CN110037186A - Pig emission reduction health care growth-promoting feedstuff additive - Google Patents

Abstract

The invention discloses boar emission reduction health care growth-promoting feedstuff additives, are mainly made of microelement sucrose complex compound, probiotics, protease and carrier.Feed addictive of the invention is prepared, only each raw material need to uniformly be mixed to obtain the final product, processing transports, is easy to use.The feed addictive has many advantages, such as that natural environmental-protective, green is harmless, works well, and various raw material collective effects can safeguard that animal intestinal tract is allowed to keep good health state, is a kind of environmental-friendly feed addictive.Test proves, emission reduction health care growth-promoting feedstuff additive of the invention is used in swine rearing production process, intestine microenvironment can be improved, promote function of immune system, promote disease resistance, promote the digestion and absorption to feed nutrient, improve efficiency of feed utilization, feed consumption weight gain ratio is reduced, production performance is promoted, reduces the excretion of nitrogen, heavy metal copper and zinc.

Description

Pig emission reduction health care growth-promoting feedstuff additive

Technical field

The invention belongs to feed additive field more particularly to boar emission reduction health care growth-promoting feedstuff additives.

Background technique

The maintenance of the life of animal, growth, development, breeding be required to protein, fat, carbohydrate, minerals and The nutriments such as vitamin, the digestion and absorption for the feed that these nutriments are searched for food from animal, the degree being absorbed and utilized Higher, the efficiency for being converted into animal product is higher, and the waste being discharged with fecaluria is fewer, gets over to the pollution level of environment It is low.Animal is affected by many factors the digestion and absorption of nutritional ingredients various in feed, such as animal species, gender, age, life Reason state, characteristic, compatibility, processing technology, the balance of nutritional ingredient, nutritional ingredient and the non-nutritive ingredient of feedstuff Comprehensive etc., more important is the health of animal gastrointestinal tract, because the digestion and absorption of feed nutrient occurs in stomach for animal Enteron aisle.

Trace copper is one of indispensable element of life, it is related with many functions of body, such as red blood cell Maturation etc..Copper is added in daily ration, can prevent the generation of copper deficiency disease；The copper that high dose is added in pannage can play class Like the growth promoting effect of antibiotic, Feed Manufacturing producer and pig raising owner are mostly to use high-copper additive as raising feed efficiency One of important measures, but seldom consider using adverse effect caused by high doses of copper.

Zinc is that one of necessary microelement, metabolic activity in wide participation body have important life in animal body Function is managed, research has shown that zinc is 16 kinds of microelements necessary to one of most microelement of animal in vivo functionality and animal The most one kind of middle function.For the normal production for maintaining animal, it is necessary to which zinc metabolic homeostasis regulates and controls in keeping body.The oxidation of high dose Zinc is also a kind of good astringent, and high dose adds zinc in feed, can significantly reduce grice diarrhoea rate and improves piglet production Performance.

In aquaculture, environmental pollution substance the most serious is nitrogen, metallic element copper and zinc and antibiotic.One side Face, cupric used, zinc compound are mostly inorganic salts, and animal is very low to its absorptivity, a large amount of unemployed with excreta Discharge becomes pollutant, will pollute to the environment such as soil, water source and food etc., and then influences entire ecological chain.In excrement It urinates in pollutant, the organic pollution of most serious is polluted by nitrogen, and the origin cause of formation is mainly that feed protein digests and absorbs rate It is low.Livestock and poultry are used for a long time antibiotic and have induction pathogen generation drug resistance, damage biological internal organs, it is flat to destroy intestinal flora Weighing apparatus reduces the immune function of body itself.In the edible animal food containing antibiotic residue, pathogen generates resistance to people Pharmacological property will be transmitted in the mankind, it is possible to produce antibiotic allergic reaction even shock death, and the chronic of antibiotic is invaded Erosion also results in body physiological parasthenia, if hepatic and renal function declines, intestinal bacilli illness, and immunity function decline etc., more seriously The problem of may be that induction pathogen becomes super pathogen so that people and animals' disease caused by final pasts medical help.

As it can be seen that pig-breeding is badly in need of a kind of product of environmental emission reduction health care growth promoting, fundamentally to solve the above problems, into And fecaluria nitrogen, copper zinc are reduced to the pollution of environment, the generation for avoiding diarrhea of pigs phenomenon, promotion animal growth, improve feed Utilization rate improves cultivation and environmental benefit.

Summary of the invention

The technical problem to be solved in the present invention is to provide boar emission reduction health care growth-promoting feedstuff additives.

