CN102178079A - Compound feed for wild carps - Google Patents

Compound feed for wild carps Download PDF

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CN102178079A
CN102178079A CN2011100901926A CN201110090192A CN102178079A CN 102178079 A CN102178079 A CN 102178079A CN 2011100901926 A CN2011100901926 A CN 2011100901926A CN 201110090192 A CN201110090192 A CN 201110090192A CN 102178079 A CN102178079 A CN 102178079A
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premix
wild
powder
fish
dihydrogen phosphate
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CN102178079B (en
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王桂芹
张雅斌
芦洪梅
杜晓艳
韩宇田
郑伟
牛小天
李子平
刘艳辉
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Jilin Agricultural University
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/80Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
    • Y02A40/81Aquaculture, e.g. of fish
    • Y02A40/818Alternative feeds for fish, e.g. in aquacultures

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Abstract

The invention discloses a compound feed for wild carps. Breeding experiments indicate that the compound feed for wild carps solves the problem that the artificially cultured wild carps are disadvantageous to natural wild products in terms of color, flavor and figure, namely the artificially cultured wild carps have dark body color, fat body figure and unnatural flavor, and that the compound feed for wild carps can retain the body figure and meat quality (property) of natural wild carps and promote the growth of the carps.

Description

The mixed feed of a kind of wild carp
Technical field
The present invention relates to aquaculture field, exactly is the mixed feed of a kind of wild carp.
Background technology
Wild carp is the important economic indigenous fish species of Heilongjiang river in Heilungkiang, it is the initial population of carp, tens carp kinds of culturing in the world all form from wild carp differentiation and seed selection at present, because anti-adversities such as it is disease-resistant, cold-resistant are very strong, the survival rate of especially surviving the winter is higher, protein content and amino acid content are than other carp height (Yin Hongbin etc., 1999), for the northeast culture fishery provides good variety source.In recent years, wild carp becomes the principal item that the northerner likes the pond culture of food, under field conditions (factors), because good water space and abundant food resource, its body colour, characteristics such as the bodily form and meat have remarkable advantages, but propagate artificially under the condition, the carotenoid component content is few in the feed, in addition in the feed the trace element and some greases, influence to a certain extent such as antioxidant and antibiotic, the color and luster of wild carp body and local flavor are far away from natural wild product, the body colour deepening promptly appears, it is fat that the bodily form becomes, lose natural local flavor, reduced the commodity value of cultured fishes and the sales potential in market, brought economic loss to the culturist.So about its appearance characteristics and meat improve is present problem demanding prompt solution.
Summary of the invention
The objective of the invention is at propagating artificially under the condition, color and luster, local flavor and the bodily form of wild carp body are far away from natural wild product, body colour deepening, the bodily form promptly occur and become fat, lose the problem of natural local flavor, and provide a kind of natural wild carp outward appearance and meat (proterties) of can keeping to promote the mixed feed of growing.
The mixed feed of a kind of wild carp, its each component weight/% is: fish meal 48.62-51.5, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 31.4-32.6, rapeseed dregs 2.01-3.82, algin 0.25, spirulina 0.4-1.0, DL-carnitine 0.11-0.2, beauty plain red 0.5-1, globulin powder 0.8-2;
