CN103355484A - Feed for meat duck with low abdominal fat rate - Google Patents
Feed for meat duck with low abdominal fat rate Download PDFInfo
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- CN103355484A CN103355484A CN2013101912645A CN201310191264A CN103355484A CN 103355484 A CN103355484 A CN 103355484A CN 2013101912645 A CN2013101912645 A CN 2013101912645A CN 201310191264 A CN201310191264 A CN 201310191264A CN 103355484 A CN103355484 A CN 103355484A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02P60/87—Re-use of by-products of food processing for fodder production
Abstract
The invention discloses a feed for a meat duck with low abdominal fat rate. The feed is prepared from a first stage of feed, a second stage of feed and a third stage of feed, wherein the first stage of feed is prepared from the following materials: wheat, bean pulp, cottonseed meal, peanut meal, corn gluten meal, salt, mountain flour, calcium hydrophosphate, lysine, methionine, threonine, thermostable phytase, thermostable composite enzyme, first stage of multivitamin, micro-minerals and bilineurine; the second stage of feed is prepared by adding vinasse, maize embryo cakes, rapeseed meal, lard oil, bone meal, second stage of multivitamin and glutamate thalli protein on the basis of removing the corn gluten meal, bean pulp, peanut meal, calcium hydrophosphate and the first stage of multivitamin from the materials of the first stage of feed,; the third stage of feed is prepared from third stage of multivitamin instead of the second stage of multivitamin, and other materials in the second stage of feed. The meat duck fed by the feed is low in abdominal fat rate, and good in net body; according to the feed, by-products and leftovers are reasonably utilized; the composite cost is low.
Description
Technical field
The present invention relates to a kind of low abdomen fat rate fleshy duck fodder.
Background technology
Foster duck is the conventional industries that China's herding is produced, and also is the important component part that Modern Animal Husbandry is produced.Before the eighties in 2nd 0 century, foster duck is followed traditional feeding manner.And be by the very fast period of expansion of the local duck of extensive feeding to the supplement of feed under grazing condition Hybrid Duck eighties, and be the high-speed development period of large-scale breeding breeding meat duck the nineties.The meat duck has grow rapid, price of deed high, and in recent years development rapidly.China is in the world a duck amount of livestock on hand and the maximum country of duck output.The World Food Programme's statistics showed in 2005, and China duck amount of livestock on hand is 7.3 hundred million, accounts for 69% of the world, and China's duck output is 2,350,000 tons, accounts for 68% of the world.
Along with developing rapidly of modern meat duck aquaculture, present gradually intensive, scale, modern characteristics.Characteristics in growth period according to the meat duck are distinguished raising in three stages with it, accordingly feed are divided into brood time feed (0-18 days), finishing period feed (18-32 days), growth later stage feed (32-delivers for sale).Along with socioeconomic development, people's living standard is more and more higher, and more and more stricter to the local flavor requirement of meat, the meat duck of overfertilization is out of favour on market.Therefore, when improving meat duck production performance, improve meat duck carcass quality and just seem very urgent.And pursue simply at present feedstuff-meat ratio, many cereal byproduct can not be utilized, and cost is high, and meat is poor; And improve the lean meat percentage of meat duck, reducing its trunk fat deposition is to support now the key subjects that duck already faces.The low abdomen fat rate fleshy duck fodder of research and development just becomes very necessary with the development need that satisfies aquaculture.According to the growth characteristics of meat duck, the growth of meat duck can be divided into for three stages, the different growth phases different feed of feeding more is conducive to the growth of meat duck, purpose Given this, we have developed low abdomen fat rate fleshy duck fodder.
Summary of the invention
The purpose of this invention is to provide a kind of lean meat percentage that can reach target weight, raising meat duck, reduce the fleshy duck fodder of its trunk fat deposition.
