CN104664121A - Milk cow feed additive - Google Patents

Abstract

The invention discloses a milk cow feed additive. The milk cow feed additive is prepared from inorganic mineral substance elements (including copper sulphate pentahydrate, manganese sulphate monohydrate, zinc sulphate monohydrate, 1% cobalt monosulfate heptahydrate, 1% calcium iodate and 1% sodium selenite), organic mineral substance elements (including an organic copper compound, an organic manganese compound, an organic zinc compound, selenium yeast and zeolite powder), vitamin elements, rice husk bran, antimicrobial peptide, biotin, 15-21 wt% of mountain flour, calcium hydrophosphate, salt and alcohol grain. The milk cow feed additive is obtained by mixing the organic mineral substances, the inorganic mineral substances, the vitamins, the antimicrobial peptide and the like with corresponding vectors, and is capable of effectively reducing body cells, increasing milk cow resistance and effectively preventing other diseases; and therefore, the purposes of enabling milk cows to be healthy and increasing the milk yield can be achieved.

Description

A kind of cow feed additive

Technical field

The invention belongs to field of fodder, be specifically related to the somatic cow feed additive of a kind of reduction.

Background technology

The main component of body cell (SCC) is white blood corpuscle, is an important indicator of cow breast health status, is also the important indicator weighing milk cow quality.Body cell percentage dissimilar in milk cow health mammary gland is as follows: macrophage accounts for 60%, and lymphocyte accounts for 25%, and neutrophilia or the huge neutrocyte of biting of many types of core account for 15%.Milk cattle infected breast district in nearly 99% cell be leucocyte, all the other 1% derive from breast tissue secretion cell and epithelial cell, leucocyte and epithelial cell constitute body cell in milk.

Mastitis for milk cows is a kind of common multiple diseases in milk cattle cultivating process, and according to can be divided into clinical mammitis and recessive mastitis two kinds with or without clinical symptoms, it is generally acknowledged and clinically account for 30%, recessiveness accounts for 70%.The generation of mastitis for milk cows causes the output (declining 10% ~ 15%) of milk and quality and has a strong impact on, post-partum estrus and pregnant time can be extended, disease ox is even made to lose production performance, and also want expensive expenses for medicine during treatment, cause extremely serious economic loss to the development of China's dairy

In milk, body cell affects by following factor:

(1) damage of nipple mammary gland and mastitis:

Infecting in mammary gland is affect the most important factor of milk cow SCC; when causing the microorganism of mammitis invade a Ge Ru district of breast and start to rise in value; or when the micro organism quantity in a newborn district infected significantly increases; milk cow body can mobilize leucocyte and these microorganisms to resist, and engulfs microorganism.

(2) age of milk cow and parity:

With advancing age, the rising of parity, SCC all has the trend increased, and reason may be due to Long Term Contact mammitis pathogen, thus has more how infected chance.

(3) cowboying facility:

Comprise milking facility, the personnel that milk, flow process of milking, cowshed environment etc.

(4) virus infections:

Pathogenic microorganism immerses ductus papillaris and causes mammitis.Cause the pathogenic microorganism of mastitis for milk cows mainly multiple unspecific microorganism, the gradient of infection of various microorganism, because of different from different places, includes various bacteria, virus, mycoplasma.

(5) other diseases causes.

As bovine tuberculosis, endometritis, retention of afterbirth etc., these diseases sometimes can secondary mammitis.To the milk cow of newly calling in, quarantine, the ability be defined as without any disease is gregarious.

High yield cow can create higher economic benefit, but due to current pasture breeding environment with condition is limited, can not reach scientific and reasonable feeding, thus milk cow can be made to produce mammitis, the diseases such as infertility, metabolic disease, hoof disease, also body cell can be caused to raise, thus cause mammitis, affect milk cow healthy, medical expense, mortality, the death rate are increased, and resistivity, the output of milk reduce.According to statistics, general pasture sub-clinical mammitis is about 50%, and feed intake reduces by 20%, and the output of milk reduces by 20%, eliminates account for 50% of total mortality because of mammitis, and medical expense increases by 30%, and the economic loss caused because of mammitis accounts for 10% of annual profit.Therefore reduce incidence of mammits and improve cure rate and can improve the output of milk and increase economic efficiency.

Summary of the invention

The present invention is mainly higher for current China high yield cow incidence of mammits, cause output of milk decline, affect the problem of dairy cow nutrition, health, milk Quality Down, there is provided a kind of and reduce the somatic feed addictive of high yield cow, reach the object of resist the disease, the raising output of milk and reduction incidence of mammits.

