CN102524538B - Feed leavening agent and fermented feed for promoting growth and liver development of geese - Google Patents

Abstract

The invention belongs to the technical field of feeds for geese, and discloses a feed leavening agent and a fermented feed for promoting the growth and liver development of the geese. The feed leavening agent consists of the following components in percentage by weight: 0.1 to 0.15 percent of bacillus, 0.1 to 0.2 percent of saccharomycetes, 0.3 to 0.4 percent of lactobacillus, 0.2 to 0.3 percent of butyric acid bacteria, 0.05 to 0.1 percent of filiform fungi, 0.5 to 2 percent of aid and the balance of carrier, wherein the bacterial counts of the bacillus in each gram of the leavening agent are1.0*10<9> to 1.5*10<9> colony-forming unit (CFU), the bacterial counts of the saccharomycetes in each gram of the leavening agent are 1.0*10<9> to 2.0*10<9> CFU, the bacterial counts of the lactobacillus in each gram of the leavening agent are 1.0*10<10> to 1.5*10<10> CFU, the bacterial counts of the butyric acid bacteria in each gram of the leavening agent are 4.0*10<9> to 5.0*10<9> CFU, and the bacterial counts of the filiform fungi in each gram of the leavening agent are 0.5*10<9> to 1.5*10<9> CFU. According to the feed leavening agent, antibiotics are not contained in a premix, a formula is reasonable in design, and the components are coordinated organically; and the feed leavening agent is added into the feed for the geese at the fattening stage before force-feeding, so that the development of livers can be promoted, the growth performance and liver-producing performance of the geese can be improved, and a guidance is provided for the goose raising production and the production of the fat livers of the geese.

Description

A kind of feed fermentation agent and fermented feed that promotes goose growth and liver development

Technical field

The invention belongs to the goose field of feed, be specifically related to a kind of feed fermentation agent and fermented feed that promotes goose growth and liver development.

Background technology

The function class of starter is similar to probiotics or probiotics, the fodder crop such as roughage, complete feed and stalk are mainly used in fermenting, the higher material of nutrition that the Substance Transformation that can not absorb animal becomes can absorb, and produce a large amount of proteolytic enzyme, lipase, amylase, cellulolytic enzyme, vitamin B group and vitamin A, D etc., increase profitable strain quantity, suppress or the kill harmful bacterium enhancing body immunizing power.Some scholar's research show that probiotics is improved the day weight gain of animal, improves efficiency of feed utilization, reduces feeding cost, the effect that improves culture benefit.But probiotics is only having seldom a part of documents and materials to be reported in media aspect the research of goose, especially the fattening stage before the goose with fat liver forced-feeding is very few especially.

Summary of the invention

The object of the present invention is to provide a kind of feed fermentation agent and fermented feed that promotes goose growth and liver development.

For achieving the above object, the present invention has taked following technical scheme:

A kind of feed fermentation agent that promotes goose growth and liver development, each component by following weight percent forms: genus bacillus 0.1% ~ 0.15%, yeast 0.1% ~ 0.2%, milk-acid bacteria 0.3% ~ 0.4%, Butylic acid bacteria 0.2% ~ 0.3%, filamentous fungus 0.05% ~ 0.1%, auxiliary agent 0.5% ~ 2%, surplus is carrier, and wherein bacillus living several 1.0 * 10 ⁹~ 1.5 * 10 ⁹The CFU/g starter, yeast viable count 1.0 * 10 ⁹~ 2.0 * 10 ⁹The CFU/g starter, viable count of lactobacillus 1.0 * 10 ¹⁰~ 1.5 * 10 ¹⁰The CFU/g starter, Butylic acid bacteria viable count 4.0 * 10 ⁹~ 5.0 * 10 ⁹The CFU/g starter, filamentous fungus viable count 0.5 * 10 ⁹~ 1.5 * 10 ⁹The CFU/g starter.

Described auxiliary agent is the mineral element mixture, the mineral element mixture of 100g, it consists of: S 1700 ~ 3050mg, Fe 1000 ~ 2000mg, Cu 100 ~ 300mg, Zn 1000 ~ 1800mg, Mn 1000 ~ 1500mg, I 300 ~ 800mg, Se 200 ~ 500mg, surplus is zeolite powder.