To achieve these goals, low abdomen fat rate fleshy duck fodder provided by the present invention is made of one-phase feed, two-stage feed and three stage feeds;
The ratio range of described one-phase feedstuff composition raw material comprises in weight portion: wheat 70-80 part, dregs of beans 10-15 part, cotton dregs 4-5 part, peanut meal 2-4 part, corn protein powder 1-1.5 part, salt 0.3-0.4 part, stone flour 1.2-1.5 part, calcium monohydrogen phosphate 1-1.3 part, lysine 0.65-0.8 part, methionine 0.2-0.3 part, threonine 0.1-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, one-phase multidimensional 0.15-0.2 part, little ore deposit 0.15-0.2 part, choline 0.1-0.15 part;
The ratio range of described two-stage feedstuff composition raw material comprises in weight portion: 70-80 parts of wheats, cotton dregs 3-4 part, vinasse 10-20 part, maize germ cake 3-5 part, lard 2-3 part, dish dregs of rice 3-4 part salt 0.3-0.4 part, stone flour 0.8-1.2 part, bone meal 1-2 part, monosodium glutamate mycoprotein 1-2 part, lysine 0.65-0.85 part, methionine 0.05-0.2 part, threonine 0.05-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, two-stage multidimensional 0.15-0.2 part, little ore deposit 0.15-0.2 part, choline 0.1-0.15 part;
The ratio range of described three stage feedstuff composition raw materials comprises in weight portion: 70-80 parts of wheats, domestic vinasse 10-20 part, maize germ cake 4-6 part, lard 2-3 part, dish dregs of rice 3-4 part, salt 0.3-0.4 part, stone flour 0.8-1.2 part, bone meal 1-2 part, monosodium glutamate mycoprotein 1-2 part, lysine 0.6-0.75 part, methionine 0.04-0.15 part, threonine 0.04-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, three stage multidimensional 0.15-0.2 parts, little ore deposit 0.15-0.2 part, choline 0.06-0.1 part;
Described one-phase multidimensional is for containing by weight the mixture of following component: 13 parts of vitamin As, 3.8 parts of cholecalciferols, 45 parts in nicotinic acid, 5 parts of vitamin B1s, 3 parts of prokeyvits, 25 parts of vitamin Es, 14 parts of D-VB5s, 8 parts of vitamin B2s, 14 parts of vitamin B6s, 15 parts of cobalamins, 300 parts of powdered rice hulls;
Described two-stage multidimensional is for containing by weight the mixture of following component: 55 parts of vitamin As, 3.5 parts of cholecalciferols, 50 parts in nicotinic acid, 4 parts of prokeyvits, 35 parts of vitamin Es, 14 parts of D-VB5s, 4.5 parts of vitamin B1s, 10 parts of vitamin B2s, 14 parts of vitamin B6s, 13 parts of cobalamins, 300 parts of powdered rice hulls;
Described three stage multidimensional are for containing by weight the mixture of following component: 50 parts of vitamin As, 3.5 parts of cholecalciferols, 40 parts in nicotinic acid, 4 parts of prokeyvits, 30 parts of vitamin Es, 10 parts of D-VB5s, 4.5 parts of vitamin B1s, 10 parts of vitamin B2s, 13 parts of vitamin B6s, 13 parts of cobalamins, 300 parts of powdered rice hulls;
Described little ore deposit is the mixture that contains by weight following component: 15 parts of copper, 110 parts of iron, 125 parts in manganese, 110 parts on zinc, 300 parts of stone flours.
On the basis of technique scheme, improved technical scheme is:
The optimum ratio scope of described one-phase feedstuff composition raw material is counted with weight portion: wheat 75-80 part, dregs of beans 11-14 part, cotton dregs 4.5-5 part, peanut meal 2.5-3 part, corn protein powder 1.2-1.5 part, salt 0.3-0.4 part, stone flour 1.2-1.5 part, calcium monohydrogen phosphate 1-1.3 part, lysine 0.65-0.8 part, methionine 0.2-0.25 part, threonine 0.1-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, one-phase multidimensional 0.15-0.2 part, little ore deposit 0.15-0.2 part, choline 0.08-0.13 part;
The optimum ratio scope of described two-stage feedstuff composition raw material is counted with weight portion: wheat 73-80 part, cotton dregs 3-3.6 part, vinasse 12-18 part, maize germ cake 3-4.5 part, lard 2.5-3 part, domestic dish dregs of rice 3-3.5 part salt 0.3-0.4 part, stone flour 0.8-1.2 part, bone meal 1-2 powder, monosodium glutamate mycoprotein 1-1.8 part, lysine 0.68-0.83 part, methionine 0.05-0.19 part, threonine 0.05-0.18 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, multidimensional 0.15-0.18 part, little ore deposit 0.15-0.18 part, choline 0.1-0.13 part;
The optimum ratio scope of described three stage feedstuff composition raw materials is counted with weight portion: wheat 75-78 part, vinasse 13-16 part, maize germ cake 4-5.5 part, lard 2.2-2.8 part, dish dregs of rice 3-3.5 part salt 0.3-0.4 part, stone flour 0.8-1.2 part, bone meal 1-2 part, monosodium glutamate mycoprotein 1.5-1.8 part, lysine 0.63-0.73 part, methionine 0.04-0.14 part, threonine 0.04-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.018-0.02 part, three stage multidimensional 0.16-0.2 parts, little ore deposit 0.16-0.2 part, choline 0.06-0.1 part.