Another object of the present invention is to provide the feed containing described cow feed additive.

Provided by the inventionly reduce the somatic cow feed additive of high yield cow, comprising:

Inorganic mineral substance element, described inorganic mineral composition comprises inorganic mantoquita, inorganic manganese salt, inorganic zinc salt, inorganic cobalt salt, inorganic salt compounded of iodine and inorganic selenium salt;

Humatite prime element, described humatite prime element includes machine copper compound, organic zinc compound, organo-manganese compound and yeast selenium;

Vitamin, described vitamin comprises V _a, V _d3and V _e;

Antibacterial peptide, 3.5-4.5wt%;

Biotin, 0.15-0.21wt%.

Preferably, in described additive, the content of copper is 13 ~ 16mg/kg; In described additive, the content of manganese element is 17 ~ 21mg/kg; In described additive, the content of Zn-ef ficiency is 54 ~ 73mg/kg; In described additive, the content of cobalt element is 0.09 ~ 0.11mg/kg; In described additive, the content of I is 0.77 ~ 0.88mg/kg; In described additive, the content of selenium element is 0.25 ~ 0.3mg/kg.

Preferably, organic zinc compound described in described organic trace element is that ammonia ties up happy zinc, described organic violent compound is that ammonia ties up happy manganese, and described organocopper compound is that ammonia ties up happy copper.Those skilled in the art can select other organo-metallic compounds of originating to be used for providing these trace elements.

Described biotin (Biotin) is one of Cobastab group, also known as biotin, VB7, biotin (Coenzyme R) etc.Described biotin can select raw material 2%d-biotin, is one of Cobastab group, also known as biotin, VB7, biotin (Coenzyme R) etc.

Described antibacterial peptide (peptide Lik-Sang product) is the polypeptides matter that a class has broad spectrum antibiotic activity, and those skilled in the art can select suitable antibacterial peptide as required, and such as select peptide Lik-Sang, it should meet the requirement of GB/T23180 feed addictive standard.

Preferably, in described inorganic mineral substance element, in the content of copper and described humatite prime element, the content ratio of copper is 0.5 ~ 2:1; In described inorganic mineral substance element, in the content of manganese element and described humatite prime element, the content ratio of manganese element is 0.5 ~ 2:1; In described inorganic mineral substance element, in the content of manganese element and described humatite prime element, the content ratio of manganese element is 0.5 ~ 2:1; In described inorganic mineral substance element, in the content of selenium element and described humatite prime element, the content ratio of selenium element is 0.5 ~ 2:1.Applicant finds, mineral matter element is divided into two parts, and a part is inorganic mineral matter element, and a part is then included in humatite prime element, add the inorganic of same amount or humatite prime element can play better effect than simple, namely create Synergistic.

Preferably, described additive also comprises: stone flour 15-21wt%, calcium monohydrogen phosphate 15-16.5wt%, salt 18-21wt%, alcohol dregs of rice 34-35wt% and rice husk chaff 0.7-0.71wt%.

Preferably, described inorganic mineral substance element comprises cupric sulfate pentahydrate 0.09-0.11wt%, manganese sulfate monohydrate 0.18-0.2wt%, monohydrate zinc sulphate 0.284-0.3wt%, 1% cobalt sulfate 0.41-0.42wt%, 1% calcium iodate 0.3-0.34wt%, 1% sodium selenite 0.11-0.12wt%.

Preferably, described organic mineral substance elemental composition comprises organocopper compound 0.24-0.26wt%, organo-manganese compound 0.38-0.41wt%, organic zinc compound 0.665-0.67wt% and yeast selenium 0.18-0.19wt%.

Preferably, described vitamin comprises V _a0.035-0.045wt%, V _e0.23-0.35wt%, V _d30.01-0.015wt%.

