CN106387503A - Preparation method of starter feed for scophthalmus maximus linnaeus fingerlings - Google Patents
Preparation method of starter feed for scophthalmus maximus linnaeus fingerlings Download PDFInfo
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- CN106387503A CN106387503A CN201610784926.3A CN201610784926A CN106387503A CN 106387503 A CN106387503 A CN 106387503A CN 201610784926 A CN201610784926 A CN 201610784926A CN 106387503 A CN106387503 A CN 106387503A
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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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/80—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
- Y02A40/81—Aquaculture, e.g. of fish
- Y02A40/818—Alternative feeds for fish, e.g. in aquacultures
Abstract
The invention discloses a preparation method of a starter feed for scophthalmus maximus linnaeus fingerlings. The preparation method comprises the following steps of (a), mixing white fish meal with chicken meat powder, beer yeast, soybean meal, flour and a mineral element mixture to obtain a mixture, crushing the mixture, blending the crushed mixture, performing puffing granulation at 100-130 DEG C, and performing drying at the temperature of 50-100 DEG C; (b), mixing egg powder with wet artemia salina and shrimp mat, performing homogenating through a colloid mill, then adding betaine, fish oil, phospholipid and a vitamin mixture, and performing emulsifying and homogenating; and (c), under vacuum, performing vacuum-spraying of emulsifying liquid obtained in the step (b) onto the surfaces of semi-finished products namely baked particles obtained in the step (a), then performing drying, performing cooling, performing crushing, performing screening, performing weighing, and performing packaging. Bioactive components of fresh living feed raw materials and bioactive components of unstable nutrient elements in a feed formula can be effectively maintained, the food calling properties and the utilization efficiency of the feed can be improved, the survival rate of the scophthalmus maximus linnaeus fingerlings can be increased, the growth properties of the scophthalmus maximus linnaeus fingerlings can be improved, pathogens in the feed are reduced, and the water-quality environment of breeding water bodies is improved.
Description
Technical field:
The present invention relates to field of fodder is and in particular to a kind of preparation method of turbot seed starter diet.
Background technology:
Turbot (Scophthalmus maximus Linnaeus) originates in the North Atlantic Ocean and its salt-fresh water border land,
It is famous and precious edible fish, nineteen ninety introduces China's cultivation for mid-term.At present in nearly 50,000 tons of the cultured output of year of China, the output value
Nearly 1,000,000,000 about, and defined the complete industrial chain of seed rearing, adult fish culture and export processing.In view of turbot cultivates
Become one of breed variety of the main marine fish of northern China, its scale also constantly expands, turbot seed rearing also becomes capable
The key issue of the development of industry.Safety and Health, neat specification, the ripe fireballing high-quality fry of growth are the necessary guarantors of industry development
Card.The turbot seed stage of development experienced a development by metamorphosis process, and death is concentrated mainly on this stage, and its reason is because
Undernutrition or not comprehensive nutrition, and lead to development by metamorphosis not accomplished, or after metamorphosis body constitution excessively weak so that dead, so bait
Nutrition is the key factor of restriction turbot weed survival rate and quality.
At present, domestic turbot seed rearing depends on the natural baits such as chlorella, wheel animalcule and artemia, and its price is held high
Expensive, complex operation is simultaneously easy to polluted water, may introduce the cause of diseases such as parasite, antibacterial and virus simultaneously, its quality unstable
Bring inconvenience also to the cultivation of turbot seed opening, the large-scale production being unsuitable for turbot seed is cultivated.Prior art
The feedstuff manufacturing, not only material choice is not according to the growth of turbot seed and physiology digestion characteristics, and preparation method
There is inappropriate place, the High Temperature High Pressure of preparation process is easily destroyed unstability nutrient, thus leading to feed nutrition
Imbalance and utilization ratio reduction.Therefore, how to develop one kind and be suitable to turbot fry nutrition digestion physiological property
Feed making method be technical problem to be solved.