On the basis of technique scheme, further improved technical scheme is:
The optimum weight proportioning of described one-phase feedstuff composition raw material is: 76 parts of wheats, 12.5 parts of dregs of beans, 4.6 parts of cotton dregs, 2.8 parts of peanut meals, 1.4 parts of corn protein powders, 0.3 part of salt, 1.4 parts of stone flours, 1.2 parts of calcium monohydrogen phosphates, 0.75 part of lysine, 0.21 part of methionine, 0.15 part of threonine, 0.012 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.2 part of one-phase multidimensional, 0.2 part in little ore deposit, 0.1 part in choline;
The optimum weight proportioning of described two-stage feedstuff composition raw material is: 75 parts of wheats, 3.4 parts of cotton dregs, 12 parts in vinasse, 3.5 parts of maize germ cakes, 2.5 parts of lards, 3.5 parts of the dish dregs of rice, 0.32 part of salt, 0.98 part of stone flour, 1.3 parts of bone meal, 1.5 parts of monosodium glutamate mycoproteins, 0.68 part of lysine, 0.08 part of methionine, 0.12 part of threonine, 0.012 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.18 part of two-stage multidimensional, 0.18 part in little ore deposit, 0.1 part in choline;
The optimum weight proportioning of described three stage feedstuff composition raw materials is: 78 parts of wheats, 16 parts in vinasse, 5.3 parts of maize germ cakes, 2.6 parts of lards, 3.5 parts of the dish dregs of rice, 0.35 part of salt, 0.82 part of stone flour, 1.3 parts of bone meal, 1.8 parts of monosodium glutamate mycoproteins, 0.63 part of lysine, 0.08 part of methionine, 0.07 part of threonine, 0.012 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.18 part of three stage multidimensional, 0.18 part in little ore deposit, 0.08 part in choline.
The present invention distinguishes raising according to the characteristics in growth period of meat duck in three stages with it, accordingly feed is divided into brood time feed (1-18 days), finishing period feed (19-32 days), growth later stage feed (33 days-deliver for sale).According to three growth period nutritional characteristic, choose and can reduce meat duck abdomen fat rate, alleviate fat deposition, improve lean meat percentage, and can take into account the raw material of the speed of growth.Low abdomen fat rate fleshy duck fodder is served as theme with the byproduct of wheat and wheat, cereal, corn etc., is aided with an amount of lysine, methionine, threonine, enzyme preparation, multivitamin, various trace elements etc. quality raw materials are composite to form.To inherit and absorbing the Rational Composition of traditional Ration formulation technology and the basis of summing up in the world low abdomen fat rate meat duck nutrient research latest developments achievement develops.Take amino acid balance, rational calorie-protein ratio as the basis, break away from the low feedstuff-meat ratio of only pursuit and cause the problems such as meat flavor is poor, abdomen fat rate height.The reduction of abdomen fat rate also reduces feed waste, has reduced feed cost, guarantees raiser's interests.Represented following meat duck cultivation developing direction.
For the meat duck, the raw material digestibilities such as the wheat in the prescription, cotton dregs, vinasse, maize germ cake, the dish dregs of rice, monosodium glutamate mycoprotein are higher, and heat increment is low, can alleviate fowl and animal thermal stress, therefore livestock and poultry can be in comfort conditions under hot environment, namely improved heat resistance, the loss of avoiding heat stress to bring not only reduces fat deposition but also guarantee the meat duck speed of growth on the basis that reduces feed cost.
