KR20230120330A - Sericite powder and feed additive and formulated feed containing the same - Google Patents

Abstract

The present invention is to provide a method for distributing feed that can significantly increase the growth rate of livestock and greatly improve the quality of livestock products without causing controversy about the harmfulness thereof. Disclosed are sericite powder, and a feed additive and compound feed comprising the same. The sericite powder according to an embodiment of the present invention is processed into particles from sericite ore, and has far-infrared emissivity of 0.9 or more.

Description

Sericite powder and feed additives and formulated feeds containing the same {omitted}

The present invention relates to sericite powder and a feed additive and formulated feed containing the same, and more specifically, a sericite powder processed into particles from natural rocks and used by mixing in a formulated feed for livestock, and a feed additive and formulated feed containing the same It is about.

In general, livestock feed is mainly used as formulated feed, which is made by mixing nutrients such as energy, protein, vitamins, and minerals required by various livestock, as well as growth promoters and antibiotics for disease prevention, according to specifications and standards. .

In recent years, as the well-being atmosphere has been heightened, the livestock industry has also added specific nutritional ingredients to livestock sanitary control and formulated feed, improving the meat quality of various livestock products and producing special nutritional eggs to gradually increase the profits of breeding farms.

However, most of the nutrients, growth promoters, and antibiotics added to existing feed are made of chemical synthetic materials, which not only increases the production cost of livestock products, but also does not satisfy the purchase demand of consumers who prefer natural and organic products to increase income. The problem is getting bigger.

In addition, these chemical nutrients, growth promoters, and antibiotics for preventing diseases cause hormonal effects such as changing the physiology of livestock or impede nutrient metabolism, thereby reducing the efficiency of nutrient intake of feed. And it is excreted in feces instead of being consumed in meat production, and livestock is stressed due to the odor generated from this excrement and pollution of the surrounding environment, which threatens the health of livestock, excessive consumption of formulated feed, and the productivity and quality of livestock products. brought about a decline

In particular, large doses of antibiotics for disease prevention in livestock breeding farms, where exercise is absolutely insufficient due to large-scale breeding, is emerging as a problem of harmfulness to the human body due to the detection of antibiotic substances in the meat and eggs of produced livestock.

The present invention has been devised in view of the above-mentioned problems of the conventional livestock feed, and a way to supply a feed that can significantly increase the growth rate of livestock and greatly improve the quality of livestock products without causing controversy over harmfulness want to provide

The present invention provides sericite powder having a far-infrared ray emissivity of 0.9 or more as sericite powder processed into particles from sericite ore.

The germanium content of the sericite powder may be 191 mg/kg or more.

The particle diameter of the sericite powder may be 325Mesh.

The sericite powder may include a selenium component and an anion.

In addition, the present invention provides a formulated feed containing the sericite powder.

The present invention provides a feed additive prepared by mixing sericite powder and herbaceous peat.

The herb chotan may be heat treated for 20 to 30 minutes at 50 c or less before mixing.

The feed additive may be prepared by mixing sericite powder and herb chotan and then aging at room temperature for 20 to 30 days.

The sericite content is preferably 15 to 16% by weight.

In addition, in the present invention, the content of the feed additive is preferably 2 to 10% by weight.

It is a feed additive product for livestock livestock that contains natural minerals necessary for the growth and development of livestock and adds natural ore sericite powder to formulated feed to produce livestock products of excellent quality.

Figure 1 compares the growth rate according to the verification test results through a graph.
2a to 2g are data photos showing the growth of chickens raised using the feed additive according to the present invention.
Figure 3 compares the amount of meat of broilers raised for 2 months, the left broilers were raised with normal feed and the right broilers were raised with the feed additive of the present invention.