Content of the invention:
The purpose of the present invention is to overcome the deficiencies in the prior art, for the growth of turbot seed opening reproductive stage and physiology
Digestion characteristics, provide a kind of turbot seed starter diet and preparation method thereof, can effectively keep fresh and alive feedstuff in feed formula
Raw material, and the bioactive ingredients of the unstable nutrient such as fish oil and vitamin, improve food calling performance and the utilization of feedstuff
Efficiency, improves turbot seed survival rate and growth performance, reduces the pathogen in feedstuff, improves the water quality ring of breeding water body
Border, is suitable to large-scale production, and the High Temperature High Pressure solving turbot seed starter diet preparation process in prior art is easily broken
Bad unstability nutrient, thus leading to the imbalance of feed nutrition and the reduction of utilization ratio, is unsuitable for turbot fry
The problem of nutrition digestion physiological property.
The present invention is achieved by the following technical programs:
A kind of turbot seed starter diet, by mass percentage, described feedstuff is made up of following component:Erythroculter ilishaeformiss
Powder 20-35%;Carnis Gallus domesticus powder 10-20%;Egg powder 3-6%;Beer yeast 3-6%;Wet artemia 10-20%;Macrobrachium nipponensis 5-10%;Face
Powder 15-20%;Bean cake 1-5%;Glycine betaine 1-3%;Fish oil 1-5%;Phosphatidase 1-3%;Vitamin mixtures 1-2%;Mineral unit
Plain mixture 2-4%;Described vitamin mixtures, content by gram/per kilogram based on, its component and content are:Vitamin A 20-
40;Vitamin D3 1-3;Vitamin E 50-70;Vitamin K3 3-6;Vitamin B12 0-40;Vitamin B2 1-3;Vitamin
B6 50-70;Vitamin B12 3-6;Nicotinic acid 10-30;Calcium pantothenate 10-30;Biotin 0.1-0.2;Inositol 100-300;Folic Acid 2-
6;Vitamin C 150-400;Described mineral element mixture, content by gram/per kilogram based on, its component and content are:Copper sulfate
10-30;Ferrous sulfate 50-150;Zinc sulfate 20-50;Manganese sulfate 2-20;Cobaltous chloride 0.1-1;Sodium selenite 0.1-1;Di(2-ethylhexyl)phosphate
Hydrogen potassium 10-30;Sodium dihydrogen phosphate 10-30.
Preferably, according to mass percent, described feedstuff is made up of following component:Erythroculter ilishaeformis powder 22-33%;Carnis Gallus domesticus
Powder 15-20%;Egg powder 4-6%;Beer yeast 4-6%;Wet artemia 12-18%;Macrobrachium nipponensis 6-8%;Flour 15-18%;Bean cake
1-3%;Glycine betaine 1-2%;Fish oil 2-4%;Phosphatidase 1-2%;Vitamin mixtures 1.1-1.8%;Mineral element mixture
2.2-3%.
Preferably, described vitamin mixtures, content by gram/per kilogram based on, its component and content are:Dehydroretinol 5-
35;Vitamin D3 1.5-2.5;Vitamin E 55-65;Vitamin K3 4-5;Vitamin B1 25-35;Vitamin B2 1.5-
2.5;Vitamin B6 55-65;Vitamin B12 4-5;Nicotinic acid 15-25;Calcium pantothenate 15-25;Biotin 0.12-0.18;Inositol
150-250;Folic Acid 3-5;Vitamin C 200-300;Described mineral element mixture, content by gram/per kilogram based on, its component and
Content is:Copper sulfate 15-25;Ferrous sulfate 70-120;Zinc sulfate 30-40;Manganese sulfate 5-15;Cobaltous chloride 0.2-0.8;Monohydrated selenium dioxide
Sodium 0.2-0.8;Potassium dihydrogen phosphate 15-25;Sodium dihydrogen phosphate 15-25.
The preparation method of described turbot seed starter diet, this preparation method comprises the following steps:
A, by Erythroculter ilishaeformis powder, Carnis Gallus domesticus powder, beer yeast, bean cake, flour and mineral element mixture mixed once, coarse pulverization,
Micronizing to 100-150 mesh, secondary mixing, modulation, 100-130 DEG C of expanded granulation, dry at a temperature of 50-100 DEG C and obtain
Semi-finished product dry granule;
B, by egg powder, wet artemia, Macrobrachium nipponensis mixing, be homogenized to 200-300 mesh through colloid mill, be subsequently adding glycine betaine, fish
Oil, phospholipid and vitamin mixtures carry out emulsifying homogenate and obtain emulsion;
C, the semi-finished product obtaining to step a in 0.2-101.3KPa vacuum, the emulsion airless spraying that step b is obtained
Dry particle surface, then through 40-90 DEG C of airpillow-dry, cooling, broken, sieve, weighing and bagging forms.