Preferred version is: plain red 0.6, the globulin powder 2 of fish meal 49.58, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 32.18, rapeseed dregs 2.68, algin 0.25, spirulina 0.4-1, DL-carnitine 0.15, beauty;
Weight/the % of another preferred version is: plain red 0.8, the globulin powder 1.2 of fish meal 50, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 31., rapeseed dregs 3.05, algin 0.25, spirulina 1, DL-carnitine 0.2, beauty;
Weight/the % of another preferred version is: plain red 1.0, the globulin powder 0.8 of fish meal 51.5, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 31.47, rapeseed dregs 2.01, algin 0.25, spirulina 0.7, DL-carnitine 0.11, beauty;
Weight/the % of another preferred version is: plain red 0.5, the globulin powder 1.5 of fish meal 48.62, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 32.6, rapeseed dregs 3.72, algin 0.25, spirulina 0.5, DL-carnitine 0.15, beauty;
Described vitamin premix (mg/kg feed): thiamine hydrochloride, 65; Riboflavin, 215; Folic acid, 16; Puridoxine hydrochloride, 42; Niacin, 815; Calcium pantothenate, 285; Inositol, 405; Biotin, 5; Vit E, 358; Vit B 12, 0.12; VitA, 1.1; Vit D 3, 0.06; Vit C, 250;
Described inorganic salts premix (g or mg/kg feed): epsom salt, 1.8g; Ironic citrate, 0.9g; White vitriol, 0.5g; Cupric sulfate pentahydrate, 7mg; Six water alchlors, 2.8mg; KI, 4.5mg; Sodium selenite, 0.3mg; Sulfuric acid monohydrate is violent, 5mg; CoCL2,3mg; Sodium dihydrogen phosphate, 7.5g; Potassium chloride, 2.5g.
The mixed feed of a kind of wild carp provided by the invention, pass through raising experiment, the result shows, solved under the condition of propagating artificially, color and luster, local flavor and the bodily form of wild carp body are far away from natural wild product, the problem that body colour deepening, the bodily form become fat, lose natural local flavor promptly occurs, can keep natural wild carp outward appearance and meat (proterties) can promote growth again.
The specific embodiment
Mixed feed each component weight/% of embodiment 1 wild carp sees Table 1
The feed formula and the nutritional labeling (%) of table 1 test
Figure BSA00000470981800021
Figure BSA00000470981800031
Annotate: the 1 rope premix (mg/kg feed) of supporting one's family: thiamine hydrochloride, 65; Riboflavin, 215; Folic acid, 16; Puridoxine hydrochloride, 42; Niacin, 815; Calcium pantothenate, 285; Inositol, 405; Biotin, 5; Vit E, 358; Vit B 12, 0.12; VitA, 1.1; Vit D 3, 0.06; Vit C, 250.
2 inorganic salts premixes (g or mg/kg feed): epsom salt, 1.8g; Ironic citrate, 0.9g; White vitriol, 0.5g; Cupric sulfate pentahydrate, 7mg; Six water alchlors, 2.8mg; KI, 4.5mg; Sodium selenite, 0.3mg; Sulfuric acid monohydrate is violent, 5mg; CoCL2,3mg; Sodium dihydrogen phosphate, 7.5g; Potassium chloride, 2.5g.
Embodiment 2 raising experiments
1) the test fish is from the age open country carp fingerling with a collection of artificial incubation.Support temporarily in indoor aquarium before the test, select stalwartness, uniform juvenile fish 1000 tails of specification; Put in the indoor aquarium and tame, the protein content of throwing something and feeding be 35% control group feed as the domestication feed, be satiated with food and throw something and feed, domestication 15d;
2) feeding experiment schedules to last 8w; According to 6 processed group of experimental design, every group of 3 repetitions, before on-test, stop the 1d that throws something and feeds, select then physically fit, the uniform wild carp fingerling of specification (16.81 ± 0.54g), put in a suitable place to breed at random in indoor aquarium, every case is put 30 tail fishes in a suitable place to breed, day rate of throwing something and feeding is the 2.5-4.0% of body weight, looks fish body size, water temperature and the situation of ingesting and does suitably to adjust;
3) throw something and feed every day twice (9:00,17:00), collecting residual bait, weigh in the back of throwing something and feeding, calculates food ration; The duration of test water temperature is 23-30 ℃, and pH is 7.1 ± 0.1, and dissolved oxygen is greater than 5.0mgL -1, ammonia nitrogen is less than 0.4mgL -1