I. Components, characteristics and effects of sericite powder according to the present invention

1. Components of raw materials constituting sericite powder

The sericite powder according to the present invention contains natural mineral components necessary for the growth and development of livestock such as chickens, ducks, cows, and pigs, and is a natural ore composition with excellent antibacterial and immunity enhancement, sterilization and disinfection purification and digestion promotion, and tonic effect. By adding human sericite powder to formulated feed, it is a health functional feed additive product for livestock livestock to produce high-quality livestock products beneficial to the health of people who use it as food without using chemical nutrients and antibiotics for disease prevention. In addition, it is a product that can obtain the same effect even when used as a feed additive for pets and aquaculture farms. The components of the sericite powder produced in our mine located in Tong-dong, Taebaek-si, Gangwon-do are as follows.

me. Characteristics and effects of sericite powder

The sericite powder according to the present invention is a product obtained by mining sericite ore, a treasure trove of natural mineral nutrients, in our own mine and processing it into fine particles with a particle diameter of about 325Mesh (0.043mm). It is used by adding it in an appropriate ratio.

The following effects can be expected when livestock consumes the formulated feed to which our company's sericite powder is added.

1) Far infrared ray health effect

Most natural rocks have a far-infrared emissivity of about 0.5, but sericite produced by our company has a high emissivity of about 0.928, penetrating deep into the skin of domestic animals and vibrating cells more than 2,000 times in 60 seconds to activate cell tissues. It has excellent effects in regulating biological functions, such as discharging waste materials and toxic substances, and promoting blood circulation by decomposing blood clots, thereby improving the quality of livestock meat.

2) Actions and Effects of Germanium

Our company's sericite powder contains more than 191 mg/Kg of germanium (Ge) and is of extremely high quality. Ge is known to enter the body of an animal and has the following functions.

Activation of biological cells and strengthening of immune function (strengthening of natural healing power)

Detoxification and heavy metal discharge in the body (removal of harmful oxygen, hydrogen ion, and environmental hormones)

Improving blood circulation, purifying blood, strengthening blood pressure, controlling blood pressure (removing blood clots and cholesterol)

Promote secretion of interferon that inhibits viral growth (anti-cancer substance) 0. Potential regulation, electromagnetic wave blocking (as a semiconductor, controlling electrical flow) 0. Pain suppression (inhibition of enkephalin lyase) 0. Emotional stability (relieving stress, promoting endorphin production) ) 0. Prevention of arthritis

Nutrient tonic effect and enhancement of natural healing power

3) Actions and effects of negative ions

Air purification and sterilization

Blood purification and cell activation (smooth supply of nutrients to cells)

Immunity-enhancing action: increase of gamma globulin

4) Other matters

The sericite powder of the present invention has enough natural nutrients without using expensive chemical nutrients, so it not only consumes complete nutrients for growth and development, but also acts on the digestion process to the extent that there is almost no waste of feed, and all biological functions of livestock and poultry It normalizes the health of breeding livestock. In addition, livestock fed with mixed feed supplemented with sericite powder are freed from civil complaints around the breeding grounds as ammonia gas generated from excretion from livestock fed only with general formulated feed is significantly reduced, and free from bacteria such as Escherichia coli and mold. Infections can be significantly reduced.

II. Feed additive according to the present invention

1. Effect of adding natural rock powder to feed

The main component of the natural rock powder feed additive, which is composed of more than 80% of sericite powder, is a natural mineral nutrient and has the following effects.

1) Immunity enhancement effect against AI and foot-and-mouth disease

2) Digestion improvement -> Nutrient absorption -> Growth promotion -> Meat quality improvement -> Luxury branding -> Stable profit increase -> Local economy revitalization

3) Reduction of treatment facility installation cost and treatment cost due to reduction of livestock content due to complete digestion

4) Improvement of breeding environment due to reduction of odor reduces livestock stress, reduces mortality, increases fertility, and resolves civil complaints

5) Easy to use as a renewable energy resource as livestock manure fermentation proceeds quickly

6) Added to and used in formulated feed for breeding livestock such as chickens, ducks, cows, and pigs

2. Application examples of natural mineral nutrient feed additives

1) Natural mineral powder contains substances beneficial to the growth and development of livestock such as germanium (Ge), selenium (Se), far-infrared rays, and negative ions, and contains amorphous carbon, calcium, phosphorus, sodium, magnesium, manganese, iron, It contains up to 30% of many non-replaceable bulk elements such as copper and zinc, as well as trace elements and ultrafine elements.