Preferably, according to mass percent, described feedstuff is made up of following component:Erythroculter ilishaeformis powder 22-33%;Carnis Gallus domesticus
Powder 15-20%;Egg powder 4-6%;Beer yeast 4-6%;Wet artemia 12-18%;Macrobrachium nipponensis 6-8%;Flour 15-18%;Bean cake
1-3%;Glycine betaine 1-2%;Fish oil 2-4%;Phosphatidase 1-2%;Vitamin mixtures 1.1-1.8%;Mineral element mixture
2.2-3%.
Preferably, described vitamin mixtures, content by gram/per kilogram based on, its component and content are:Dehydroretinol 5-
35;Vitamin D3 1.5-2.5;Vitamin E 55-65;Vitamin K3 4-5;Vitamin B1 25-35;Vitamin B2 1.5-
2.5;Vitamin B6 55-65;Vitamin B12 4-5;Nicotinic acid 15-25;Calcium pantothenate 15-25;Biotin 0.12-0.18;Inositol
150-250;Folic Acid 3-5;Vitamin C 200-300;Described mineral element mixture, content by gram/per kilogram based on, its component and
Content is:Copper sulfate 15-25;Ferrous sulfate 70-120;Zinc sulfate 30-40;Manganese sulfate 5-15;Cobaltous chloride 0.2-0.8;Monohydrated selenium dioxide
Sodium 0.2-0.8;Potassium dihydrogen phosphate 15-25;Sodium dihydrogen phosphate 15-25.
Beneficial effects of the present invention are as follows:
1) easy to use, the seed starter diet direct feeding seed that the present invention obtains.
2) using the seed starter diet that the preparation method of the present invention obtains be for seed opening growth and physiology digestion
Characteristic, selects the raw material that attractant is good, the rate that digests and absorbs is high, enhances the micronutrients such as vitamin and mineral element simultaneously
Element, the preparation method of the present invention can effectively keep fresh and alive feedstuff and fish oil and vitamin etc. in formula unstable
The biological activity of nutrient, can improve food calling performance and the utilization ratio of feedstuff, the seed starter diet nutrition obtaining
Comprehensively, improve growth performance, promote the disease-resistant and anti-stress ability of seed simultaneously, reduce the pathogen in feedstuff, improve cultivation
The water quality environment of water body, improves turbot seed survival rate and growth performance, reduces the pathogen in feedstuff, improves breeding water body
Water quality environment, be suitable to large-scale production.
3) seed starter diet raw material sources of the present invention are reliable, steady quality, safety, and feed manipulation is easy, overcomes sky
So bait high cost, easy polluted water, quality is unstable, the shortcomings of be easily introduced the cause of diseases such as parasite, antibacterial and virus.
Specific embodiment:
The following is and the present invention is further illustrated, rather than limitation of the present invention.
Embodiment 1:
According to mass percent, feed formula is:Erythroculter ilishaeformis powder 28%;Carnis Gallus domesticus powder 15%;Egg powder 5%;Beer yeast
5%;Wet artemia 12%;Macrobrachium nipponensis 6%;Flour 18%;Bean cake 1%;Glycine betaine 1.6%;Fish oil 3%;Phosphatidase 1 .5%;Vitamin
Mixture 1.3%;Mineral element mixture 2.6%.
Produce vitamin mixtures (weight press gram/per kilogram) by formula as below
Weigh various vitamin by content in formula, mix, sealing is standby.
Produce mineral element mixture (weight in grams/per kilogram) by formula as below
Weigh various mineral salts by content in formula, mix after dries pulverizing, sealing is standby.
Above-mentioned feed producing method is as follows:
A, by Erythroculter ilishaeformis powder, Carnis Gallus domesticus powder, beer yeast, bean cake, flour and mineral element mixture mixed once, coarse pulverization,
Micronizing to 100 mesh, secondary mixing, modulation, 100 DEG C of expanded granulations, dry at a temperature of 60 DEG C and obtain semi-finished product and dry
Grain;
B, by egg powder, wet artemia, Macrobrachium nipponensis mixing, be homogenized to 200 mesh through colloid mill, be subsequently adding glycine betaine, fish oil, phosphorus
Fat and vitamin mixtures carry out emulsifying homogenate and obtain emulsion;
C, the semi-finished product drying obtaining to step a in 20KPa vacuum, the emulsion airless spraying that step b is obtained
Grain surface, then through 60 DEG C of airpillow-dry, cooling, broken, sieve, weighing and bagging forms.
