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Bifidobacterium pseudolongum feed additive

A technology for Bifidobacterium pseudolongum and feed additives, which is applied in the field of feed additives, can solve the problems of strict requirements on nutrient components, no direct use of nutritional value by breeding animals, strict anaerobic conditions, etc.

Inactive Publication Date: 2018-11-23
JIANGSU QIANYAOTANG GUOYI RES INST CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Compared with lactic acid bacteria, bifidobacteria have the following disadvantages: (1) strict and complex requirements for nutrients, the medium must contain auxin or yeast extract to grow; (2) anaerobic conditions are more stringent; (3) at pH Short survival time in low environment
[0005] In order to keep the pH value in the stomach of the animals relatively constant, so that the fed food can continue to achieve the effect of acidification after entering the small intestine, acidulants such as citric acid, lactic acid, hydrochloric acid, and fumaric acid are often used in the product at the same time, but these acidulants Not only does it directly cause excessive acidity to the part of the microorganisms contained in the additive, which affects the survival of the bacteria, but at the same time, these acidified substances have no nutritional value for direct use of the farmed animals. At the same time, they are harmful to the gastrointestinal The props are very irritating, and its compatible application is not ideal

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0051] Preparation of seabuckthorn freeze-dried powder, prickly pear freeze-dried powder, Physalis freeze-dried powder, blackcurrant freeze-dried powder, cactus freeze-dried powder:

[0052] Take fresh and mature seabuckthorn, prickly pear, physalis, black currant, cactus, remove impurities such as fruit stems and rotten fruits, rinse with 40°C aqueous solution containing 0.1% citric acid by weight, and rinse for 15 minutes under constant stirring. Rinse in pure water for 3 times, remove and dry the water; put seabuckthorn, prickly pear, physalis, blackcurrant, and cactus into plates and put them into the freezer, and quickly cool down to below -45°C; freeze the frozen seabuckthorn and prickly pear respectively , physalis, blackcurrant, and cactus are moved into the sublimation dryer, the sublimation temperature is controlled at -22--32°C, and the vacuum degree is 120-150Pa, so that the material is dried to moisture 100 mesh to obtain freeze-dried seabuckthorn powder, freeze-dr...

Embodiment 2

[0054] Preparation of carbonized eggshell powder:

[0055] First, clean the eggshell, dry the water, put it in an electric oven, and dry it with hot air at 200°C for 2 hours. Spray the prepared salt solution with a weight ratio of 25% on the coarse shell powder (that is, eggshell powder: 25% salt solution = 1:0.5 ratio), mix while spraying, leave it for 6 hours after mixing, and then mix evenly again , and put it aside for another 6 hours; put the impregnated eggshell powder raw material into a rotary carbonization pot, and rotate it at 420°C for 80 minutes until the raw material turns black completely (the carbonization process is provided with an automatic rotating scraper in the carbonization pot) slices to prevent the raw materials from sticking to the pan and agglomerating during the carbonization process); quickly move the carbonized raw materials to the activation furnace, and pass in CO 2 Gas, drive out the air in it, anaerobic activation at 760°C for 80 minutes (set ...

Embodiment 3

[0057] Preparation of carbonized eggshell powder:

[0058] First, clean the eggshell, dry the water, place it in a far-infrared dryer, and dry it at 300°C for 1 hour. After taking it out and letting it cool, grind it into a 30-mesh coarse powder, and put it on the eggshell at a weight ratio of 1:0.5. Spray the prepared salt solution with a weight ratio of 25% on the coarse powder (that is, eggshell powder: 25% salt solution = 1:0.5 ratio), mix while spraying, leave it for 7 hours after mixing, and then mix evenly again, Place it for another 7 hours; put the impregnated eggshell powder raw material into a rotary carbonization pot, and rotate it at 450°C for 70 minutes until the raw material turns black completely (the carbonization process is equipped with an automatic rotating scraper in the carbonization pot) , to prevent the raw materials from sticking to the pan and agglomerating during the carbonization process); quickly move the carbonized raw materials to the activation ...

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Abstract

The invention discloses a bifidobacterium pseudolongum feed additive. The bifidobacterium pseudolongum feed additive is characterized by uniformly mixing bifidobacterium pseudolongum, fructus hippophae rhamnoides freeze-dried powder, Fructus Rosae Roxburghii freeze-dried powder, Calyx seu Fructus Physalis freeze-dried powder, blackcurrant freeze-dried powder, cholla root and stem freeze-dried powder, adding the balance of carbonized egg shell powder, and carrying out composite packaging as follows: every 1000 g of feed additive is added with 1000 to 12000 billions of bifidobacterium pseudolongum, 5-50 g of fructus hippophae rhamnoides freeze-dried powder, 5-50 g of Fructus Rosae Roxburghii freeze-dried powder, 3-30 g of Calyx seu Fructus Physalis freeze-dried powder, 3-30 g of blackcurrant freeze-dried powder and 50-150 g of cholla root and stem freeze-dried powder, and the balance of carbonized egg shell powder. The bifidobacterium pseudolongum feed additive has definite viable coun, is beneficial for user application and quantized selection, utilizes the fructus hippophae rhamnoides freeze-dried powder, the Fructus Rosae Roxburghii freeze-dried powder, the Calyx seu Fructus Physalis freeze-dried powder, the blackcurrant freeze-dried powder, the cholla root and stem freeze-dried powder and the carbonized egg shell powder as substrates of the additive, can improve stability, trophism and adsorption of thalli contained in the additive, improves the nutrient value of the product, promotes metabolism of animals, improves disease resistances of the organisms, promotes growth of the animals, and finally improves economic benefits of the livestock breeding.

Description

technical field [0001] The invention belongs to the field of feed additives, and relates to a Bifidobacterium biological feed additive for breeding animals. In particular, it relates to a bifidobacterium pseudolongum feed additive. Background technique [0002] Bifidobacterium was first isolated by Tissier in 1899 and is a Gram-positive bacillus. There are more than 30 known species of Bifidobacterium. Compared with lactic acid bacteria, bifidobacteria have the following disadvantages: (1) strict and complex requirements for nutrients, the medium must contain auxin or yeast extract to grow; (2) anaerobic conditions are more stringent; (3) at pH The survival time is short in low environment. Bifidobacteria can ferment sugars to produce a large amount of acetic acid and lactic acid, thereby inhibiting the growth and reproduction of potentially pathogenic Enterobacteriaceae and gradually achieving the balance of intestinal microorganisms. When the animal breeding environmen...

Claims

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Application Information

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IPC IPC(8): A23K10/18A23K10/30A23K20/20A23K20/24A61K33/44A61K35/57A61P1/12A61P39/02
CPCA61P1/12A61P39/02A23K10/18A23K10/30A23K20/20A23K20/24A61K33/44A61K35/57A23V2400/51
Inventor 张奎昌张志年
Owner JIANGSU QIANYAOTANG GUOYI RES INST CO LTD
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