Preferably, following composition is contained in cow feed additive of the present invention:

Inorganic mineral substance element composition: cupric sulfate pentahydrate 0.104wt%, manganese sulfate monohydrate 0.194wt%, monohydrate zinc sulphate 0.294wt%, 1% cobalt sulfate 0.414wt%, 1% calcium iodate 0.33wt%, 1% sodium selenite 0.114wt%;

Organic mineral substance elemental composition: ammonia ties up happy copper 0.254wt%, ammonia ties up happy manganese 0.4wt%, ammonia ties up happy zinc 0.668wt%, yeast selenium 0.186wt% and zeolite powder 1.042wt%;

Vitamin elemental composition: VA0.04wt%, VE0.24wt%, VD30.012wt%;

Antibacterial peptide composition: peptide Lik-Sang 4wt%, biotin 0.2wt%;

Stone flour 20wt%, calcium monohydrogen phosphate 16wt%, salt 20wt%, alcohol dregs of rice 34.8wt%, rice husk chaff 0.708wt%

Present invention also offers the preparation method of the somatic feed addictive of described reduction, the method comprises:

By comprising described inorganic microelement composition, organic trace element composition and biotin, the raw material of antibacterial peptide mixes in proportion with zeolite powder, can obtain feed addictive of the present invention.

Present invention also offers the application of described feed addictive in the feed of preparation prevention high yield cow mammitis.Experiment proves, feed addictive of the present invention, adds feeding cow in milk cow forage to according to specific ratio, compared to trace element and the vitamin premix of existing simple organic principle, has unique effect to reducing body cell.

Preferably, described feed addictive is added in cow concentrated feed according to accounting for the certain ratio of cow concentrated feed, for the preparation of the somatic feed of reduction.

Preferably, described feed addictive quality accounts for 5% of cow concentrated feed quality.

More specifically, the feed of described prevention high yield cow mammitis is the amount feeding cow according to every cow head 9 ~ 11kg every day, most preferably 10kg.Between feed period, original daily ration level of milk cow can remain unchanged.

Use forage feed milk cow more than 1 month of the present invention, the good somatic effect of reduction can be reached, and the immunity of milk cow can be improved, strengthen the ability of anti-disease and virus, reduce the mammitis incidence of disease high thus increase the output of milk, better meet the nutritional need of milk cow and improve milk cow health level, ensureing the interests of dairy farmer.

The method that above-mentioned preparation reduces somatic feed is: can be after being mixed in proportion by each raw material of additive, good according to proportional quantity weighing, waits to throw at small powder dog-house; By being dropped in raw material cabin by the concentrated feed raw material mixed in advance, jointly squeezing in mixer with described additive and mixing 2 ~ 4 minutes, prepare the feed final products of prevention high yield cow mammitis.The component of described cow concentrated feed and proportioning are according to the prior art in affiliated field, and the present invention repeats no more.

The invention provides the somatic feed addictive of a kind of reduction milk cow, it is particularly for high yield cow, be conducive to the generation preventing and resist high yield cow mammitis, better can reduce the medical expense of mammitis, prevent and improve that the output of milk caused due to mammitis declines, feed intake declines, action is inconvenient, medical expense increases, cow culling rate and death rate increase etc., milk cow health level can be improved and improve the output of milk.Experiment proves, after feed of the present invention of feeding, the high yield cow recessive mastitis incidence of disease reduces by more than 23%, and the output of milk improves more than 14.16%, and high yield cow economic benefit improves 13.29%, and feed intake improves 10.61%.Therefore, in high yield cow, use anti-mammitis additive, can incidence of mammits be reduced, improve the output of milk, obtain better economic benefit.Be worth promoting in practice and using.

Detailed description of the invention

Describe technology of the present invention and feature in detail below by way of specific embodiment, but these embodiments and be not used to limit protection scope of the present invention.In following embodiment, all commercially available acquisition of each raw material used also meets corresponding quality criteria requirements.Particularly, ammonia ties up happy zinc, ammonia ties up happy manganese and ammonia ties up happy copper equal purchased from American treasure group, and wherein ammonia ties up Zn-ef ficiency content in happy zinc is 10%, and it is 10% that ammonia ties up manganese element content in happy manganese, and it is 8% that ammonia ties up copper content in happy copper; Described 2%d-biotin is purchased from DSM company, and wherein biotin content is 2%.

Embodiment 1

The somatic feed addictive of reduction of the present embodiment is mixed with by following raw material and zeolite powder to form:

Inorganic mineral substance element composition: cupric sulfate pentahydrate 0.104wt%, manganese sulfate monohydrate 0.194wt%, monohydrate zinc sulphate 0.294wt%, 1% cobalt sulfate 0.414wt%, 1% calcium iodate 0.33wt%, 1% sodium selenite 0.114wt%;

Organic mineral substance elemental composition: ammonia ties up happy copper 0.254wt%, ammonia ties up happy manganese 0.4wt%, ammonia ties up happy zinc 0.668wt%, yeast selenium 0.186wt%;

Zeolite powder 1.042wt%;

Vitamin elemental composition: V _a0.04wt%, V _e0.24wt%, V _d30.012wt%;

Rice husk chaff 0.708wt%;

Antibacterial peptide composition: peptide Lik-Sang 4wt%;

Biotin 0.2wt%;

Stone flour 20wt%, calcium monohydrogen phosphate 16wt%, salt 20wt%, alcohol dregs of rice 34.8wt%.