In the mineral element mixture, each mineral element can be provided by corresponding common feedstuffs level mineral additive known in this field, such as Fe by FeSO ₄Provide, Cu is by CuSO ₄Provide, Zn is by ZnSO ₄Provide, Mn is by MnSO ₄Provide, I is provided by KI, and Se is by Na ₂SeO ₃Provide, S is aforementioned FeSO ₄, CuSO ₄, ZnSO ₄, MnSO ₄The summation of middle S.

Described carrier is defatted rice bran.

The granularity of defatted rice bran is 30 ~ 80 orders.

Feed fermentation agent preparation method: above each component is mixed directly gets final product.

A kind of fermented feed that utilizes the feed fermentation agent preparation of the growth of aforementioned promotion goose and liver development makes by the following method: adding accounts for the starter of the water, 0.9 ‰ of its weight 35% ~ 45% ~ 1.5 ‰ in the basal diet, and then sealing and fermenting namely makes fermented feed.Preferred 35 ~ 37 ℃ of leavening temperature, the preferred 36 ~ 48h of fermentation time.

The weight percent of described basal diet consists of: corn 60.00% ~ 66.50%, dregs of beans 14.00% ~ 18.00%, wheat bran 10.00% ~ 15.00%, fodder yeast 2.50% ~ 4.00%, fish meal 2.00% ~ 3.00%, Preblend 5.00%, wherein, described fish meal gross protein value is 60.00% ~ 65.00%(mass percent).

The Preblend of 100g, it consists of:

VA 3600 ~ 4000IU, VD ₃920 ~ 1200IU, VE 800 ~ 1100IU, VK 80 ~ 100mg, VB ₁80 ~ 110mg, VB ₂240 ~ 320mg, VB ₆160 ~ 240mg, VB ₁₂0.8 ~ 1.0mg, nicotinic acid 1800 ~ 2400mg, pantothenic acid 480 ~ 720mg, folic acid 40 ~ 60mg, vitamin H 4.0 ~ 6.4mg, choline chloride 60 6.0 ~ 9.2g, Cu 20 ~ 32mg, Fe 220 ~ 260mg, Mn 160 ~ 200mg, Zn 200 ~ 240mg, Se 0.50 ~ 0.80mg, I 0.6 ~ 1.0mg, Ca 24 ~ 32g, P 9.0 ~ 11.0g, surplus is zeolite powder.

Preblend does not contain microbiotic in the feed fermentation agent of the present invention, and formulating of recipe is reasonable, and organic coordination between the each component adds in the feed of the stage of fattening before the goose forced-feeding, can promote liver development, improve the growth performance of goose and produce the liver performance, goose produces and fat goose liver production provides guidance in order to support.

Embodiment

For genus bacillus, milk-acid bacteria, yeast, Butylic acid bacteria, filamentous fungus, conventional commercial bacterial strain all can be used for the present invention, and used each bacterial strain in following examples is bought in Institute of Microorganism, Academia Sinica.

Embodiment 1

The agent of 100g feed fermentation: genus bacillus 0.1g, yeast 0.1g, milk-acid bacteria 0.3g, Butylic acid bacteria 0.2g, filamentous fungus 0.05g, auxiliary agent 0.5g, surplus is carrier, wherein bacillus living several 1.0 * 10 ⁹The CFU/g starter, yeast viable count 1.0 * 10 ⁹The CFU/g starter, viable count of lactobacillus 1.0 * 10 ¹⁰The CFU/g starter, Butylic acid bacteria viable count 4.0 * 10 ⁹The CFU/g starter, filamentous fungus viable count 0.5 * 10 ⁹The CFU/g starter; Described auxiliary agent is the mineral element mixture, the mineral element mixture of 100g, and it consists of: S 1700mg, Fe 1000mg, Cu 100mg, Zn 1000mg, Mn 1000mg, I 300mg, Se 200mg, surplus is zeolite powder, and Fe is by FeSO ₄Provide, Cu is by CuSO ₄Provide, Zn is by ZnSO ₄Provide, Mn is by MnSO ₄Provide, I is provided by KI, and Se is by Na ₂SeO ₃Provide, S is aforementioned FeSO ₄, CuSO ₄, ZnSO ₄, MnSO ₄The summation of middle S; Described carrier is defatted rice bran, and granularity is 30 orders.Above each component is mixed directly namely gets the feed fermentation agent.