The mensuration of embodiment 3 growths and body index
Raise 8w, the 24h that stops eating before the sampling, each repeats to weigh respectively.Calculate average life rate and specific growth rate (SGR) etc.Get 9 tail fishes (every repetition 3 tail fishes) in addition for every group, blot the moisture of fish body surface after, get the white muscle that side line is above, dorsal fin is following, measure its nutritional labeling.The body weight and the body of every group of each replication 10 tail are long, calculate coefficient of condition and dirty body ratio.Specifically be calculated as follows.
Average growth rate (%)=100% * (W t-W 0)/W 0
Dirty body is than (VI)=internal organ quality (g) * 100/ fish physique amount (g)
Coefficient of condition (CF)=(W/L 3) * 100
I (g) is for taking in the dry weight of feed, W 0(g) and W t(g) be the gross weight of first last fish body, t (d) is the fate of test, and it is long that W (g) and L (cm) are respectively body weight and the body of every tail fish.
Table 2 feed addictive is to wild carp growth Effect on Performance
Figure BSA00000470981800041
Annotate: indicate different lowercase persons in the table in the same column and represent group difference significantly (P<0.05), following table together.
The influence of table 3 DIFFERENT FEED additive enantiomorph index
Figure BSA00000470981800042
The mensuration of embodiment 4 fat metabolism indexs
When growth experiment finished, the test fish was got fish 10 tails after hungry one day at random from each feed group, take out anterior intestine (enteron aisle was an anterior intestine from first inflection point in the past) and liver pancreas, and-20 ℃ of preservations are to be measured.
The preparation samples weighing of crude enzyme liquid, the high purity water homogenate of 10 times of volumes of adding, standing over night in 4 ℃ of refrigerators, 3000r.min -1Centrifugal 10min gets supernatant as crude enzyme liquid, 4 ℃ of preservations, to be measured.In 24h, measure and finish.
The mensuration of anterior intestine lipase active adopts polyvinyl alcohol olive oil emulsion Hydrolyze method to measure fatty specific activity of enzyme.A lipase is defined as than unit of activity: pH 7.0, in the time of 37 ± 1 ℃ insulation 10min, hydrolyzed fat produces the enzyme amount (biology department of Zhongshan University compile, 1979) of 1 μ g aliphatic acid in every mg zymoprotein.
The mensuration of liver pancreas fatty acid synthetase (FAS) is according to the method for (1985) such as Tian, in containing 1mmolL -1The pH7.0 of EDTA, 0.1molL -1KH 2P0 4-K 2HP0 4Carry out in the buffer solution, concentration of substrate is acetyl-CoA 6 μ molL -1, malonyl CoA12 μ mol.L -1, NADPH 37.5 μ molL -1, volume 2mL bathes 5min in 37 ℃ of temperature, adds the 0.05mL supernatant and starts enzyme reaction, and the continuous monitoring absorbance changes under 340nm wavelength (1cm optical path), and every the 30s record once, the time is 3min.Calculate per minute absorbance changing value.The active unit of FAS is defined as the enzyme amount (Ug of every gram liver pancreas per minute oxidation 14nmol NADPH -1).
Table 4 DIFFERENT FEED additive is to the influence of lipid metabolism enzyme
Figure BSA00000470981800051
The mensuration of embodiment 5 and body colour index of correlation
During off-test, from every group of test, get 5 fishes, get the skin of back and the tail fin at the same position of homonymy.Take by weighing 1g left and right sides sample, with 67mmol/L, the freezing homogenate of pH 6.8 phosphate buffers, the centrifugal 25min of homogenate 8000r/min on refrigerated centrifuge got supernatant as crude enzyme liquid, is used to measure wherein tyrosinase vigor in 1: 5 ratio.Other gets a part-20 ℃ preservation, is used to measure its total carotinoid content.