Several seed amino acids that add can improve the Dietary Amino Acid balance, replenish the deficiency of diet limiting amino acid, improve Protein utilization, promote growth of animal; And can improve meat quality, reduce fat deposition.The enzyme preparation of adding can reduce alimentary canal chyme viscosity, improves the nutrient digestion absorptivity.Consist of the SNSP class material of plant cell wall, can increase the viscosity of alimentary canal chyme in conjunction with a large amount of water, nutriment can not fully be contacted with endogenous digestive ferment, reduced the digestive utilization ratio of the nutriments such as protein, starch.Add enzyme preparation in the feed, can destroy chyme hydration shell on every side, increase the contact-making surface of chyme and enzyme and small intestine, improve digestibility, the elimination ANFs of nutriment.ANFs extensively is present in all feeds raw material in the feed, they affect digesting and assimilating of nutriment and metabolism directly or indirectly, and enzyme preparation can partly or entirely be eliminated the harmful effect of these ANFs, replenishes the deficiency of endogenous enzymes, activates the secretion of endogenous enzymes.
The used raw material of the present invention is the raw material of selling on the market, and wherein high temperature resistant complex enzyme is the product of Hunan Youteer Biochemical Co., Ltd.; High temperature resistant phytase is the product of sunrise ocean, Beijing development in science and technology Co., Ltd, and stone flour is the product of Zibo hat space silica flour factory, and its calcium content is preferably 36-38%; Certainly above-mentioned raw materials also can adopt the product of other companies; The protein content of vinasse is preferably 26-28%, and fat content is preferably 9-11%.
The present invention mainly contains following advantage: 1, abdomen fat rate is low: compare with high-level daily grain of meat duck in the past, abdomen fat rate can reduce 6-10%.2, clean body is good: low abdomen fat rate fleshy duck fodder facts have proved that lean meat percentage is high, and fat content reduces.
3, rationally utilize accessory substance, leftover bits and pieces: the high-level daily ration of in the past pursuing low feedstuff-meat ratio much assorted raw material choose is not gone up, and cause the wasting of resources, and low abdomen fat rate fleshy duck fodder has rationally utilized these raw materials, makes the best use of everything.4, integrated cost is low: low abdomen fat rate fleshy duck fodder integrated cost and risk cost are all well below present high-level fleshy duck fodder.
Preparation method of the present invention adopts the common process method of the art, and every one-phase feed prepares respectively.The below only describes as an example of preparation one-phase feed example: 1. the raw material that particle diameter is larger, and namely by proportion relation wheat, dregs of beans, cotton dregs, peanut meal and corn protein powder are sent into pulverizer and pulverize, make mixed material; 2. the raw material that will need not pulverize is manually allocated, and namely by prescription salt, stone flour, calcium monohydrogen phosphate, lysine, methionine, threonine, high temperature resistant phytase, high temperature resistant complex enzyme, choline, one-phase multidimensional and Wei Kuang manually is deployed into mixed spices; 3. mixed material and mixed spices are put into mixer and mix, just can be made into the one-phase feed through the modified granulation of high temperature or broken kernel.The preparation method of two-stage feed and three stage feeds is identical with the one-phase feed.The granular size of each stage feed is with diameter (mm) * length (mm) expression, and through test, the granular size of one to three stage feed preferably is respectively: 3.0 * 6.0,4.5 * 8.0,3.0 * 6.0,4.5 * 8.0.
The specific embodiment
Embodiment 1
Low abdomen fat rate fleshy duck fodder is made of one-phase feed, two-stage feed and three stage feeds.
The weight proportion of one-phase feedstuff composition raw material is: 76 parts of wheats, 12.5 parts of dregs of beans, 4.6 parts of cotton dregs, 2.8 parts of peanut meals, 1.4 parts of corn protein powders, 0.3 part of salt, 1.4 parts of stone flours, 1.2 parts of calcium monohydrogen phosphates, 0.75 part of lysine, 0.21 part of methionine, 0.15 part of threonine, 0.012 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.2 part of one-phase multidimensional, 0.2 part in little ore deposit, 0.1 part in choline.
The weight proportion of two-stage feedstuff composition raw material is: 75 parts of wheats, 3.4 parts of cotton dregs, 12 parts in vinasse, 3.5 parts of maize germ cakes, 2.5 parts of lards, 3.5 parts of the dish dregs of rice, 0.32 part of salt, 0.98 part of stone flour, 1.3 parts of bone meal, 1.5 parts of monosodium glutamate mycoproteins, 0.68 part of lysine, 0.08 part of methionine, 0.12 part of threonine, 0.012 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.18 part of two-stage multidimensional, 0.18 part in little ore deposit, 0.1 part in choline.