In order to solve the above technical problems, the invention adopts the following technical scheme:

Pig emission reduction health care growth-promoting feedstuff additive, mainly by microelement sucrose complex compound, probiotics, protease and load Body composition.

Microelement sucrose complex compound cupric 15mg/g-18mg/g, 45mg/g-60mg/g containing zinc.

Probiotics is the composition of bacillus subtilis and Bu Ladi yeast.

The weight ratio of bacillus subtilis and Bu Ladi yeast is 35~50: 50~65, Bu Ladi yeast 400 in composition Hundred million cfu/ grams, cfu/ grams of bacillus subtilis viable bacteria >=20,000,000,000.

Protease is arazyme, content 340,000IU/kg.

Carrier is the mixture of zeolite powder and maize cob meal.

The weight ratio of zeolite powder and maize cob meal is 30~40:60~70 in mixture.

Above-mentioned pig emission reduction health care growth-promoting feedstuff additive, mainly by microelement sucrose complex compound, probiotics, protease It is formed with carrier, mass percent is respectively microelement sucrose complex compound 30%~40%, probiotics 25%~30%, egg White enzyme 15%~20% and carrier 10%~30%.

The application of above-mentioned pig emission reduction health care growth-promoting feedstuff additive, additive amount of the feed addictive in swine rations are base The 0.3%~0.4% of plinth daily ration.

It is asked for the pollution especially severe of fecaluria manure contamination, especially nitrogen and heavy metal copper zinc in the production of current pig Topic, while a series of problems that the health for reducing pig may cause with growth promoting heavy dependence antibiotic, inventor is through scientific and reasonable Design, after years of researches screening and application verification, have developed boar emission reduction health care growth-promoting feedstuff additive, mainly by Microelement sucrose complex compound, probiotics, protease and carrier composition.Feed addictive of the invention is prepared, it only need to be by each original Material uniformly mixes to obtain the final product, and processing transports, is easy to use.The feed addictive have natural environmental-protective, green it is harmless, work well The advantages that.Wherein,

Copper, Zn-ef ficiency in microelement sucrose complex compound exist in the form of saccharidic complexes, when absorbing, in addition to having it Outside the absorption transporter channel of his organic trace element, more by multiple glycolipids of cell surface, glycoprotein and oligosaccharides channel It absorbs, more there is higher absorption efficiency than inorganic matter copper and zinc concentration Gradient Absorption, housing construction can be efficiently converted into And functional materials, reduce the amount excluded with fecaluria.

Probiotics is the composition of bacillus subtilis and Bu Ladi yeast.Bacillus subtilis can promote beneficial to anaerobic bacteria Growth, and the organic acids such as lactic acid are generated, enteron aisle pH value is reduced, other pathogenic bacteria is inhibited to grow.Cloth Lardy yeast can then promote Into intestinal epithelial cell proliferation and maturation, keep villus longer, crypts is deeper, and intestinal mucosa is promoted to generate immunoglobulin, guarantees intestines The health in road, to improve the digestion of nutriment, absorbability.In addition, two kinds of probiotics itself can synthesize alpha-amylase, egg The enzymes such as white enzyme, lipase, cellulase play a role together with the intracorporal digestive enzymes of animal in alimentary canal, promote to raise The digestion and absorption of nutriment in material reduce excretion pollution.

Protease used is arazyme, is a kind of protein digestibility enzyme, is spider symbiotic microorganism (HY- in the digestive tract 3) a kind of high activity metal protease secreted by, it has the characteristics that be resistant to high temperature and hypersaline environment, wider pH range, And most of bivalent metal ion (such as Z n2+, C u2+) 2+ in animal diets) its enzymatic activity can also be made to improve 2~4 Times, compared with common protease in addition to there is more powerful protein breakdown ability, the digestion of feed protein can also be improved Absorption efficiency.

The mixture of zeolite powder and maize cob meal selected as carrier mainly consider the physicochemical characteristics of the mixture Similar, in favor of being sufficiently mixed and carrying, while there are also certain absorption harmful microbe abilities for zeolite powder.

The above various raw material collective effects, can safeguard that animal intestinal tract is allowed to keep good health state, be a kind of environment friend Good feed addictive.Test proves, uses emission reduction health care growth-promoting feedstuff addition of the invention in swine rearing production process Agent can improve intestine microenvironment, promote function of immune system, promote disease resistance, promote the digestion to feed nutrient It absorbs, improves efficiency of feed utilization, reduce feed consumption weight gain ratio, promote production performance, reduce the excretion of nitrogen, heavy metal copper and zinc.