Comparative example 1:
Preparation method is as follows:
By Erythroculter ilishaeformis powder, Carnis Gallus domesticus powder, beer yeast, bean cake, flour, mineral element mixture, egg powder, wet artemia, Macrobrachium nipponensis,
Glycine betaine, fish oil, phospholipid and vitamin mixtures are in ratio mixed once, coarse pulverization, micronizing in embodiment 1 feed formula
To 100 mesh, secondary mixing, modulation, 100 DEG C of expanded granulations, dry at a temperature of 60 DEG C, cooling, broken, screening, weighing and bagging
Form.
Use turbot seed starter diet, the turbot seed starter diet of comparative example 1 preparation of embodiment 1 production respectively
Feed turbot fry with fresh food artemia.Through 30 days culture experiments, experimental group (fed the turbot that embodiment 1 obtains
Seed starter diet) fry survival rate be 85%, rate of body weight gain 160%;And feed the water quality of feedstuff group breeding water body also compared with sky
So bait group is good.Matched group 1 (feeding artemia) fry survival rate is 78%, rate of body weight gain 135%.Matched group 2 (feeds comparative example
1 preparation turbot seed starter diet) fry survival rate be 79%, rate of body weight gain 137%.
This experiment results proved:The turbot seed starter diet that the present embodiment produces is due to can effectively keep formula
In the unstable nutrient such as fresh and alive feedstuff and fish oil and vitamin biological activity, the food calling of feedstuff can be improved
Performance and utilization ratio, can increase survival rate and the growth performance of turbot seed.
Embodiment 2:
The vitamin mixtures of the present embodiment are identical with embodiment 1 with mineral element mixture.
According to mass percent, feed formula is:Erythroculter ilishaeformis powder 30%;Carnis Gallus domesticus powder 10%;Egg powder 5%;Beer yeast
5%;Wet artemia 15%;Macrobrachium nipponensis 8%;Flour 15%;Bean cake 3%;Glycine betaine 2%;Fish oil 1.8%;Phosphatidase 2 %;Vitamin mixes
Compound 1.2%;Mineral element mixture 2%.
Preparation method is as follows:
A, by Erythroculter ilishaeformis powder, Carnis Gallus domesticus powder, beer yeast, bean cake, flour and mineral element mixture mixed once, coarse pulverization,
Micronizing to 120 mesh, secondary mixing, modulation, 120 DEG C of expanded granulations, dry at a temperature of 90 DEG C and obtain semi-finished product and dry
Grain;
B, by egg powder, wet artemia, Macrobrachium nipponensis mixing, be homogenized to 250 mesh through colloid mill, be subsequently adding glycine betaine, fish oil, phosphorus
Fat and vitamin mixtures carry out emulsifying homogenate and obtain emulsion;
C, the semi-finished product drying obtaining to step a in 30KPa vacuum, the emulsion airless spraying that step b is obtained
Grain surface, then through 80 DEG C of airpillow-dry, cooling, broken, sieve, weighing and bagging forms.
Comparative example 2:
Preparation method is as follows:
By Erythroculter ilishaeformis powder, Carnis Gallus domesticus powder, beer yeast, bean cake, flour, mineral element mixture, chicken in embodiment 2 feed formula
Powdered egg, wet artemia, Macrobrachium nipponensis, glycine betaine, fish oil, phospholipid and vitamin mixtures mixed once, coarse pulverization, micronizing to 120
Mesh, secondary mixing, modulation, 120 DEG C of expanded granulations, dry at a temperature of 90 DEG C, cooling, broken, screening, weighing and bagging form.
Use turbot seed starter diet, the turbot seed starter diet of comparative example 2 preparation of embodiment 2 production respectively
Feed turbot fry with fresh food artemia.Through 30 days culture experiments, experimental group (fed the turbot that embodiment 2 obtains
Seed starter diet) fry survival rate be 82%, rate of body weight gain 157%;And feed the water quality of feedstuff group breeding water body also compared with sky
So bait group is good.Matched group 1 (feeding artemia) fry survival rate is 78%, rate of body weight gain 135%.Matched group 2 (feeds comparative example
2 preparation turbot seed starter diets) fry survival rate be 78.5%, rate of body weight gain 136%.
