A pelleting system and method for pelletizing a cellulosic fiber into feed pellets. The pelleting system includes a mixer adapted to combine a shredded cellulosic fiber with at least one additive and a preservative to form a mixture; a pellet feeder for injecting said mixture into a conditioning chamber, the conditioning chamber adapted to apply steam to the mixture to add moisture and heat to said mixture for softening the mixture to facilitate pelletizing; and a pellet mill adapted to compress the mixture to form feed pellets. The final product may be a feed pellet having a compression ratio between about 7 L/D and about 16 L/D and containing between about 9 wt. % moisture and about 12 wt. % moisture.

The present invention relates to feed compositions that can modify the feeding behavior of animals. Supplements can be added to no or low roughage rations that improve the performance of animals. In particular, the addition of calcium chloride to a low or no roughage ration can increase the number of feedings but decrease the amount of feeding per meal. This can result in promoting enhances feed conversion and better cost of feed to weight gain.

The present invention relates to feed compositions that can modify the feeding behavior of animals. Supplements can be added to no or low roughage rations that improve the performance of animals. In particular, the addition of calcium chloride to a low or no roughage ration can increase the number of feedings but decrease the amount of feeding per meal. This can result in promoting enhances feed conversion and better cost of feed to weight gain.

Methods form high fat feed blocks having a total fat content of about 7 wt % to 33 wt %. The blocks are formed by blending a pourable composition having a viscosity of at least 1000 cP at 57° C. with high fat pellets having total fat content of at least 40 wt % based on pellet weight, where the pellets include at least one fat having a melt temperature of greater than 60° C. Also disclosed are feed blocks formed by the methods.

Methods form high fat feed blocks having a total fat content of about 7 wt % to 33 wt %. The blocks are formed by blending a pourable composition having a viscosity of at least 1000 cP at 57° C. with high fat pellets having total fat content of at least 40 wt % based on pellet weight, where the pellets include at least one fat having a melt temperature of greater than 60° C. Also disclosed are feed blocks formed by the methods.

Disclosed is a piglet feed based on bacteria enzyme synergistic fermentation process. The piglet feed is composed of basic components and bacteria enzyme synergistic fermentation feed. Basic components include soybean protein concentrate, whey powder, fish meal, sodium chloride, choline chloride, stone powder, calcium hydrogen phosphate, composite vitamins, composite trace elements, and composite amino acids. The bacterial enzyme synergistic fermentation feed includes a fermentation substrate, an enzyme preparation, and a bacterial strain. The bacterial enzyme synergistic fermentation feed can not only improve the production performance of piglets, but also improve the utilization rate of feed nutrients, especially the utilization rate of feed phosphorus, thereby reducing the excretion of phosphorus in feces.

Disclosed is a piglet feed based on bacteria enzyme synergistic fermentation process. The piglet feed is composed of basic components and bacteria enzyme synergistic fermentation feed. Basic components include soybean protein concentrate, whey powder, fish meal, sodium chloride, choline chloride, stone powder, calcium hydrogen phosphate, composite vitamins, composite trace elements, and composite amino acids. The bacterial enzyme synergistic fermentation feed includes a fermentation substrate, an enzyme preparation, and a bacterial strain. The bacterial enzyme synergistic fermentation feed can not only improve the production performance of piglets, but also improve the utilization rate of feed nutrients, especially the utilization rate of feed phosphorus, thereby reducing the excretion of phosphorus in feces.

This invention discloses an ecological culture method for fish that contains marine barracuda, which places the marine barracuda fry in natural seawater, uses circulating water to dilute the natural sea water step by step, and domesticates the marine barracuda with fresh water; when the salinity of the water body is reduced to 3‰, transferring the fry to the fish culturing pond, and then the freshwater species are introduced, and the ecological culturing and ecological poly-culture model is carried out; during the culturing period, checking the growth of barracuda, adjusting the feeding and/or feeding times, and therefore barracuda reaches the required specifications within the expected time to be on the market.

This invention discloses an ecological culture method for fish that contains marine barracuda, which places the marine barracuda fry in natural seawater, uses circulating water to dilute the natural sea water step by step, and domesticates the marine barracuda with fresh water; when the salinity of the water body is reduced to 3‰, transferring the fry to the fish culturing pond, and then the freshwater species are introduced, and the ecological culturing and ecological poly-culture model is carried out; during the culturing period, checking the growth of barracuda, adjusting the feeding and/or feeding times, and therefore barracuda reaches the required specifications within the expected time to be on the market.

Methods for identifying Methylobacterium strains which can be used to increase mineral nutrient, vitamins, oil and/or protein content in plants are provided. Also provided are related methods of providing seed lots, food ingredients, feed ingredients, food, or feed with increased mineral nutrient, vitamins, oil and/or protein content. Methods of providing increased mineral nutrient and/or vitamin content, and/or increased oil and/or protein yield from plant seed lots are also provided.