In the formula of the present embodiment, in described inorganic mineral substance element in the content of copper and described humatite prime element the content of copper than being 1:1; In described inorganic mineral substance element in the content of manganese element and described humatite prime element the content of manganese element than being 1:1; In described inorganic mineral substance element in the content of manganese element and described humatite prime element the content of manganese element than being 1:1; In described inorganic mineral substance element in the content of selenium element and described humatite prime element the content of selenium element than being 1:1.

Milk cow forage feeding cow is tested

In this experiment, by the cow feed additive of embodiment 1, test exhaling certain pasture, area, city.Experimental period: in August ,-2012 in June, 2012,2 months by a definite date, uses feed addictive milk cow of the present invention to be experimental group, when feeding method is identical with scale of feeding, carries out the record of the output of milk, mammitis rate, feed intake, mortality.Experimental summary is as follows:

1. experiment purpose

This experiment is compared by the experimental products adding heterogeneity in milk cow forage, and then prove feed addictive of the present invention to reducing the mammitis incidence of disease and improving the degree conspicuousness of milk yield and feed intake in actual production, provide certain theoretical foundation to the popularization of product and listing.

2. experiment material and method

2.1 animals used as test and grouping

Select excellent holstein cow 120, according to the principle that parity, age in days of giving milk, lactation amount, body weight etc. are similar, be divided into 4 groups at random, 1 control group, 3 experimental group, often organize 30 milking cows.

2.2 experiment process

It is constant that each group of basal diet maintains original daily ration level, and managerial skills are consistent, and each trial target adds in cow concentrated feed according to 5% addition, and every ox concentrated feed every day feeding volume 10kg, other daily ration levels are constant.Experiment periods 60 days.Concrete grouping and addition of feeding are as following table:

Table 2-1 tests disposition statistical form

2.3 testing indexs and detection method

Every day, overall feed intake, incidence, cure rate, medical expense, mortality, the death rate of milk cow often organized in record; Gathered a milk sample every ten days, accumulative early, middle and late sum is one day output of milk.

3. experimental result and analysis

The basic data of cows before 3.1 experiments

Before experiment starts, first investigate the basic data of experiment cows, have recorded the indexs such as the age in days of giving milk of every ox, parity, feed intake, disease record, basic data sees table 3-1, through relatively above index there was no significant difference.

Table 3-1: cows statistical reliability data table before experiment

Group

Lactation number of days

Tire

The output of milk

Feed intake DMI

Disease record

	(my god)	Secondary	(kg/d head)	(kg/d head)
						Test 1 group	98	2	26.83	19.25	Nothing
Test 2 groups	97	2.3	26.56	19.34	Nothing
						Test 3 groups	95	2.6	26.73	18.79	Nothing
Control group	95	2.1	26.96	18.95	Nothing

Note: above data are every class mean.

3.2 impacts on milk production of cow

3-2 is seen table on the statistics of the impact of milk production of cow.

Table 3-2: the different experiments date respectively organizes output of milk statistical form (kg/d)

Group

0d

10d

20d

30d

40d

50d

60d

Test 1 group

26.83±0.12

27.85±1.25

28.55±2.12

28.99±2.42

29.12±3.58*

29.51±2.59*

30.87±3.52*

Test 2 groups

26.56±0.21

27.56±2.52

27.69±1.59

27.89±1.74

28.25±2.13

28.78±2.59

28.98±2.15*

Test 3 groups

26.73±0.52

27.05±1.02

27.89±1.02

27.96±1.62

28.16±2.50

28.56±1.85

28.79±2.19

Control group

26.96±0.35

27.12±1.23

27.25±1.23

27.58±1.95

27.98±1.23

28.13±1.45

28.25±1.49

Above data are every class mean, and same column does not mark shoulder mark, illustrate that difference is not remarkable, and mark * shoulder mark illustrates significant difference, as follows.

Can find out, test 1 group compared with control group, the output of milk except not significantly improving at the 10th day, other latter 50 days, significant difference.The highest improvement value of the output of milk is 4.04kg/d. head, and average raising 1.49kg/d. head, improves 15.05%.