Experiment results proved:The turbot seed starter diet that the present embodiment produces is due to can effectively keep in formula
The biological activity of the unstable nutrient such as fresh and alive feedstuff and fish oil and vitamin, can improve the attractant of feedstuff
Energy and utilization ratio, can increase survival rate and the growth performance of turbot seed.
Embodiment 3:
The vitamin mixtures of the present embodiment are identical with embodiment 1 with mineral element mixture.
According to mass percent, feed formula is:Erythroculter ilishaeformis powder 22%;Carnis Gallus domesticus powder 18%;Egg powder 4%;Beer yeast
4%;Wet artemia 14%;Macrobrachium nipponensis 8%;Flour 16%;Bean cake 5%;Glycine betaine 1%;Fish oil 3%;Phosphatidase 1 %;Vitamin mixes
Thing 1.4%;Mineral element mixture 2.6%.
Preparation method is as follows:
A, by Erythroculter ilishaeformis powder, Carnis Gallus domesticus powder, beer yeast, bean cake, flour and mineral element mixture mixed once, coarse pulverization,
Micronizing to 150 mesh, secondary mixing, modulation, 130 DEG C of expanded granulations, dry at a temperature of 100 DEG C and obtain semi-finished product and dry
Grain;
B, by egg powder, wet artemia, Macrobrachium nipponensis mixing, be homogenized to 300 mesh through colloid mill, be subsequently adding glycine betaine, fish oil, phosphorus
Fat and vitamin mixtures carry out emulsifying homogenate and obtain emulsion;
C, the semi-finished product drying obtaining to step a in 40KPa vacuum, the emulsion airless spraying that step b is obtained
Grain surface, then through 50 DEG C of airpillow-dry, cooling, broken, sieve, weighing and bagging forms.
Comparative example 3:
Preparation method is as follows:
By Erythroculter ilishaeformis powder, Carnis Gallus domesticus powder, beer yeast, bean cake, flour, mineral element mixture, chicken in embodiment 3 feed formula
Powdered egg, wet artemia, Macrobrachium nipponensis, glycine betaine, fish oil, phospholipid and vitamin mixtures mixed once, coarse pulverization, micronizing to 150
Mesh, secondary mixing, modulation, 130 DEG C of expanded granulations, dry at a temperature of 100 DEG C, cooling, broken, screening, weighing and bagging form.
Use turbot seed starter diet, the turbot seed starter diet of comparative example 3 preparation of embodiment 3 production respectively
Feed turbot fry with fresh food artemia.Through 30 days culture experiments, experimental group (fed the turbot that embodiment 3 obtains
Seed starter diet) fry survival rate be 83%, rate of body weight gain 158%;And feed the water quality of feedstuff group breeding water body also compared with sky
So bait group is good.Matched group 1 (feeding artemia) fry survival rate is 78%, rate of body weight gain 135%.Matched group 3 (feeds comparative example
2 preparation turbot seed starter diets) fry survival rate be 78.5%, rate of body weight gain 136%.
Experiment results proved:The turbot seed starter diet that the present embodiment produces is due to can effectively keep in formula
The biological activity of the unstable nutrient such as fresh and alive feedstuff and fish oil and vitamin, can improve the attractant of feedstuff
Energy and utilization ratio, can increase survival rate and the growth performance of turbot seed.
Claims (3)
1. it is characterised in that by mass percentage, described feedstuff is by following component for a kind of turbot seed starter diet
Composition:Erythroculter ilishaeformis powder 20-35%;Carnis Gallus domesticus powder 10-20%;Egg powder 3-6%;Beer yeast 3-6%;Wet artemia 10-20%;Macrobrachium nipponensis
5-10%;Flour 15-20%;Bean cake 1-5%;Glycine betaine 1-3%;Fish oil 1-5%;Phosphatidase 1-3%;Vitamin mixtures 1-
2%;Mineral element mixture 2-4%;Described vitamin mixtures, content by gram/per kilogram based on, its component and content are:Dimension
Raw element A 20-40;Vitamin D3 1-3;Vitamin E 50-70;Vitamin K3 3-6;Vitamin B1 20-40;Vitamin B2
1-3;Vitamin B6 50-70;Vitamin B12 3-6;Nicotinic acid 10-30;Calcium pantothenate 10-30;Biotin 0.1-0.2;Inositol 100-
300;Folic Acid 2-6;Vitamin C 150-400;Described mineral element mixture, content by gram/per kilogram based on, its component and content
For:Copper sulfate 10-30;Ferrous sulfate 50-150;Zinc sulfate 20-50;Manganese sulfate 2-20;Cobaltous chloride 0.1-1;Sodium selenite 0.1-
1;Potassium dihydrogen phosphate 10-30;Sodium dihydrogen phosphate 10-30.
