A feed composition for ruminants may include feed particles that contain a saturated fatty acid component as well as a urease inhibitor such that ingestion of the feed by lactating ruminants may provide for an increase in the amount of milk produced by the ruminant and/or an increase in the fat content of the milk produced, and a decrease in ammonia production from breakdown of urea.

The invention relates to a compressed salt block and a liquid treatment apparatus provided therein with at least one such compressed salt block. The liquid treatment apparatus comprises a housing adapted to accommodate at least one liquid treatment tank and at least one compressed salt block. The housing comprises a first space portion for accommodating the at least one liquid treatment tank, and a second space portion for accommodating at least partially the at least one compressed salt block; wherein the at least one compressed salt block comprises an extension portion which extends into a space in the first space portion between an external surface of the at least one liquid treatment tank and an inner wall surface of the housing adjacent the external surface of the at least one liquid treatment tank to thereby position the at least one compressed salt block within the housing. The compressed salt block comprises an elongated body having an irregular cross section, the cross section comprising a base side and a functional side opposing the base side, wherein at least a portion of the functional side forms an acute angle to the base side thereby forming the extension portion of the salt block.

The present disclosure relates to a granular feed additive capable of reducing hygroscopicity and lumping and caking, the additive including a basic amino acid and an anion represented by Formula 1, wherein a molar ratio of the anion to the basic amino acid is greater than 0.1 and equal to or less than 0.52.

The present disclosure relates to a granular feed additive capable of reducing hygroscopicity and lumping and caking, the additive including a basic amino acid and an anion represented by Formula 1, wherein a molar ratio of the anion to the basic amino acid is greater than 0.1 and equal to or less than 0.52.

Feed compositions, methods of preparing such compositions, and methods of feeding such compositions are described. A feed composition may include a core and a first coating layer disposed around at least a portion of the core. The core may include at least one carbohydrate component and at least one protein component. The first coating layer may include a fatty acid component having at least about 90% saturated fatty acid by weight.

Feed compositions, methods of preparing such compositions, and methods of feeding such compositions are described. A feed composition may include a core and a first coating layer disposed around at least a portion of the core. The core may include at least one carbohydrate component and at least one protein component. The first coating layer may include a fatty acid component having at least about 90% saturated fatty acid by weight.