Provided is an aquacultured crustacean having improved umami, uses thereof, and a method for producing the same. The crustacean does not burrow in sand, contain glycine and alanine, and has 2400 mg or more of free amino acids per 100 g of abdominal muscle. The content of glycine is 550 mg or more per 100 g of abdominal muscle, and the content of alanine is 140 mg or more per 100 g of abdominal muscle.

Provided is an aquacultured crustacean having improved umami, uses thereof, and a method for producing the same. The crustacean does not burrow in sand, contain glycine and alanine, and has 2400 mg or more of free amino acids per 100 g of abdominal muscle. The content of glycine is 550 mg or more per 100 g of abdominal muscle, and the content of alanine is 140 mg or more per 100 g of abdominal muscle.

The invention relates to method and a device for preparing a carbohydrate and/or protein product by subjecting a carbohydrate and/or protein to a heat treatment after a few ingredients have been added.

The invention relates to method and a device for preparing a carbohydrate and/or protein product by subjecting a carbohydrate and/or protein to a heat treatment after a few ingredients have been added.

The present invention relates to a feed composition suitable for feeding crustaceans comprising mannose oligosaccharides. The invention also relates to the use of mannose oligosaccharide compositions for feeding crustaceans. The invention also relates to crustaceans as a food source, in particular shrimp of the species Litopenaeus vannamei or Penaeus monodon, fed with the feed composition comprising mannose oligosaccharides.

The present invention relates to a feed composition suitable for feeding crustaceans comprising mannose oligosaccharides. The invention also relates to the use of mannose oligosaccharide compositions for feeding crustaceans. The invention also relates to crustaceans as a food source, in particular shrimp of the species Litopenaeus vannamei or Penaeus monodon, fed with the feed composition comprising mannose oligosaccharides.

Provided is an aquacultured crustacean having improved umami, uses thereof, and a method for producing the same. The crustacean does not burrow in sand, contain glycine and alanine, and has 2400 mg or more of free amino acids per 100 g of abdominal muscle. The content of glycine is 550 mg or more per 100 g of abdominal muscle, and the content of alanine is 140 mg or more per 100 g of abdominal muscle.

Provided is an aquacultured crustacean having improved umami, uses thereof, and a method for producing the same. The crustacean does not burrow in sand, contain glycine and alanine, and has 2400 mg or more of free amino acids per 100 g of abdominal muscle. The content of glycine is 550 mg or more per 100 g of abdominal muscle, and the content of alanine is 140 mg or more per 100 g of abdominal muscle.

In one embodiment, a minimally-processed microwaveable lobster product including a lobster tail, a fat-containing composition, and a microwaveable package. The lobster tail has a shell containing lobster meat. The shell has a longitudinal axis with at least one cut formed generally parallel to the longitudinal axis. The fat-containing composition is disposed in a region above the lobster tail. The microwaveable package has first and second resilient layers. The first resilient layer is disposed under the lobster tail and contacts the lobster tail. The second resilient layer is disposed above the lobster tail and contacts the lobster tail and the fat-containing composition.

In one embodiment, a minimally-processed microwaveable lobster product including a lobster tail, a fat-containing composition, and a microwaveable package. The lobster tail has a shell containing lobster meat. The shell has a longitudinal axis with at least one cut formed generally parallel to the longitudinal axis. The fat-containing composition is disposed in a region above the lobster tail. The microwaveable package has first and second resilient layers. The first resilient layer is disposed under the lobster tail and contacts the lobster tail. The second resilient layer is disposed above the lobster tail and contacts the lobster tail and the fat-containing composition.