2) When about 10-15 kg of mineral powder per ton of feed was added to the formulated feed consumed by poultry and livestock such as chickens and ducks, the immunity was increased, and the number of stocked individuals was maintained almost unchanged until shipment.

3) Egg productivity increased as a result of feeding the test feed containing natural mineral powder to chickens. The egg production of the test chickens was 158.1 to 159.4 eggs over 6 months, which was 2.3 to 3.1 eggs more than the control chickens.

4) As a result of mixing 10-15 kg of natural mineral powder in the feed for broilers, the body weight of broilers at 4 weeks was found to be 4.2~4.5% heavier than that of the control group.

5) As a result of adding 10-15kg of mineral powder to 1 ton of compound feed and feeding it for 47 days, the daily average increase in body weight of the test broiler chickens was high (44~44.1g), and their body weight was 2,106.9~2113.0g, 5.34 compared to the control group. ~5.7% was large.

6) Egg weights of the 30- and 48-week-old chickens of the experimental group were within the normal range and were higher than those of the control group.

7) The cost of formulated feed per 10 eggs of the experimental group that consumed the test feed containing natural mineral powder showed a tendency to gradually decrease, offsetting the mineral powder administration cost.

8) The distribution range of the chemical components of the eggs was within the normal range, and the crude protein of the eggs of the experimental group consuming the test feed containing natural mineral powder was slightly increased.

9) The content of vitamins (A, B) and carotenoids in eggs was high, and increased in the experimental group.

10) Based on this conclusion, it is recommended to add natural mineral powder to the formulated feed to increase immunity and productivity in the case of cattle, pigs and other domesticated livestock.

3. Natural Mineral Nutrients - For Chickens

1) Over the past few centuries, the main food of mankind has been steadily changing from vegetable carbohydrate foods to animal protein foods.

2) Among the animal protein foods, chicken accounts for around 25%, and its elongation rate is over 10% every year, far exceeding that of pork or beef.

3) Recently, as the eco-friendly well-being food culture gradually spreads to low-fat and low-salt foods, chicken is one of the important health foods for mankind, considering its richness in nutrients such as protein and vitamins, low price, convenience of purchase, and convenient and diverse meat products. sure to be

4) In the midst of such rapid development, it is a pity that the taste of Korean native chicken is gradually disappearing.

5) The poultry industry imports feed, which accounts for a significant portion of the production cost, from abroad. By using rock powder additives rich in natural mineral nutrients, it shortens the shipping period due to growth promotion and perfect absorption of nutrients contained in the feed. As a result, sales activation can be expected due to the effect of reducing compound feed and improving meat quality.

6) The following results were obtained as a result of breeding functional chickens and control chickens that consumed innovative feed additives by adding natural minerals to formulated feeds.

① Improved meat quality, no fishy taste, restoration of taste comparable to native chicken

② Productivity improvement through mortality reduction

③ Feed cost reduction

④ Reduction of various production costs such as manure treatment costs

⑤ Improve competitiveness by increasing storability

7) Demonstration test

*The demonstration test was conducted at a farm in Cheorwon-gun, Gangwon-do.

*Demonstration test period is from 2012. 03.18 to 2012. Fucked until 09.18.

*The test farm was a certified eco-friendly farm.

*The test was conducted on handong based on 30,000 animals per building.

*The prerequisite for the test is to mix natural rock powder into the feed at a rate of about 50 kg per tonne and to feed it by mixing it with water at a rate of 5%.

*The test was conducted by dividing into the experimental group and the control group.

* [Table 6] below compares the growth rate of broilers for general feed and feed formulated with the feed additive of the present invention, according to the above test results.