3.3 impacts on feed intake

3-3. is seen table on the statistics of feed intake impact

Table 3-3: the different experiments date respectively organizes feed intake statistical form (%)

Test 1 group to compare with control group, different time points is improved, and is up to 2.04kg/ days, and feed intake improves 10.61%.

3.4 impacts on cow culling rate and medical expense

3-4 is seen table on the statistics of the impact of cow culling rate and medical expense.

Table 3-4: the different experiments date respectively organizes mortality and medical expense statistical form (%)

As can be seen from table, test 1 group, test 2 groups, test 3 groups and have certain effect for reduction mortality and the death rate, just compared with control group, the death rate and the mortality of testing 1 group reduce 3.33% and 3.33% respectively.

3.5 impacts on economic benefit

3-5 is seen table on the statistics of the impact of economic benefit.

Table 3-5: the different experiments date respectively organizes economic benefit table

As can be seen from the above table: test 1 group of cost of feeding compared with control group and improve 0.66 yuan/head. sky, income situation is 64.23 yuan/head respectively. sky, 56.94 yuan/head. sky, 56.13 yuan/head. sky and 49.42 yuan/head. sky; Economic benefit improves 13.29%.

3.6 impacts on the mammitis incidence of disease

3-6 is seen table on the statistics of the impact of the mastitis for milk cows incidence of disease.

Table 3-6: the different experiments date respectively organizes mammitis morbidity statistics table (%)

Group	0d	10d	20d	30d	40d	50d	60d
								Test 1 group	50	47	37	33	30	30	27
Test 2 groups	48	48	45	40	40	41	33
								Test 3 groups	49	48	42	41	43	40	35
Control group	47	47	43	50	40	40	43

Can find out, test 1 group, test 2 groups, test 3 groups and have certain effect for reduction mammitis, just experiment 1 group can reduce the mammitis incidence of disease of high yield cow with control group compared with, reduction about 23%.

3.7 impacts on butterfat percnetage

3-7 is seen table on the statistics of the impact of Milk Fat Percentage in Dairy Cows.

Table 3-7: the different experiments date respectively organizes butterfat percnetage statistical form (%)

Group	0d	10d	20d	30d	40d	50d	60d
								Experimental group	4.61	4.65	4.71	4.73	4.72	4.76	4.75
Test 2 groups	4.63	4.63	4.65	4.68	4.68	4.67	4.69
								Test 3 groups	4.62	4.64	4.64	4.65	4.66	4.67	4.68
Control group	4.66	4.64	4.63	4.63	4.65	4.65	4.64

As can be seen from table, test 1 group, test 2 groups, test 3 groups and have certain effect for raising butterfat percnetage, just experiment 1 group can improve the butterfat percnetage of high yield cow with control group compared with, compared with the control, and test group butterfat percnetage raising 0.06%.

3.8 impacts on Somatic Cells Content in cow's milk

3-8 is seen table on the statistics of the somatic impact of milk cow.

Table 3-8: the different experiments date respectively organizes body cell statistical form (ten thousand/mL)

Group	0d	10d	20d	30d	40d	50d	60d
								Experimental group	25.45	21.39	20.75	18.8	17.94	17.45	15.45
Test 2 groups	24.63	23.06	21.89	21.67	20.79	20.56	18.49
								Test 3 groups	24.62	22.53	21.75	21.06	20.48	19.47	18.34
Control group	25.04	22.74	22.84	22.51	21.47	22.09	21.34

Can find out, test 1 group, test 2 groups, test 3 groups and have certain effect for reduction body cell, just experiment 1 group can reduce the Somatic Cells Content of high yield milking cow compared with the control with control group compared with, test group Somatic Cells Content reduction by 27.60.

4. conclusion

According to the analytical proof to above experimental result, compared with control group, experimental group for increasing economic efficiency, improve the output of milk and feed intake has certain effect, wherein test proof: feed containing the milking cow reducing somatic 5% additive feed, its output of milk can improve 15.05%, feed intake improves 10.61%, mortality and the death rate reduce by 3.33% and 3.33% respectively, economic benefit improves 13.29%, and incidence of mammits reduces by 23%, and Somatic Cells Content reduces by 27.60%.And present persistent state, there is good economic implications and practical value in actual production.

Can also be as required in actual raising, the formula of embodiment is changed, present invention also offers following additive formulations, it can produce the technique effect approximate with above-described embodiment, in two formulas, the component listed is changed below, other components then carry out adaptive variation, such as increase or reduce the content of stone flour.