The weight proportion of three stage feedstuff composition raw materials is: 78 parts of wheats, 16 parts in vinasse, 5.3 parts of maize germ cakes, 2.6 parts of lards, 3.5 parts of the dish dregs of rice, 0.35 part of salt, 0.82 part of stone flour, 1.3 parts of bone meal, 1.8 parts of monosodium glutamate mycoproteins, 0.63 part of lysine, 0.08 part of methionine, 0.07 part of threonine, 0.012 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.18 part of three stage multidimensional, 0.18 part in little ore deposit, 0.08 part in choline.
Embodiment 2
Low abdomen fat rate fleshy duck fodder is made of one-phase feed, two-stage feed and three stage feeds.
The weight proportion of one-phase feedstuff composition raw material is: 70 parts of wheats, 10 parts of dregs of beans, 4 parts of cotton dregs, 2 parts of peanut meals, 1 part of corn protein powder, 0.3 part of salt, 1.2 parts of stone flours, 1 part of calcium monohydrogen phosphate, 0.65 part of lysine, 0.2 part of methionine, 0.1 part of threonine, 0.01 part of high temperature resistant phytase, 0.015 part of high temperature resistant complex enzyme, 0.15 part of one-phase multidimensional, 0.15 part in little ore deposit, 0.1 part in choline.
The weight proportion of two-stage feedstuff composition raw material is: 70 parts of wheats, 3 parts of cotton dregs, 10 parts in vinasse, 3 parts of maize germ cakes, 2 parts of lards, 3 parts of the dish dregs of rice, 0.3 part of salt, 0.8 part of stone flour, 1 part of bone meal, 1 part of monosodium glutamate mycoprotein, 0.65 part of lysine, 0.05 part of methionine, 0.05 part of threonine, 0.01 part of high temperature resistant phytase, 0.015 part of high temperature resistant complex enzyme, 0.15 part of two-stage multidimensional, 0.15 part in little ore deposit, 0.1 part in choline.
The weight proportion of three stage feedstuff composition raw materials is: 70 parts of wheats, 10 parts in vinasse, 4 parts of maize germ cakes, 2 parts of lards, 3 parts of the dish dregs of rice, 0.3 part of salt, 0.8 part of stone flour, 1 part of bone meal, 1 part of monosodium glutamate mycoprotein, 0.6 part of lysine, 0.04 part of methionine, 0.04 part of threonine, 0.01 part of high temperature resistant phytase, 0.015 part of high temperature resistant complex enzyme, 0.15 part of three stage multidimensional, 0.15 part in little ore deposit, 0.06 part in choline.
Embodiment 3
Low abdomen fat rate fleshy duck fodder is made of one-phase feed, two-stage feed and three stage feeds.
The weight proportion of one-phase feedstuff composition raw material is: 80 parts of wheats, 15 parts of dregs of beans, 5 parts of cotton dregs, 4 parts of peanut meals, 1.5 parts of corn protein powders, 0.4 part of salt, 1.5 parts of stone flours, 1.3 parts of calcium monohydrogen phosphates, 0.8 part of lysine, 0.3 part of methionine, 0.2 part of threonine, 0.015 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.2 part of one-phase multidimensional, 0.2 part in little ore deposit, 0.15 part in choline.
The weight proportion of two-stage feedstuff composition raw material is: 80 parts of wheats, 4 parts of cotton dregs, 20 parts in vinasse, 5 parts of maize germ cakes, 3 parts of lards, 4 parts of the dish dregs of rice, 0.4 part of salt, 1.2 parts of stone flours, 2 parts of bone meal, 2 parts of monosodium glutamate mycoproteins, 0.85 part of lysine, 0.2 part of methionine, 0. 2 parts of threonines, 0.015 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.2 part of two-stage multidimensional, 0.2 part in little ore deposit, 0.15 part in choline.
The weight proportion of three stage feedstuff composition raw materials is: 80 parts of wheats, 20 parts in vinasse, 6 parts of maize germ cakes, 3 parts of lards, 4 parts of the dish dregs of rice, 0.4 part of salt, 1.2 parts of stone flours, 2 parts of bone meal, 2 parts of monosodium glutamate mycoproteins, 0.75 part of lysine, 0.15 part of methionine, 0.2 part of threonine, 0.015 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.2 part of three stage multidimensional, 0.2 part in little ore deposit, 0.1 part in choline.