And Figure 1 compares the growth rates according to the test results through a graph, where the blue line represents the growth rate of broilers according to the use of general feed, and the orange line represents the growth of broilers according to the use of the feed to which the present invention is applied. indicates speed.

As can be seen in Table 6 and FIG. 1, it can be seen that the growth rate of broilers is significantly faster than that of general feeds when using the feed of the present invention. More specifically, based on the shipping weight of chickens of 1.5 kg, the shipping period takes about 35 days when using general feed, whereas about 28 days are sufficient when using the feed additive of the present invention, so about 7 days Delivery time can be shortened. This reduction in delivery time means reduced feed costs and significant economic gains (approximately 16% increase).

* Figures 2a to 2g are data photos showing the growth of chickens raised using the feed additive according to the present invention.

From this, it can be confirmed that the weight of the chicken exceeds 5 kg within 2 months. If you can grow chickens with a weight exceeding 5 kg within 2 months, you can expect sales profit even if you cover the feed cost. On the other hand, when chickens are grown that much using general feed, sales profit cannot be expected at all, unlike the case of using the feed additive of the present invention due to the enormous feed cost.

* Figure 3 compares the amount of meat of broilers raised for 2 months, the left broilers were raised with normal feed and the right broilers were raised with the feed additive of the present invention.

8) Establishment of a specialized livestock brand

Production of livestock products containing high-concentration germanium

Establish certification mark and certification process

4. Natural Mineral Nutrients - For Eggs

1) Eggs are rich in protein, low in sodium, and have essential amino acids necessary for our body, such as vitamins and minerals, so they are a very good food that supplies high-quality protein to people of all ages. In particular, it has the property of absorbing poison and is good for women who are interested in diet. A boiled egg has 80 kcal of calories, but it stays on the stomach for more than 3 hours, so it gives a feeling of fullness and prevents overeating. The outside of the egg is wrapped in a hard shell (egg shell), and inside it is a two-layer inner shell. There are many small holes in the outer shell, through which they breathe. In addition, over time, carbon dioxide and moisture evaporate through this hole, and microorganisms penetrate and the contents quickly rot. Inside the inner shell, there is white (egg white), around the outer shell and yolk (yolk), there is a watery white, and in the middle there is a white. The ratio of each constituent substance is 11% shell, 58% egg white, and 31% yolk. The average weight is about 48~60g, and it is divided into small eggs (less than 43g), medium eggs (44~51g), large eggs (52~59g), special eggs (60~67g), and large eggs (more than 68g).

2) Current status of egg production

Layer hens that produce 80% of their eggs per year require large amounts of calcium and vitamin D for eggshell formation. If calcium or nutrients are not supplied through feed or drinking water, the chicken first extracts the necessary calcium from the bones and replenishes it in the blood, which is then used to form the egg shell, which eventually causes osteoporosis in the chicken. Also, since they are raised in cages, the absolute lack of exercise is also an important factor. Today's farms are mostly 'factory farms'.

A factory farm is an intensive production line that maximizes output and minimizes costs. Here, animals are considered commodities, not life, and are produced like cars in factories.

Factory-farmed laying hens peck at other chickens' heads or anuses until they bleed due to the stress of being confined in cramped cages, so the poultry industry cuts off their beaks to prevent this. The beak is a sensitive area where all nerves are concentrated, so cutting the area is said to cause the same pain as cutting a finger in humans. In addition, in order to increase the spawning rate, the fire in the cage is turned off and starvation is forced to molt. In an environment where life is regarded as an object, it is natural that immunity is weakened and vulnerable to various infectious diseases.

Factory farming has been pointed out as the source of deadly diseases, including mad cow disease, foot-and-mouth disease, avian flu, and swine flu. Experts warn that factory farming is a 'super culture center for viruses' and will continue to spawn new infectious diseases.

3) Functional eggs

As feeds with various functions are provided as feed for chickens, the types of functional eggs are increasing.