Formula 1:

Inorganic mineral substance element composition: cupric sulfate pentahydrate 0.09wt%, manganese sulfate monohydrate 0.19wt%, monohydrate zinc sulphate 0.284wt%, 1% cobalt sulfate 0.41wt%, 1% calcium iodate 0.3wt%, 1% sodium selenite 0.11wt%;

Organic mineral substance elemental composition: ammonia ties up happy copper 0.23wt%, ammonia ties up happy manganese 0.41wt%, ammonia ties up happy zinc 0.66wt%, yeast selenium 0.19wt%;

Zeolite powder 1.042wt%;

Vitamin elemental composition: V _a0.035wt%, V _e0.24wt%, V _d30.01wt%;

Antibacterial peptide composition: peptide Lik-Sang 3.5wt%;

Biotin 0.15wt%/

Formula 2:

Inorganic mineral substance element composition: cupric sulfate pentahydrate 0.11wt%, manganese sulfate monohydrate 0.18wt%, monohydrate zinc sulphate 0.30wt%, 1% cobalt sulfate 0.42wt%, 1% calcium iodate 0.4wt%, 1% sodium selenite 0.12wt%;

Organic mineral substance elemental composition: ammonia ties up happy copper 0.26wt%, ammonia ties up happy manganese 0.379wt%, ammonia ties up happy zinc 0.67wt%, yeast selenium 0.18wt%;

Zeolite powder 1.042wt%;

Vitamin elemental composition: V _a0.045wt%, V _e0.25wt%, V _d30.015wt%;

Rice husk chaff 0.708wt%;

Antibacterial peptide composition: peptide Lik-Sang 4.5wt%, biotin 0.21wt%.

Claims (7)

1. a cow feed additive, is characterized in that, described additive comprises:

Inorganic mineral substance element, described inorganic mineral composition comprises inorganic mantoquita, inorganic manganese salt, inorganic zinc salt, inorganic cobalt salt, inorganic salt compounded of iodine and inorganic selenium salt;

Humatite prime element, described humatite prime element includes machine copper compound, organic zinc compound, organo-manganese compound and yeast selenium;

Vitamin, described vitamin comprises V _a, V _d3and V _e;

Antibacterial peptide, 3.5-4.5wt%;

Biotin, 0.15-0.21wt%.

2. additive according to claim 1, is characterized in that, in described additive, the content of copper is 13 ~ 16mg/kg; In described additive, the content of manganese element is 17 ~ 21mg/kg; In described additive, the content of Zn-ef ficiency is 54 ~ 73mg/kg; In described additive, the content of cobalt element is 0.09 ~ 0.11mg/kg; In described additive, the content of I is 0.77 ~ 0.88mg/kg; In described additive, the content of selenium element is 0.25 ~ 0.3mg/kg.

3. additive according to claim 1, is characterized in that, in described inorganic mineral substance element, in the content of copper and described humatite prime element, the content ratio of copper is 0.5 ~ 2:1; In described inorganic mineral substance element, in the content of manganese element and described humatite prime element, the content ratio of manganese element is 0.5 ~ 2:1; In described inorganic mineral substance element, in the content of manganese element and described humatite prime element, the content ratio of manganese element is 0.5 ~ 2:1; In described inorganic mineral substance element, in the content of selenium element and described humatite prime element, the content ratio of selenium element is 0.5 ~ 2:1.

4. according to the arbitrary described additive of claim 1 or 3, it is characterized in that, described inorganic mineral substance element comprises cupric sulfate pentahydrate 0.09-0.11wt%, manganese sulfate monohydrate 0.18-0.2wt%, monohydrate zinc sulphate 0.284-0.3wt%, 1% cobalt sulfate 0.41-0.42wt%, 1% calcium iodate 0.3-0.34wt%, 1% sodium selenite 0.11-0.12wt%.

5. according to the arbitrary described additive of claim 1 or 3, it is characterized in that, described organic mineral substance elemental composition comprises organocopper compound 0.24-0.26wt%, organo-manganese compound 0.38-0.41wt%, organic zinc compound 0.665-0.67wt% and yeast selenium 0.18-0.19wt%.

6., according to the arbitrary described additive of claim 1 or 3, it is characterized in that, described vitamin comprises V _a0.035-0.045wt%, V _e0.23-0.35wt%, V _d30.01-0.015wt%.

7. the feed containing the arbitrary described additive of claims 1 to 3.