The 1000g basal diet: corn 665g, dregs of beans 140g, wheat bran 100g, fodder yeast 25g, fish meal 20g, Preblend 50g, wherein, the gross protein value of described fish meal is 62.5%, the wherein Preblend of 100g, it consists of: VA 3600 IU, VD ₃920IU, VE 800IU, VK 80mg, VB ₁80mg, VB ₂240mg, VB ₆160mg, VB ₁₂0.8mg, nicotinic acid 1800mg, pantothenic acid 480mg, folic acid 40mg, vitamin H 4.0mg, choline chloride 60 6.0g, Cu 20mg, Fe 220mg, Mn 160mg, Zn 200mg, Se 0.5mg, I 0.6mg, Ca 24g, P 9.0g, surplus is zeolite powder.Above each component is mixed directly namely gets basal diet, its trophic level is: metabolizable energy 11.49MJ/kg, crude protein 15.08%, Methionin 0.7%, methionine(Met) 0.5%, calcium 1.2%, total phosphorus 0.8%.

Fermented feed: add the water of 350g, the feed fermentation agent of 1g in above-mentioned basal diet, then 35 ℃ of sealing and fermenting 48h namely make fermented feed.

Embodiment 2

The agent of 100g feed fermentation: genus bacillus 0.12g, yeast 0.15g, milk-acid bacteria 0.35g, Butylic acid bacteria 0.25g, filamentous fungus 0.07g, auxiliary agent 1g, surplus is carrier, wherein bacillus living several 1.2 * 10 ⁹The CFU/g starter, yeast viable count 1.5 * 10 ⁹The CFU/g starter, viable count of lactobacillus 1.2 * 10 ¹⁰The CFU/g starter, Butylic acid bacteria viable count 4.5 * 10 ⁹The CFU/g starter, filamentous fungus viable count 1 * 10 ⁹The CFU/g starter; Described auxiliary agent is the mineral element mixture, the mineral element mixture of 100g, and it consists of: S 2390mg, Fe 1500mg, Cu 200mg, Zn 1500mg, Mn 1200mg, I 500mg, Se 400mg, surplus is zeolite powder, and Fe is by FeSO ₄Provide, Cu is by CuSO ₄Provide, Zn is by ZnSO ₄Provide, Mn is by MnSO ₄Provide, I is provided by KI, and Se is by Na ₂SeO ₃Provide, S is aforementioned FeSO ₄, CuSO ₄, ZnSO ₄, MnSO ₄The summation of middle S; Described carrier is defatted rice bran, and granularity is 60 orders.Above each component is mixed directly namely gets the feed fermentation agent.

The 1000g basal diet: corn 600g, dregs of beans 170g, wheat bran 120g, fodder yeast 40g, fish meal 20g, Preblend 50g, wherein, described fish meal gross protein value is 62.5%, the wherein Preblend of 100g, it consists of: VA 3800IU, VD ₃1100IU, VE 1000IU, VK 90mg, VB ₁100mg, VB ₂280mg, VB ₆200mg, VB ₁₂0.90mg, nicotinic acid 2000mg, pantothenic acid 600mg, folic acid 50mg, vitamin H 5.0mg, choline chloride 60 7.0g, Cu 26mg, Fe 240mg, Mn 180mg, Zn 220mg, Se 0.6mg, I 0.8mg, Ca 28g, P 10.0g, surplus is zeolite powder.Above each component is mixed directly namely gets its trophic level of basal diet and be: metabolizable energy 11.58MJ/kg, crude protein 15.26%, Methionin 0.72%, methionine(Met) 0.51%, calcium 1.22%, total phosphorus 0.81%.

Fermented feed: add the water of 400g, the feed fermentation agent of 0.9g in above-mentioned basal diet, then 36 ℃ of sealing and fermenting 36h namely make fermented feed.

Embodiment 3

The agent of 100g feed fermentation: genus bacillus 0.15g, yeast 0.2g, milk-acid bacteria 0.4g, Butylic acid bacteria 0.3g, filamentous fungus 0.1g, auxiliary agent 2g, surplus is carrier, wherein bacillus living several 1.5 * 10 ⁹The CFU/g starter, yeast viable count 2.0 * 10 ⁹The CFU/g starter, viable count of lactobacillus 1.5 * 10 ¹⁰The CFU/g starter, Butylic acid bacteria viable count 5.0 * 10 ⁹The CFU/g starter, filamentous fungus viable count 1.5 * 10 ⁹The CFU/g starter; Described auxiliary agent is the mineral element mixture, the mineral element mixture of 100g, and it consists of: S 3050mg, Fe 2000mg, Cu 300mg, Zn 1800mg, Mn 1500mg, I 800mg, Se 500mg, surplus is zeolite powder, and Fe is by FeSO ₄Provide, Cu is by CuSO ₄Provide, Zn is by ZnSO ₄Provide, Mn is by MnSO ₄Provide, I is provided by KI, and Se is by Na ₂SeO ₃Provide, S is aforementioned FeSO ₄, CuSO ₄, ZnSO ₄, MnSO ₄The summation of middle S; Described carrier is defatted rice bran, and granularity is 80 orders.Above each component is mixed directly namely gets the feed fermentation agent.