Functional eggs do not feed antibiotics, growth promoters, nerve stabilizers, etc. to chickens, but supply feed containing special ingredients to appropriately use the natural physiological phenomenon of chickens to strengthen the parts that are helpful to human health.

In the past, it was natural to administer antibiotics to chickens when they became ill or weakened. However, as interest in safe food has increased due to the well-being craze, good ingredients made by combining HACCP-certified feed (antibiotics, egg-laying promoter, and colorant-free) and functional substances are added to the feed to increase the immunity of chickens and prevent the use of antibiotics. The fishy smell of raw eggs is almost gone, and polyunsaturated fatty acids obtained from eggs are increased by 10-80% compared to regular eggs. Red ginseng egg, DHA egg, Sanghwang mushroom egg, various fertilized eggs, calcium egg, adlay egg, aloelan, etc. are endlessly emphasizing the characteristics of each, but the most important thing is to attach a certification mark that consumers can trust and buy with certification marks It is absolutely necessary to supplement the system that can be proven.

Recently, a group of consumers and citizens collected and tested 32 types of functional eggs, and as a result, products that are said to lower cholesterol were more than twice as expensive as regular eggs, but actually measured, cholesterol levels were more than 2.5 times higher, making it a mockery. have ever It has reached a level where it loses trust from consumers, with 13 companies over 40% receiving the lowest grade in the comprehensive grade, including freshness and foreign substances, etc.

4) germanium, selenium, vanadium eggs

A control group (CON) in which only feed was administered to laying chicks 30 days after hatching and one experimental group in which natural rock powder feed additives were mixed with feed were set up and the experiment was conducted for one year. In the experimental group, 1 kg of feed additive was added to 20 kg of feed (rate of 50 kg per 1 ton of feed), that is, 5%, and mixed well before supply. The average result per chicken was calculated by observing the egg laying rate, egg production rate, and feed reduction in the two places for one year.

In the case of excrement, in the case of the experimental group using feed additives, 10 days after administration, the feces turned black, changed to dry feces with low moisture, and the odor was significantly reduced. In addition, insects such as flies and maggots did not require separate disinfection treatment. It was confirmed that they do not reproduce.

The laying hens belonging to this experimental group were divided into two, one was tested as it is, and the other was supplied with natural rock powder feed additives. As a result of analyzing the contents of the eggs, various minerals beneficial to the human body were detected. The ICP analysis method was used to examine germanium, selenium, and vanadium contained in liver, blood, and muscle.

It was found that the economic effect of administering natural rock powder feed additives when converting the above egg-laying rate increase, breakage rate reduction, feed saving effect, etc. into economic value exceeded 7,000 won per chicken.

5. Natural Mineral Nutrients - For Cattle and Pigs

1) When added to general feed and aged at room temperature for 5 to 30 days before supplying it to livestock, it can greatly reduce the bad odor of manure accompanying livestock breeding due to its excellent suitability effect, improve the immunity of livestock, and in many ways can obtain nutritionally improved animal foods.

Livestock such as pigs, cows, and chickens, which are used as animal food sources today, are raised in concrete structures, away from the soil, which is their natural habitat in the past. In addition, the feed that livestock eats is also destroying the environment in the stomach of livestock due to the excessive use of pesticides and preservatives according to mass production. As a result of such artificial and intensive breeding, livestock are inevitably vulnerable to infectious diseases, colds, diarrhea, etc., and to prevent this, antibiotics are routinely mixed and introduced into the feed, which in turn increases antibiotic resistance and intestinal microflora of livestock. This leads to further destruction of the natural environment. In addition, antibiotics remain in animal foods produced from livestock, such as meat, eggs, and milk, and people eat these foods, resulting in resistance to antibiotics. As the disease progresses, these resistant bacteria also invade the human intestine. Therefore, the development of a new breeding method without antibiotic administration is an urgent problem today. Methods of improving the immunity of livestock by administering various natural substances such as various minerals, chitosan, oriental medicine to breed livestock without antibiotic administration have been conventionally attempted. However, most of the methods of administering natural substances do not have a satisfactory effect, so there are few cases where these substances are actually used to replace antibiotic administration, and even if they are used, they are administered only supplementally as a functional feed together with antibiotics. As one of these natural functional materials, a method of separating and using peat or humic acid, fulvic acid, or the like from peat has been conventionally attempted.