Claims (3)
1. one kind low abdomen fat rate fleshy duck fodder is characterized in that being made of one-phase feed, two-stage feed and three stage feeds;
The ratio range of described one-phase feedstuff composition raw material comprises in weight portion: wheat 70-80 part, dregs of beans 10-15 part, cotton dregs 4-5 part, peanut meal 2-4 part, corn protein powder 1-1.5 part, salt 0.3-0.4 part, stone flour 1.2-1.5 part, calcium monohydrogen phosphate 1-1.3 part, lysine 0.65-0.8 part, methionine 0.2-0.3 part, threonine 0.1-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, one-phase multidimensional 0.15-0.2 part, little ore deposit 0.15-0.2 part, choline 0.1-0.15 part;
The ratio range of described two-stage feedstuff composition raw material comprises in weight portion: 70-80 parts of wheats, cotton dregs 3-4 part, vinasse 10-20 part, maize germ cake 3-5 part, lard 2-3 part, dish dregs of rice 3-4 part salt 0.3-0.4 part, stone flour 0.8-1.2 part, bone meal 1-2 part, monosodium glutamate mycoprotein 1-2 part, lysine 0.65-0.85 part, methionine 0.05-0.2 part, threonine 0.05-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, two-stage multidimensional 0.15-0.2 part, little ore deposit 0.15-0.2 part, choline 0.1-0.15 part;
The ratio range of described three stage feedstuff composition raw materials comprises in weight portion: 70-80 parts of wheats, domestic vinasse 10-20 part, maize germ cake 4-6 part, lard 2-3 part, dish dregs of rice 3-4 part, salt 0.3-0.4 part, stone flour 0.8-1.2 part, bone meal 1-2 part, monosodium glutamate mycoprotein 1-2 part, lysine 0.6-0.75 part, methionine 0.04-0.15 part, threonine 0.04-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, three stage multidimensional 0.15-0.2 parts, little ore deposit 0.15-0.2 part, choline 0.06-0.1 part;
Described one-phase multidimensional is for containing by weight the mixture of following component: 13 parts of vitamin As, 3.8 parts of cholecalciferols, 45 parts in nicotinic acid, 5 parts of vitamin B1s, 3 parts of prokeyvits, 25 parts of vitamin Es, 14 parts of D-VB5s, 8 parts of vitamin B2s, 14 parts of vitamin B6s, 15 parts of cobalamins, 300 parts of powdered rice hulls;
Described two-stage multidimensional is for containing by weight the mixture of following component: 55 parts of vitamin As, 3.5 parts of cholecalciferols, 50 parts in nicotinic acid, 4 parts of prokeyvits, 35 parts of vitamin Es, 14 parts of D-VB5s, 4.5 parts of vitamin B1s, 10 parts of vitamin B2s, 14 parts of vitamin B6s, 13 parts of cobalamins, 300 parts of powdered rice hulls;
Described three stage multidimensional are for containing by weight the mixture of following component: 50 parts of vitamin As, 3.5 parts of cholecalciferols, 40 parts in nicotinic acid, 4 parts of prokeyvits, 30 parts of vitamin Es, 10 parts of D-VB5s, 4.5 parts of vitamin B1s, 10 parts of vitamin B2s, 13 parts of vitamin B6s, 13 parts of cobalamins, 300 parts of powdered rice hulls;
Described little ore deposit is the mixture that contains by weight following component: 15 parts of copper, 110 parts of iron, 125 parts in manganese, 110 parts on zinc, 300 parts of stone flours.