Specific embodiment

Embodiment 1

Proportion: by weight percent, microelement sucrose complex compound 40%, probiotics 30%, protease 20% and carrier 10%.Wherein, microelement sucrose complex compound cupric 18mg/g, 58mg/g containing zinc.Probiotics is bacillus subtilis and Bradley The weight ratio of the composition of enlightening yeast, bacillus subtilis and Bu Ladi yeast is cfu/ grams of 40: 60, Bu Ladi yeast 40,000,000,000, Cfu/ grams of bacillus subtilis viable bacteria >=20,000,000,000.Protease is arazyme, content 340,000IU/kg.Carrier is zeolite The weight ratio of the mixture of powder and maize cob meal, zeolite powder and maize cob meal is 30:70.Wherein, microelement sucrose complex compound From Nanjing Zeweier Feed Co., Ltd., by Chinese patent application " microelement sucrose complex compound feed addictive And its preparation method and application " production of application number 201410463827.6 (following embodiment is same).

Preparation method: by each component raw material by weight uniformly mixed.

Usage: the use ratio in production perfect compound feed is 0.3%-0.4%.

Embodiment 2

Proportion: by weight percent, microelement sucrose complex compound 35%, probiotics 25%, protease 20% and carrier 20%.Wherein, microelement sucrose complex compound cupric 16mg/g, 55mg/g containing zinc.Probiotics is bacillus subtilis and Bradley The weight ratio of the composition of enlightening yeast, bacillus subtilis and Bu Ladi yeast is cfu/ grams of 50: 50, Bu Ladi yeast 40,000,000,000, Cfu/ grams of bacillus subtilis viable bacteria >=20,000,000,000.Protease is arazyme, content 340,000IU/kg.Carrier is zeolite The weight ratio of the mixture of powder and maize cob meal, zeolite powder and maize cob meal is 35:65.

Preparation method: with embodiment 1.

Usage: with embodiment 1.

Embodiment 3

Proportion: by weight percent, microelement sucrose complex compound 30%, probiotics 25%, protease 15% and carrier 30%.Wherein, microelement sucrose complex compound cupric 15mg/g, 50mg/g containing zinc.Probiotics is bacillus subtilis and Bradley The weight ratio of the composition of enlightening yeast, bacillus subtilis and Bu Ladi yeast is cfu/ grams of 50: 50, Bu Ladi yeast 40,000,000,000, Cfu/ grams of bacillus subtilis viable bacteria >=20,000,000,000.Protease is arazyme, content 340,000IU/kg.Carrier is zeolite The weight ratio of the mixture of powder and maize cob meal, zeolite powder and maize cob meal is 40:60.

Preparation method: with embodiment 1.

Usage: with embodiment 1.

Comparative experiments 1

(1) experimental method

Choose 25 age in days growth and development are good, weight close to (7.5 ± 0.65 kilograms) " Du × length × greatly " miscellaneous guarantor of ternary Pig 180 are educated, being divided into 3 groups according to the principle of completely random, (one group of test, test one group and control group, are referred to as A, B, C Group), every group of 3 repetitions (column) are each to repeat 20, column pig, respectively according to different proportion in basal diet (child care pig stage) Add the feed addictive of embodiment 1；C group is only fed with basal diet.Basal diet is as shown in table 1, and each group diet group is at being shown in Table 2.Feeding period 35 days.

1 basal diet of table composition and trophic level

2 comparative experiments of table, 1 each group daily ration composition

Group	Test pig's head number	Daily ration composition
			A group	60	+ 0.3% additive * of basal diet
B group	60	+ 0.4% additive * of basal diet
			C group	60	Basal diet

*: additive is the feed addictive of embodiment 1

(2) experimental result

(1) feed consumption is weighed and counted when the 35th day of feeding period, the results showed that, compared with C group, two groups of A, B average daily 6.1% and 6.2% is respectively increased in weight gain, dramatically increases (p < 0.05), and the feed consumption weight gain ratio that two groups of A, B reduces by 4.9% respectively With 5.2%, significant decrease (p < 0.05)；And A group and the equal difference of B group is not significant (P > 0.05).

(2) in the 25th day of feeding period, start to carry out digestion trial using endogenous indicator method, to measure feed The excretion rate of copper zinc.A, the excretion rate of B, C group copper is respectively 78.5%, 79.4% and 85.1%, and the excretion rate of two groups of copper of A, B is aobvious It writes and is lower than C group (p < 0.05), and difference is not significant (P > 0.05) between two groups of A, B；A, the excretion rate of B, C group zinc is respectively 74.5%, 75.1% and 84.4%, the excretion rate of two groups of zinc of A, B is substantially less than C group (p < 0.05), and poor between two groups of A, B Different unobvious (P > 0.05).