2) Peat is a natural organic material formed naturally as plant fluids are continuously deposited for thousands or tens of thousands of years, and decomposition and polymerization by microorganisms are repeated. Peat contains more than 70% of organic matter, and in particular, it can be said to be a complex of fiber and phenol metabolizing microorganisms (Lactobacillus of the genus Bacillus). Therefore, in order to express the effects of the fibers and microorganisms of the pits in the intestines of livestock, it is better to use the pits as they are. Therefore, only herbaceous peat, in which herbaceous plants (especially reeds) are deposited and carbonized, is used as a livestock feed additive. In general, peat can be largely divided into Peat Moss, Herbaceous Peat, Woody Peat, and Mixed Peat. It was concluded that only herb chotan is suitable for supplying livestock as it is.

In addition, considering the effect of dietary fiber contained in herbal chotan at least 70%, it is added to the feed in an appropriate amount, while sericite, a porous silicate mineral, is used to fully exert the intestinal function of microorganisms present in the pit. , it was found that the microbes contained in the pits could be proliferated using the large pore area of the silicate minerals, greatly increasing the number of microbes per gram of the pits.

However, there is a problem in using all feet as they are. That is, Woody Peat, which is carbonized by the accumulation of wood, contains a large amount of fiber derived from trees such as lignin, which rather burdens the intestines of livestock, and Peat Moss, which is carbonized by the accumulation of moss It is also unsuitable for livestock feed. In addition, since the pit contains a large amount of dietary fiber (70% or more), a feeling of fullness is felt when a large amount is supplied, and the feed retention rate is lowered, which may inhibit growth.

Herbaceous Peat can be used as it is or after a predetermined treatment. In general, in the case of feed additives for adult livestock such as adult pigs, herb chotan can be used as it is without special treatment. However, in the case of targeting young livestock, herbal chotan can be used after weak heat treatment at 50 ° C or less for 20 to 30 minutes or less.

It can be used after weakening the microbial strain of chotan under mild heat treatment conditions, or after completely sterilizing and selectively inoculating and proliferating microorganisms (Lactobacillus of the genus Bacillus) isolated from chotan. In addition, such a treatment may be performed once after mixing the herbal charcoal with a silicate mineral such as sericite. Chotan may differ only in ingredients depending on the place of production. However, it is not limited thereto, and any herb chotan having a quality suitable for the purpose can be used regardless of its origin, and for example, herbal chotan such as those from Russia, China, and Canada can all be used.

3) The silicate minerals constituting the Neo Peat feed additives themselves have functions known as animal feeds such as mineral supply and far-infrared radiation effect, but above all, they have many porous pores, so that microorganisms proliferate It will provide you with a place to do it. Silicate minerals serve as a breeding ground for these microorganisms. In addition, it can be used as a source of minerals, especially trace elements, and the unique effects of silicate minerals, such as far-infrared radiation and negative ion generation, stop diarrhea and restore normal intestinal function synergistically with pits.

The silicate minerals are contained in 15 to 6% in this feed additive, which is sufficient to exert the desired effect, and if more than this, the content of pits is relatively reduced, which is not desirable, and below the above range, the desired effect will not be able to provide enough After mixing herb chotan (pit) and silicate minerals, it is aged for 5 to 30 days at room temperature (5 to 10 days at 30℃) so that microorganisms contained in chotan can sufficiently proliferate using the wide pore area of silicate minerals. make it possible This greatly increases the number of microbes per gram, making it possible to include relatively few peat in the diet while still having a much higher effect.