The 1000g basal diet: corn 625g, dregs of beans 140g, wheat bran 140g, fodder yeast 25g, fish meal 20g, Preblend 50g, wherein, described fish meal gross protein value is 64.5%, the wherein Preblend of 100g, it consists of: VA 4000IU, VD ₃1200IU, VE 1100IU, VK 100mg, VB ₁110mg, VB ₂320mg, VB ₆240mg, VB ₁₂1.0mg, nicotinic acid 2400mg, pantothenic acid 720mg, folic acid 60mg, vitamin H 6.4mg, choline chloride 60 9.2g, Cu 32mg, Fe 260mg, Mn 200mg, Zn 240mg, Se 0.80mg, I 1.00mg, Ca 32g, P 11.0g, surplus is zeolite powder.Above each component is mixed directly namely gets its trophic level of basal diet and be: metabolizable energy 11.62MJ/kg, crude protein 15.12%, Methionin 0.72%, methionine(Met) 0.52%, calcium 1.23%, total phosphorus 0.82%.

Fermented feed: add the water of 450g, the feed fermentation agent of 1.5g in above-mentioned basal diet, then 37 ℃ of sealing and fermenting 40h namely make fermented feed.

Performance test

The fermented feed that test group feed: embodiment 1 produces; Control group feed (not with the starter blank): add the water of 350g in the basal diet of embodiment 1, then 35 ℃ of sealing and fermenting 48h namely make the control group feed.

Experimental animal and grouping: 120 of the healthy bright moral ganders of 70 age in days body weight, 4.12 ~ 4.25kg are chosen in test, are divided at random 2 treatment group (test group and control group), every group of 6 repetitions, and each repeats 10 geese.

The feeding and management stage of fattening before the goose forced-feeding: and to goose only drive coccidia process sterilizations such as colony house, hopper, drinking troughs the stage of fattening before the forced-feeding.Be 21 days the stage of fattening, adopts ground flat foster, free choice feeding and drinking-water.Test group and control group feed respectively fermented feed and control group feed, after trial period, finish, after each repeats fasting (guaranteeing freely to drink water) 12h, the goose of 1 medium body weight of random choose is butchered, claim that carcass is heavy and liver is heavy, calculate average food consumption, day weight gain, material anharmonic ratio, the liver of the bright moral goose of test and slaughter ratio.

The forced-feeding phase feeding and management of forced-feeding goose: kept original grouping to change the forced-feeding house over to after the stage of fattening, feeding experiment finished, each repeats 9, amounts to 108, freely drinks water during the forced-feeding, keeps house inner drying, ventilation, cleaning.Gently grab in the forced-feeding process and only put down goose gently, note observing the healthy state of goose.Test group and control group are at the identical feed of forced-feeding phase forced-feeding (Semen Maydis of namely boiling), and all test geese carry out forced-feeding, forced-feeding 21 ~ 24 days by the same skilled forced-feeding person in position.Open and fill out in 1 week, increase gradually forced-feeding number of times and each forced-feeding amount according to the digestion situation of goose and temperature Change, the forced-feeding number of times of every day is increased to 5 times gradually by 3 times; Treat that goose adapts to after the forced-feeding, every day is forced-feeding 5 times regularly, the diet about every each forced-feeding 220 g of goose.The forced-feeding phase butchers behind fasting (the freely drinking water) 8h when finishing, and claims carcass heavy, and the record liver is heavy, calculates liver and slaughters ratio.

Test-results sees Table 1 ~ 5.

As known from Table 1: fermented feed of the present invention can significantly improve body weight gains and food consumption, significantly reduces feed consumption weightening finish ratio, improves fanning economics.

As known from Table 2: fermented feed of the present invention can significantly improve liver and carcass ratio heavily, promotes liver development, improves the uniformity coefficient of liver, significantly improves leg flesh rate, increases meat production, significantly improves fabricius bursa index.

