The present invention is a system and method for creating and using algae as a food supplement for cattle and buffalo thereby providing a desirable food supplement for cattle and buffalo wherein the meat and fat produced has increased specific Omega-3 polyunsaturated fatty acids for a product, which imparts a healthier cardiovascular or healthier central nervous system.

The present invention is a system and method for creating and using algae as a food supplement for cattle and buffalo thereby providing a desirable food supplement for cattle and buffalo wherein the meat and fat produced has increased specific Omega-3 polyunsaturated fatty acids for a product, which imparts a healthier cardiovascular or healthier central nervous system.

Provided herein is a method of reducing postprandial concentrations of glucose in a subject's blood comprising administering to the subject, prior to or during a meal, an effective amount of a combination of a marine peptide and a fish nucleotide, sufficient to reduce the glucose concentration in the subject's blood. Further provided herein is a method of reducing postprandial concentration of ghrelin in a subject's blood, comprising administering to the subject, prior to or during a meal, an effective amount of a combination of a marine peptide and a fish nucleotide sufficient to increase the blood component wherein the combination is administered to the subject.

Provided herein is a method of reducing postprandial concentrations of glucose in a subject's blood comprising administering to the subject, prior to or during a meal, an effective amount of a combination of a marine peptide and a fish nucleotide, sufficient to reduce the glucose concentration in the subject's blood. Further provided herein is a method of reducing postprandial concentration of ghrelin in a subject's blood, comprising administering to the subject, prior to or during a meal, an effective amount of a combination of a marine peptide and a fish nucleotide sufficient to increase the blood component wherein the combination is administered to the subject.

Provided are methods for treating calcium malabsorption and conditions associated with calcium malabsorption, employing the administration of a composition containing stable amorphous calcium carbonate. Further provided are methods for increasing bone mineral density in a bone metabolism associated disorders, diseases or conditions, employing the administration of said composition in combination with a bone resorption inhibitor.

Provided are methods for treating calcium malabsorption and conditions associated with calcium malabsorption, employing the administration of a composition containing stable amorphous calcium carbonate. Further provided are methods for increasing bone mineral density in a bone metabolism associated disorders, diseases or conditions, employing the administration of said composition in combination with a bone resorption inhibitor.

A method of rearing an aquaculture shrimp includes keeping shrimps in a land-farming nursery, and feeding to the shrimps kept in the land-farming nursery a feed including astaxanthin in an amount of 50 ppm or greater.

A method of rearing an aquaculture shrimp includes keeping shrimps in a land-farming nursery, and feeding to the shrimps kept in the land-farming nursery a feed including astaxanthin in an amount of 50 ppm or greater.

The present invention is related to methods of making crustacean oil compositions. In particular, the crustacean oil compositions are krill oil compositions. In some embodiments, the krill oil compositions are concentrated in phospholipids. These concentrated phospholipid krill oil compositions have a sufficient flowability to permit successful encapsulation at phospholipid concentrations that is currently unattainable in the art. Such phospholipid krill oil compositions are capable of encapsulation even though they may have a phospholipid concentration ranging between approximately 60%-99% and a viscosity ranging between 100,000-3,000,000 cP. Such concentrated phospholipid krill oil compositions may be created using a small molecule organic solvent/water extraction mixture and/or sub-critical or super-critical fluid extraction at low temperatures followed by a drying process to remove water and organic solvent (e.g., for example, ethanol).

The present invention is related to methods of making crustacean oil compositions. In particular, the crustacean oil compositions are krill oil compositions. In some embodiments, the krill oil compositions are concentrated in phospholipids. These concentrated phospholipid krill oil compositions have a sufficient flowability to permit successful encapsulation at phospholipid concentrations that is currently unattainable in the art. Such phospholipid krill oil compositions are capable of encapsulation even though they may have a phospholipid concentration ranging between approximately 60%-99% and a viscosity ranging between 100,000-3,000,000 cP. Such concentrated phospholipid krill oil compositions may be created using a small molecule organic solvent/water extraction mixture and/or sub-critical or super-critical fluid extraction at low temperatures followed by a drying process to remove water and organic solvent (e.g., for example, ethanol).