This feed additive is added to general feed at a rate of 2 to 20%, preferably at a rate of 5 to 12%.

If it exceeds 20%, pits, which are the main component of dietary fiber, give a sense of satiety to animals, thereby reducing feed conversion rate, which can rather hinder the growth of animals. In addition, it is difficult to expect the desired effect at less than 2%.

It is good to add this feed additive to pig feed and cattle feed.

General feed to which this feed additive is added is not limited in kind, and feed suitable for each livestock may be used, and feed containing no antibiotics may be used.

When animals are raised by supplying a feed to which this feed additive is added, it is possible to reduce the strong odor of manure, especially the manure accompanying pig breeding, with an excellent intestinal regulation effect. In addition, various nutritional improvement effects, such as the improvement of the quality of cholesterol, in which HDL increases and LDL decreases in the blood of animals, are thought to be due to the excellent dietary fiber contained in pits.

In addition, by adding this feed additive, the overall nutritional balance of the existing livestock feed is improved, digestion is promoted by the intestinal action, and a direct immunity enhancement effect and body weight increase effect that become stronger against diseases appear. These effects are also confirmed from animal foods produced from livestock (eg, pork, beef, chicken, eggs, milk, etc.), particularly pork.

4) Materials and test methods

The following experiments were conducted to investigate the effect of the administration of this feed additive on the weight gain, feed efficiency, and digestibility of growing pigs.

① Test animals and test design

300 breeding pigs of 3-way hybrid (Duroc Yorkshire Landrace) were announced, and the weight at the start of the test was 32kg on average.

② Test feed and breeding management

Corn-soybean meal-based basal feed was used, and the specific composition of the basal feed is shown in [Table 9]. The basic feed was a corn-soybean meal-based non-antibiotic feed and contained 3,381 kcal digested energy/kg, 18.00% crude protein, 0.96% lysine, 0.70% calcium and 0.60% phosphorus according to the NRC (1998) specification standard. The test animals were divided into three groups: antibiotic-free group (NC: Negative Control), antibiotic-added group (PC: Positive Control), neophyte feed additive 10% added experimental group, and three groups.

3 repetitions per treatment, 10 animals per repetition were randomized. Body weight and feed intake were measured at the beginning and end of the test, and daily weight gain, daily feed intake, and feed efficiency were calculated.

③ Nutrient availability

In order to measure the digestibility of nutrients, 0.2% of chromium oxide was added as an indicator 10 days before the end of the test. After 4 days of chromium feeding, feces were collected, dried, and used for analysis.

④ Chemical analysis and statistical processing

Chromium mixed as a general component of feed and as an indicator was analyzed by AOAC (1999). All data were processed with Duncan's Multiple range test (Duncan, 1955) using the General Linear Model Procedure of SAS (1996) to test the significance between averages.

⑤ Production details of feed additives

This feed additive was prepared by mixing 90% of herb chotan (Korea, Gangneunsan) and 10% of sericite and then aging at 30 ° C for 10 days.

5) Results

① The results of weight gain, feed intake and feed efficiency are shown in [Table 10]. Here, SE is the standard error.

Compared to the NC group, the PC group showed a significant increase in the growth rate by 17% and the experimental group by 14% in terms of daily weight gain. However, there was no significant difference in the daily weight gain comparison between the PC group and the experimental group. In terms of daily feed intake, the PC group had the highest, and the experimental group also showed a significant increase compared to the NC group. In addition, in terms of feed efficiency, the experimental group showed the highest compared to the NC group, and there was no significant difference from the PC group.

② Digestibility of dry matter and nitrogen

In terms of dry matter and nitrogen digestibility, both the PC and experimental areas were significantly higher than the NC area. There was no significant difference between the PC group and the experimental group.

③ From the results of the above experiments, it was confirmed that this feed additive has a function to replace antibiotics, and in the case of the experimental group, the experimental participants confirmed that the odor was significantly reduced throughout the experimental period.