(3) in 25 days dates of raising, start to carry out digestion trial using endogenous indicator method, to measure feed nitrogen Excretion rate.A, the excretion rate of B, C group feed nitrogen is respectively 18.1%, 17.4% and 21.3%, the excretion of two groups of feed nitrogen of A, B Rate is substantially less than C group (p < 0.05), and indifference (P > 0.05) between two groups of A, B.

(4) in the 21st day of feeding period, random sampling (each to repeat 1, column) analyzes immune globulin to piglet blood-sample withdrawal Bai Hanliang, the results showed that, for A, B group compared with C group, 13.6% and 14.3% is respectively increased in immunoglobulin A (IgA), and difference is aobvious It writes (p < 0.05), and difference is unobvious (P > 0.05) between two groups of A, B；A, B group is compared with C group, and immune globulin G (IgG) points Indescribably high 14.6% and 16.3%, significant difference (p < 0.05), and difference is unobvious (P > 0.05) between two groups of A, B.

(5) in the 21st day of feeding period, random sampling (each to repeat 1, column), to Small Intestine of Piglets villi height and hidden Nest depth be measured the result shows that, A, B, C group villi height are respectively 254.1um, 257.4um and 236.3um, A, B group It is dramatically increased (p < 0.05) with C group, and A group and B group difference is not significant (P > 0.05)；A, B, C group intestinal crypts depth are distinguished For 156.9um, 169.3um and 254.4um, A, B group significantly reduce (p < 0.05) compared with C group, and A group and B group difference are not Significantly (P > 0.05).

(6) entire experimental period, counts diarrhea situation, the results showed that, A, B, C group diarrhea rate are respectively 3.51%, 3.76% He 7.35%, A, B group significantly reduce (p < 0.05) compared with C group, and A group and B group difference is not significant (P > 0.05)；Comparison is real Test 2

(1) experimental method

Choose growth and development is good, weight close to (60.5 ± 3.68 kilograms) " Du × length × greatly " miscellaneous grower pigs of ternary 180, it is divided into 3 groups (one group of tests, test one group and control group, be referred to as D, E, F group) according to the principle of completely random, often 3 repetitions (column) of group, each to repeat 20, column pig, according to different proportion, addition is real in basal diet (grower pigs stage) respectively Apply the feed addictive of example 2；F group is only fed with basal diet.Basal diet is as shown in table 1, and each group diet group is at being shown in Table 3.Raising Phase 35 days.

3 comparative experiments of table, 2 each group daily ration composition

Group	Test pig's head number	Daily ration composition
			D group	60	+ 0.3% additive * of basal diet
E group	60	+ 0.4% additive * of basal diet
			F group	60	Basal diet

*: additive is the feed addictive of embodiment 2

(2) experimental result

(1) in the 35th day of feeding period, weighing and statistics feed consumption, the results showed that, compared with F group, two groups of D, E of average daily increasing High 5.6% and 6.1% is brought up again, (p < 0.05) is dramatically increased, the feed consumption weight gain that two groups of D, E than reducing by 4.3% and respectively 4.9%, significant decrease (p < 0.05)；And D group and the equal difference of E group is not significant (P > 0.05).

(2) in the 25th day of feeding period, start to carry out digestion trial using endogenous indicator method, to measure feed copper zinc Excretion rate.D, the excretion rate of E, F group copper is respectively 79.7%, 80.8% and 86.7%, and the excretion rate of two groups of copper of D, E is significantly low In F group (p < 0.05), and difference is not significant (P > 0.05) between two groups of D, E；D, the excretion rate of E, F group zinc is respectively 73.3%, 74.5% and 83.4%, the excretion rate of two groups of zinc of D, E is substantially less than F group (p < 0.05), and poor between two groups of D, E Different unobvious (P > 0.05).

(3) when the 25th day of feeding period, start to carry out digestion trial using endogenous indicator method, to measure feed nitrogen Excretion rate.D, the excretion rate of E, F group feed nitrogen is respectively 17.8%, 17.3% and 21.1%, the excretion of two groups of feed nitrogen of D, E Rate is substantially less than F group (p < 0.05), and indifference (P > 0.05) between two groups of D, E.

(4) in the 21st day of feeding period, random sampling (each to repeat 1, column) analyzes immune globulin to piglet blood-sample withdrawal Bai Hanliang, the results showed that, for D, E group compared with F group, 12.8% and 14.1% is respectively increased in immunoglobulin A (IgA), and difference is aobvious It writes (p < 0.05), and difference is unobvious (P > 0.05) between two groups of D, E；D, E group is compared with F group, and immune globulin G (IgG) points Indescribably high 13.5% and 15.6%, significant difference (p < 0.05), and difference is unobvious (P > 0.05) between two groups of D, E.