2. low abdomen fat rate fleshy duck fodder as claimed in claim 1 is characterized in that:
The ratio range of described one-phase feedstuff composition raw material is counted with weight portion: wheat 75-80 part, dregs of beans 11-14 part, cotton dregs 4.5-5 part, peanut meal 2.5-3 part, corn protein powder 1.2-1.5 part, salt 0.3-0.4 part, stone flour 1.2-1.5 part, calcium monohydrogen phosphate 1-1.3 part, lysine 0.65-0.8 part, methionine 0.2-0.25 part, threonine 0.1-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, one-phase multidimensional 0.15-0.2 part, little ore deposit 0.15-0.2 part, choline 0.08-0.13 part;
The ratio range of described two-stage feedstuff composition raw material is counted with weight portion: wheat 73-80 part, cotton dregs 3-3.6 part, vinasse 12-18 part, maize germ cake 3-4.5 part, lard 2.5-3 part, domestic dish dregs of rice 3-3.5 part salt 0.3-0.4 part, stone flour 0.8-1.2 part, bone meal 1-2 powder, monosodium glutamate mycoprotein 1-1.8 part, lysine 0.68-0.83 part, methionine 0.05-0.19 part, threonine 0.05-0.18 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.015-0.02 part, multidimensional 0.15-0.18 part, little ore deposit 0.15-0.18 part, choline 0.1-0.13 part;
The ratio range of described three stage feedstuff composition raw materials is counted with weight portion: wheat 75-78 part, vinasse 13-16 part, maize germ cake 4-5.5 part, lard 2.2-2.8 part, dish dregs of rice 3-3.5 part salt 0.3-0.4 part, stone flour 0.8-1.2 part, bone meal 1-2 part, monosodium glutamate mycoprotein 1.5-1.8 part, lysine 0.63-0.73 part, methionine 0.04-0.14 part, threonine 0.04-0.2 part, high temperature resistant phytase 0.01-0.015 part, high temperature resistant complex enzyme 0.018-0.02 part, three stage multidimensional 0.16-0.2 parts, little ore deposit 0.16-0.2 part, choline 0.06-0.1 part.
3. low abdomen fat rate fleshy duck fodder as claimed in claim 1 is characterized in that:
The weight proportion of described one-phase feedstuff composition raw material is: 76 parts of wheats, 12.5 parts of dregs of beans, 4.6 parts of cotton dregs, 2.8 parts of peanut meals, 1.4 parts of corn protein powders, 0.3 part of salt, 1.4 parts of stone flours, 1.2 parts of calcium monohydrogen phosphates, 0.75 part of lysine, 0.21 part of methionine, 0.15 part of threonine, 0.012 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.2 part of one-phase multidimensional, 0.2 part in little ore deposit, 0.1 part in choline;
The weight proportion of described two-stage feedstuff composition raw material is: 75 parts of wheats, 3.4 parts of cotton dregs, 12 parts in vinasse, 3.5 parts of maize germ cakes, 2.5 parts of lards, 3.5 parts of the dish dregs of rice, 0.32 part of salt, 0.98 part of stone flour, 1.3 parts of bone meal, 1.5 parts of monosodium glutamate mycoproteins, 0.68 part of lysine, 0.08 part of methionine, 0.12 part of threonine, 0.012 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.18 part of two-stage multidimensional, 0.18 part in little ore deposit, 0.1 part in choline;
The weight proportion of described three stage feedstuff composition raw materials is: 78 parts of wheats, 16 parts in vinasse, 5.3 parts of maize germ cakes, 2.6 parts of lards, 3.5 parts of the dish dregs of rice, 0.35 part of salt, 0.82 part of stone flour, 1.3 parts of bone meal, 1.8 parts of monosodium glutamate mycoproteins, 0.63 part of lysine, 0.08 part of methionine, 0.07 part of threonine, 0.012 part of high temperature resistant phytase, 0.02 part of high temperature resistant complex enzyme, 0.18 part of three stage multidimensional, 0.18 part in little ore deposit, 0.08 part in choline.
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Inventor after: Yuan Tao Inventor after: Shi Xiaohua Inventor after: Cao Haibo Inventor after: Wu Yang Inventor after: Tan Yongju Inventor after: Chen Jiwei Inventor before: Shi Xiaohua Inventor before: Yuan Tao Inventor before: Cao Haibo Inventor before: Wu Yang |
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Effective date of registration: 20230707 Address after: 276000 north head of middle section of Huanghai Road, Junan Economic Development Zone, Linyi City, Shandong Province Patentee after: Junan Tianpu sunshine Feed Co.,Ltd. Address before: 261205 In the Biomedical Industrial Park, No. 36, Gaoxin Second Road, High tech Zone, Weifang City, Shandong Province Patentee before: SHANDONG TOP SUNSHINE BIOTECHNOLOGY Co.,Ltd. |