2. turbot seed starter diet according to claim 1 is it is characterised in that by mass percentage, described raises
Material raw material is made up of following component:Erythroculter ilishaeformis powder 22-33%;Carnis Gallus domesticus powder 15-20%;Egg powder 4-6%;Beer yeast 4-6%;Wet
Artemia 12-18%;Macrobrachium nipponensis 6-8%;Flour 15-18%;Bean cake 1-3%;Glycine betaine 1-2%;Fish oil 2-4%;Phosphatidase 1-2%;
Vitamin mixtures 1.1-1.8%;Mineral element mixture 2.2-3%;Described vitamin mixtures, content press gram/per kilogram
Meter, its component and content are:Vitamin A 25-35;Vitamin D3 1.5-2.5;Vitamin E 55-65;Vitamin K3 4-5;Dimension
Raw element B1 25-35;Vitamin B2 1.5-2.5;Vitamin B6 55-65;Vitamin B12 4-5;Nicotinic acid 15-25;Calcium pantothenate
15-25;Biotin 0.12-0.18;Inositol 150-250;Folic Acid 3-5;Vitamin C 200-300;Described mineral element mixture,
Content by gram/per kilogram based on, its component and content are:Copper sulfate 15-25;Ferrous sulfate 70-120;Zinc sulfate 30-40;Sulphuric acid
Manganese 5-15;Cobaltous chloride 0.2-0.8;Sodium selenite 0.2-0.8;Potassium dihydrogen phosphate 15-25;Sodium dihydrogen phosphate 15-25.
3. a kind of preparation method of the turbot seed starter diet described in claim 1 or 2 is it is characterised in that this preparation side
Method comprises the following steps:
A, by Erythroculter ilishaeformis powder, Carnis Gallus domesticus powder, beer yeast, bean cake, flour and mineral element mixture mixed once, coarse pulverization, ultra micro
It is crushed to 100-150 mesh, secondary mixing, modulation, 100-130 DEG C of expanded granulation, dry at a temperature of 50-100 DEG C and obtain half one-tenth
Product dry granule;
B, by egg powder, wet artemia, Macrobrachium nipponensis mixing, be homogenized to 200-300 mesh through colloid mill, be subsequently adding glycine betaine, fish oil, phosphorus
Fat and vitamin mixtures carry out emulsifying homogenate and obtain emulsion;
C, the semi-finished product drying obtaining to step a in 0.2-101.3KPa vacuum, the emulsion airless spraying that step b is obtained
Particle surface, then form through 40-90 DEG C of airpillow-dry, cooling, broken, screening, weighing and bagging.
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CN107373091A (en) * | 2017-07-21 | 2017-11-24 | 广东越群海洋生物研究开发有限公司 | A kind of preparation method of the flounder flounder sole microcapsules opening material of zero starch |
CN107373092A (en) * | 2017-07-21 | 2017-11-24 | 广东越群海洋生物研究开发有限公司 | A kind of preparation method of the terrapin microcapsules opening material of zero starch |
CN107410765A (en) * | 2017-07-21 | 2017-12-01 | 广东越群海洋生物研究开发有限公司 | A kind of preparation method of the ornamental fish microcapsules opening material of zero starch |
FR3102040A1 (en) * | 2019-10-21 | 2021-04-23 | Ecole Centrale De Lille | USE OF STARCH NANOPARTICLES LOADED WITH ACTIVE MOLECULES FOR AQUACULTURE |
WO2021078743A1 (en) * | 2019-10-21 | 2021-04-29 | Universite De Lille | Use of starch nanoparticles loaded with active molecules for aquaculture |
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