The mensuration of tyrosinase vigor is revised with reference to (1999) methods such as the beautiful front yards of fourth in the mensuration skin of tyrosinase vigor and the tail fin, get 3mg/mL L-DOPA 0.5mL, the 2mL tyrosinase crude enzyme liquid that adds 28 ℃ of preheatings again, total reaction volume is 2.5mL, measure OD value after the mixing immediately under the room temperature in 721 spectrophotometer 475nm places, survey absorbance behind the 10min again, calculate Δ OD 475=Δ OD 10-Δ OD 0The tyrosinase vigor calculates according to the following equation: tyrosinase vigor (U)=Δ OD 475/ (0.001*V*T) (wherein V sample volume, T is the time).
The mensuration of carotenoid is revised with reference to (2005) methods such as Hui Baidi and is carried out.Accurately take by weighing the bright sample of about 1g in the brown volumetric flask of 25mL.Add the 7.5mL leaching liquor, beyond the Great Wall stopper and rotated jolting 1 minute.Add the 1mL40%KOH methanol solution in volumetric flask with pipette, rotation jolting 1min heats 20min with volumetric flask in 55.5 ℃ of water-baths, connect the air setting device to prevent solvent loss at the capacity bottleneck.The cooling sample allows it place 1 hour in the dark place.Add the 7.5mL n-hexane, rotation jolting 1 minute, with 10% metabisulfite solution constant volume, fierce jolting 1min.Behind dark place placement 1h, upper strata liquid is put into the 1cm cuvette, with n-hexane, acetone mixed liquor is blank (add a cover and prevent the acetone volatilization), under ultraviolet one visible spectrophotometer, scan in 300~800nm wave-length coverage, find out the residing wavelength of maximum absorption band, under this wavelength, measure the light absorption value of respectively organizing extract.
Total carotinoid content (mg/kg)=(AKV)/(EG)
A is an absorbance in the formula; K is an extension rate; V is an extracting liquid volume; E is a molar extinction coefficient; G is an example weight.
Table 5 DIFFERENT FEED additive is to the influence of wild carp body colour
The mensuration of embodiment 7 white muscle collagens
With agitator tested muscle is rubbed, take by weighing 4g (being accurate to 0.001g) in conical flask.Add the 30mL concentrated sulfuric acid in flask, cover flask and in 105 ℃ of baking ovens, place 16h with surface plate.While hot hydrating solution is placed the 250mL volumetric flask, use 10mL sulfuric acid flush volume bottle repeatedly, flushing liquor is added in the hydrolysate, be settled to scale with distilled water, mixing.The hydrolysate of pipette, extract certain volume is settled to scale with distilled water in the 250mL volumetric flask.Room temperature is placed, and pipettes this solution of 4.00mL in a tested test tube, adds 2.00mL chlorine ammonia T, shakes up the back in 20min.Add the 2.00mL developer, shake up the back and with plastic foil test tube is sealed, rapidly test tube is moved on in 60 ℃ the water-bath and be incubated 20min, cooling test tube 3min at least places 30min under the room temperature then under the running water that flows.Measure absorbance with the 10mm glass cuvette at 580nm ± 2nm place, deduct the absorbance of blank solution, the concentration that from calibration curve, can read hydroxyproline.Carry out blank test simultaneously, water replaces the muscle hydrolysate.
Collagen content=hydroxyproline content * 100/11 (hydroxyproline accounts for 11% in collagen)
Hydroxyproline content % (Wh) in the sample=6.25*C/ (M*V)
C is for to check in corresponding hydroxyproline concentration from calibration curve, μ g/mL
M gets quality, g for taking by weighing sample
V is the volume of liquid draw from the 250mL volumetric flask, mL
The amino acid whose mensuration of muscle
Method according to GB/T 14965-94 is measured.
Table 6 DIFFERENT FEED additive is to the influence of wild carp meat
Figure BSA00000470981800071
Annotate: the unit of white muscle collagen is the % weight in wet base, and amino acid whose unit is the g/100g% weight in wet base
Table 7 DIFFERENT FEED additive is to the influence of wild carp white muscle nutritional labeling
Figure BSA00000470981800072