Comparative experiments 3

(1) experimental method

Choose growth and development is good, weight close to (92.5 ± 4.53 kilograms) " Du × length × greatly " miscellaneous grower pigs of ternary 180, it is divided into 3 groups (one group of tests, test one group and control group, be referred to as G, H, I group) according to the principle of completely random, often 3 repetitions (column) of group, each to repeat 20, column pig, according to different proportion, addition is real in basal diet (growing and fattening pigs stage) respectively Apply the feed addictive of example 3；I group is only fed with basal diet.Basal diet is as shown in table 1, and each group diet group is at being shown in Table 4.Raising Phase 35 days.

4 comparative experiments of table, 3 each group daily ration composition

Group	Test pig's head number	Daily ration composition
			G group	60	+ 0.3% additive * of basal diet
H group	60	+ 0.4% additive * of basal diet
			I group	60	Basal diet

*: additive is the feed addictive of embodiment 3

(2) experimental result

(1) feed consumption is weighed and counted when the 35th day of feeding period, the results showed that, compared with I group, two groups of G, H average daily Weight gain improves 4.9% and 5.8%, dramatically increases (p < 0.05)；G, two groups of H of feed consumption weight gain than reducing by 4.1% and respectively 4.3%, significant decrease (p < 0.05)；And G group and the equal difference of H group is not significant (P > 0.05).

(2) when the 25th day of feeding period, start to carry out digestion trial using endogenous indicator method, to measure feed copper The excretion rate of zinc.G, the excretion rate of H, I group copper is respectively 78.8%, 79.2% and 86.1%, and the excretion rate of two groups of copper of G, H is significant Lower than I group (p < 0.05), and difference is not significant (P > 0.05) between two groups of G, H；G, the excretion rate of H, I group zinc is respectively 74.2%, 74.7% and 83.9%, the excretion rate of two groups of zinc of G, H is substantially less than I group (p < 0.05), and poor between two groups of D, E Different unobvious (P > 0.05).

(3) when the 25th day of feeding period, start to carry out digestion trial using endogenous indicator method, to measure feed nitrogen Excretion rate.G, the excretion rate of H, I group feed nitrogen is respectively 18.2%, 17.9% and 22.3%, the excretion of two groups of feed nitrogen of G, H Rate is substantially less than I group (p < 0.05), and indifference (P > 0.05) between two groups of G, H.

Claims (9)

1. boar emission reduction health care growth-promoting feedstuff additive, it is characterised in that mainly by microelement sucrose complex compound, prebiotic Bacterium, protease and carrier composition.

2. pig according to claim 1 emission reduction health care growth-promoting feedstuff additive, it is characterised in that: the microelement sugarcane Saccharidic complexes cupric 16mg/g-18mg/g, 50mg/g-60mg/g containing zinc.

3. pig according to claim 1 emission reduction health care growth-promoting feedstuff additive, it is characterised in that: the probiotics is withered The composition of careless bacillus and Bu Ladi yeast.

4. pig according to claim 3 emission reduction health care growth-promoting feedstuff additive, it is characterised in that: withered in the composition The weight ratio of careless bacillus and Bu Ladi yeast is cfu/ grams of 35~50: 50~65, Bu Ladi yeast 40,000,000,000, withered grass gemma Cfu/ grams of bacillus viable bacteria >=20,000,000,000.

5. pig according to claim 1 emission reduction health care growth-promoting feedstuff additive, it is characterised in that: the protease is spider Spider enzyme, content 340,000IU/kg.

6. pig according to claim 1 emission reduction health care growth-promoting feedstuff additive, it is characterised in that: the carrier is zeolite The mixture of powder and maize cob meal.

7. pig according to claim 6 emission reduction health care growth-promoting feedstuff additive, it is characterised in that: boiled in the mixture The weight ratio of mountain flour and maize cob meal is 30~40:60~70.

8. pig according to claim 1 emission reduction health care growth-promoting feedstuff additive, it is characterised in that mainly by microelement Sucrose complex compound, probiotics, protease and carrier composition, mass percent be respectively microelement sucrose complex compound 30%~ 40%, probiotics 25%~30%, protease 15%~20% and carrier 10%~30%.

9. the application of emission reduction health care growth-promoting feedstuff additive of pig described in claim 1, it is characterised in that feed addictive is in pig Additive amount in daily ration is the 0.3%~0.4% of basic daily ration.