As known from Table 3: fermented feed of the present invention can significantly reduce serum triglyceride concentration, and the performance reducing blood lipid significantly improves aspartic transaminase activity and total protein concentration, improves protein metabolism and the deposition of body, enhancing development; Significantly improve sphaeroprotein concentration.

As known from Table 4: fermented feed of the present invention can significantly improve later stage bright moral goose product liver weight, significantly improves the heavy ratio of liver weight and carcass, the product liver performance behind the raising later stage forced-feeding.

As known from Table 5: the fermented feed that uses the technology of the present invention the to produce bright moral goose of feeding, significantly improve the ratio of enteron aisle height of naps and height of naps/crypts degree of depth, improve nutrition absorption area and Nutrients Digestion specific absorption.

Claims (5)

1. feed fermentation agent that promotes goose growth and liver development, it is characterized in that being formed by the each component of following weight percent: genus bacillus 0.1% ~ 0.15%, yeast 0.1% ~ 0.2%, milk-acid bacteria 0.3% ~ 0.4%, Butylic acid bacteria 0.2% ~ 0.3%, filamentous fungus 0.05% ~ 0.1%, auxiliary agent 0.5% ~ 2%, surplus is carrier, and wherein bacillus living several 1.0 * 10 ⁹~ 1.5 * 10 ⁹The CFU/g starter, yeast viable count 1.0 * 10 ⁹~ 2.0 * 10 ⁹The CFU/g starter, viable count of lactobacillus 1.0 * 10 ¹⁰~ 1.5 * 10 ¹⁰The CFU/g starter, Butylic acid bacteria viable count 4.0 * 10 ⁹~ 5.0 * 10 ⁹The CFU/g starter, filamentous fungus viable count 0.5 * 10 ⁹~ 1.5 * 10 ⁹The CFU/g starter; Described auxiliary agent is the mineral element mixture, the mineral element mixture of 100g, it consists of: S 1700 ~ 3050mg, Fe 1000 ~ 2000mg, Cu 100 ~ 300mg, Zn 1000 ~ 1800mg, Mn 1000 ~ 1500mg, I 300 ~ 800mg, Se 200 ~ 500mg, and surplus is zeolite powder; Described carrier is granularity 30 ~ 80 purpose defatted rice brans.

2. feed fermentation agent as claimed in claim 1, it is characterized in that: Fe is by FeSO ₄Provide, Cu is by CuSO ₄Provide, Zn is by ZnSO ₄Provide, Mn is by MnSO ₄Provide, I is provided by KI, and Se is by Na ₂SeO ₃Provide, S is aforementioned FeSO ₄, CuSO ₄, ZnSO ₄, MnSO ₄The summation of middle S.

3. one kind is utilized the fermented feed that promotes the feed fermentation agent preparation of goose growth and liver development as claimed in claim 1 or 2, it is characterized in that making by the following method: the starter that adds the water, 0.9 ‰ account for its weight 35% ~ 45% ~ 1.5 ‰ in the basal diet, then sealing and fermenting namely makes fermented feed.

4. fermented feed as claimed in claim 3, the weight percent that it is characterized in that described basal diet consists of: corn 60.00% ~ 66.50%, dregs of beans 14.00% ~ 18.00%, wheat bran 10.00% ~ 15.00%, fodder yeast 2.50% ~ 4.00%, fish meal 2.00% ~ 3.00%, Preblend 5.00%, wherein, the gross protein value of described fish meal is 60.00% ~ 65.00%.

5. fermented feed as claimed in claim 4 is characterized in that: the Preblend of 100g, and it consists of:

VA 3600 ~ 4000IU, VD ₃920 ~ 1200IU, VE 800 ~ 1100IU, VK 80 ~ 100mg, VB ₁80 ~ 110mg, VB ₂240 ~ 320mg, VB ₆160 ~ 240mg, VB ₁₂0.8 ~ 1.0mg, nicotinic acid 1800 ~ 2400mg, pantothenic acid 480 ~ 720mg, folic acid 40 ~ 60mg, vitamin H 4.0 ~ 6.4mg, choline chloride 60 6.0 ~ 9.2g, Cu 20 ~ 32mg, Fe 220 ~ 260mg, Mn 160 ~ 200mg, Zn 200 ~ 240mg, Se 0.50 ~ 0.80mg, I 0.6 ~ 1.0mg, Ca 24 ~ 32g, P 9.0 ~ 11.0g, surplus is zeolite powder.