Claims (6)

1. the mixed feed of a wild carp, its each component weight/% is: fish meal 48.62-51.5, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 31.4-32.6, rapeseed dregs 2.01-3.82, algin 0.25, spirulina 0.4-1.0, DL-carnitine 0.11-0.2, beauty plain red 0.5-1, globulin powder 0.8-2.
2. the mixed feed of a kind of wild carp according to claim 1 is characterized in that: plain red 0.6, the globulin powder 2 of fish meal 49.58, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 32.18, rapeseed dregs 2.68, algin 0.25, spirulina 0.4-1, DL-carnitine 0.15, beauty.
3. the mixed feed of a kind of wild carp according to claim 1 is characterized in that: plain red 0.8, the globulin powder 1.2 of fish meal 50, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 31, rapeseed dregs 3.05, algin 0.25, spirulina 1, DL-carnitine 0.2, beauty.
4. the mixed feed of a kind of wild carp according to claim 1 is characterized in that: plain red 1.0, the globulin powder 0.8 of fish meal 51.5, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 31.47, rapeseed dregs 2.01, algin 0.25, spirulina 0.7, DL-carnitine 0.11, beauty.
5. the mixed feed of a kind of wild carp according to claim 1 is characterized in that: plain red 0.5, the globulin powder 1.5 of fish meal 48.62, fish oil 1.44, corn oil 1.43, Choline Chloride 0.36, vitamin premix 0.9, inorganic salts premix 1.8, calcium dihydrogen phosphate 0.45, lysine 0.23, methionine 0.35, wheat bran 5.2, inferior powder 32.6, rapeseed dregs 3.72, algin 0.25, spirulina 0.5, DL-carnitine 0.15, beauty.
6. according to the mixed feed of claim 1,2,3,4 or 5 described a kind of wild carps, it is characterized in that: described vitamin premix (mg/kg feed): thiamine hydrochloride, 65; Riboflavin, 215; Folic acid, 16; Puridoxine hydrochloride, 42; Niacin, 815; Calcium pantothenate, 285; Inositol, 405; Biotin, 5; Vit E, 358; Vit B 12, 0.12; VitA, 1.1; Vit D 3, 0.06; Vit C, 250; Described inorganic salts premix (g or mg/kg feed): epsom salt, 1.8g; Ironic citrate, 0.9g; White vitriol, 0.5g; Cupric sulfate pentahydrate, 7mg; Six water alchlors, 2.8mg; KI, 4.5mg; Sodium selenite, 0.3mg; Sulfuric acid monohydrate is violent, 5mg; CoCL2,3mg; Sodium dihydrogen phosphate, 7.5g; Potassium chloride, 2.5g.
CN2011100901926A 2011-04-12 2011-04-12 Compound feed for wild carps Expired - Fee Related CN102178079B (en)

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CN102524573A (en) * 2012-01-06 2012-07-04 四川农业大学 Feed additive for jian carp
CN102845596A (en) * 2012-09-03 2013-01-02 杨高林 Omnivorous fish feed and preparation method thereof
CN104381642A (en) * 2014-11-04 2015-03-04 南昌大学 Preparation method of feed for adult carps
CN104970268A (en) * 2015-08-11 2015-10-14 通威股份有限公司 Fry and fingerling compound feed for leuciscus brandti dybowski
CN106665419A (en) * 2016-11-26 2017-05-17 全椒县民族水产养殖专业合作社 Cultivation method for zinc enriched catfish
CN107197828A (en) * 2017-07-07 2017-09-26 四川普莱美生物科技集团有限公司 A kind of construction method of new osteoporosis model and the raising formula of use
CN107660660A (en) * 2017-11-17 2018-02-06 福建天马科技集团股份有限公司 A kind of mandarin fish is into carp compound feed
CN107751647A (en) * 2017-11-17 2018-03-06 福建天马科技集团股份有限公司 A kind of mandarin fish postlarva mixed feed
CN107821737A (en) * 2017-11-17 2018-03-23 福建天马科技集团股份有限公司 A kind of mandarin fish compound feed for young

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102524573A (en) * 2012-01-06 2012-07-04 四川农业大学 Feed additive for jian carp
CN102524573B (en) * 2012-01-06 2013-12-18 四川农业大学 Feed additive for jian carp
CN102845596A (en) * 2012-09-03 2013-01-02 杨高林 Omnivorous fish feed and preparation method thereof
CN104381642A (en) * 2014-11-04 2015-03-04 南昌大学 Preparation method of feed for adult carps
CN104970268A (en) * 2015-08-11 2015-10-14 通威股份有限公司 Fry and fingerling compound feed for leuciscus brandti dybowski
CN106665419A (en) * 2016-11-26 2017-05-17 全椒县民族水产养殖专业合作社 Cultivation method for zinc enriched catfish
CN107197828A (en) * 2017-07-07 2017-09-26 四川普莱美生物科技集团有限公司 A kind of construction method of new osteoporosis model and the raising formula of use
CN107660660A (en) * 2017-11-17 2018-02-06 福建天马科技集团股份有限公司 A kind of mandarin fish is into carp compound feed
CN107751647A (en) * 2017-11-17 2018-03-06 福建天马科技集团股份有限公司 A kind of mandarin fish postlarva mixed feed
CN107821737A (en) * 2017-11-17 2018-03-23 福建天马科技集团股份有限公司 A kind of mandarin fish compound feed for young

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