The present invention provides a method for producing a biomass comprising at least 65% protein from hydrogen-oxidising microorganisms using one or more input streams comprising one or more gaseous substrates and a nutrient composition which are controlled and wherein the biomass is produced at a rate of more than 10 g/l/d. The produced and isolated biomass is useful as feed or to provide nutrition to one or more organisms.

The present invention provides a method for producing a biomass comprising at least 65% protein from hydrogen-oxidising microorganisms using one or more input streams comprising one or more gaseous substrates and a nutrient composition which are controlled and wherein the biomass is produced at a rate of more than 10 g/l/d. The produced and isolated biomass is useful as feed or to provide nutrition to one or more organisms.

Disclosed is a method and process for manifesting sustainable improvement in fisheries productivity in Ocean waters. This method and process includes (1) selecting a location of the Ocean that is considered both High Nutrient Low Chlorophyll (HNLC), (2) that the location is within proximity to fisheries feeding grounds or migratory routes or within areas that are considered to be fish feeding areas, (3) within this location, a surface sea height anomaly (Ocean Eddy) is defined using satellite s.s.h. data, and (4) applying a fertilizer that contains an Iron compound within the Ocean Eddy.

Disclosed is a method and process for manifesting sustainable improvement in fisheries productivity in Ocean waters. This method and process includes (1) selecting a location of the Ocean that is considered both High Nutrient Low Chlorophyll (HNLC), (2) that the location is within proximity to fisheries feeding grounds or migratory routes or within areas that are considered to be fish feeding areas, (3) within this location, a surface sea height anomaly (Ocean Eddy) is defined using satellite s.s.h. data, and (4) applying a fertilizer that contains an Iron compound within the Ocean Eddy.

A hydrolysate compound protein for larval largemouth bass (Micropterus salmoides) and use thereof for aquatic animal feeds. The micro-diet was formulated with the following components: 72-74 parts by weight of a hydrolyzed protein pre-mixture, 3-5 parts by weight of mixed fish soluble meal, 4-6 parts by weight of gluten flour, 2-4 parts by weight of sodium caseinate, and 0.4-0.6 parts by weight of a yeast hydrolysate, where the hydrolyzed protein pre-mixture includes white fish meal, fermented soybean meal, shrimp meal and blood meal with the weight ratio of 58-62: 5-7: 4-6: 2-3. The compound protein is obtained by fully pulverizing the foregoing components, passing through a 100-mesh sieve, fully mixing in proportion, and being hydrolyzed with neutral protease and keratinase.

A hydrolysate compound protein for larval largemouth bass (Micropterus salmoides) and use thereof for aquatic animal feeds. The micro-diet was formulated with the following components: 72-74 parts by weight of a hydrolyzed protein pre-mixture, 3-5 parts by weight of mixed fish soluble meal, 4-6 parts by weight of gluten flour, 2-4 parts by weight of sodium caseinate, and 0.4-0.6 parts by weight of a yeast hydrolysate, where the hydrolyzed protein pre-mixture includes white fish meal, fermented soybean meal, shrimp meal and blood meal with the weight ratio of 58-62: 5-7: 4-6: 2-3. The compound protein is obtained by fully pulverizing the foregoing components, passing through a 100-mesh sieve, fully mixing in proportion, and being hydrolyzed with neutral protease and keratinase.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

The reformulation of RONOZYME® ProAct protease polypeptide to a more economical microgranulate, extrudate, high-shear granulate or spray drying formulation each provide good thermostability and suitability for use as an animal feed additive.

The present invention relates to Myoviridae bacteriophage Vib-PAP-4(Accession No. KCTC 13168BP), isolated from nature, which possesses ability to specifically kill Vibrio parahaemolyticus bacteria and has the genome represented by SEQ ID No: 1, and a method for preventing infection of Vibrio parahaemolyticus bacteria and treating infection of Vibrio parahaemolyticus baceteria, using a composition containing the bacteriophage as an effective ingredient.