6) Experiment to investigate the effect of administration of this feed additive on fattening pigs

① Materials and test methods

(i) Test animals and test design

48 pigs of three-way hybrid (Duroc Yorkshire Landrace) were announced, and the weight at the start of the test was 56.5 kg and was conducted for 42 days. The test design was a control group (CON) in which nothing was added to the corn-soybean meal-based basic feed, a first experimental group (T1) in which neophyte feed additive was added at a rate of 5% to the basic feed, and a 10% rate. The treatment was divided into three sections of the second experimental section (T2). Complete randomization of 4 replicates per treatment, 4 animals per replicate.

(ii) Test design and specification management

The basic feed is a corn-soybean meal-based non-antibiotic feed. In the feed shown in [Table 9], the contents of corn, soybean meal, beef tallow, and minerals were adjusted to provide 3,300 kcal digested energy/kg, 17.65% crude protein, 0.09% lysine, and 1.17% of calcium and 0.61% of phosphorus. The feeding test was conducted at Dankook University test farm where the size of the breeder was 1.8 × 1.8 m. Body weight and feed intake were measured at the start, 4 weeks, and 8 weeks, and daily weight gain, daily feed intake, and feed efficiency were calculated.

(iii) blood analysis

Blood collection was analyzed by collecting 2ml of blood from the jugular vein at the start and end of the specification test using a K3EDTA Vacuum tube (Becton Dickinson Vacutainer Systems, Franklin Lakes, NJ), respectively, and analyzed using an automatic blood analyzer (ADVID120, Bayer, USE). ) was used to investigate WBC, RBC and lymphocyte sites.

(iv) Meat quality analysis

a) published material

The pork used in the test was stored in a refrigerator at 4 ° C for 24 hours after slaughter, and then the semiconductor sirloin (M. longissimus dorsi) was divided and shaped for each treatment group and used for analysis.

b) flesh color

Meat color was measured by repeating the same sample 4 times using a Chromometer (Model CR-210, Minolta CO.LTD.Japan), and at this time, the standard color plate was L*=89.2, a*=0.921, b*=0.783. .

c) meat pH

The pH value of the meat was measured after slaughtering using a pH meter (Istek, Model 77p).

d) sensory test

The sensory test was conducted by organizing 5 sensory testers. Fresh meat was evaluated for color (color: 1-5), texture (firmness: 1-5), and intramuscular fat (marbling: 1-5) according to the NPPC standard.

e) Conductor class

The carcass grade measurement was performed by a grader affiliated with the livestock product grading after slaughtering when each treatment unit reached 110kg at the slaughterhouse in Cheonan, Chungcheongnam-do.

f) Fatty acid composition and iron content analysis in meat

Fatty acids in meat were extracted and purified by the Folch method and analyzed by GC (Gas Chromatography SRI 8610C, USA). The iron content was analyzed using ICP after sample pretreatment by dry method.

(v) Statistical processing

All data were analyzed for variance using the General Linear Model Procedure of SAS (1996), and significance between averages was tested by processing with Duncan's multiple range test (Duncan, 1955).

② Result

(i) When using neophyte feed additives, weight gain, feed intake, and feed efficiency specifications are shown in [Table 12] above.

During the 0-4 weeks of the test, there was no significant difference between treatment groups in weight gain, feed consumption and feed efficiency (p>0.05).

During the 5 to 8 weeks of the test, there was no significant difference in weight gain, feed intake, and feed efficiency between treatment groups (p>0.05).

During the entire test period, daily weight gain was higher in the experimental group, but there was no significant difference (p>0.05). In feed efficiency, the second experimental group (10% addition) showed a significant difference (p<0.05).

(ii) Flesh color and sensory test

The flesh color and sensory test results are shown in the table below. There was no difference in the brightness and yellowness of the meat color in the treatment section, but the redness showed a tendency to increase (p<0.05) by administering this neophyte feed additive. In the case of the firmness and color of the sirloin, there seemed to be no difference between the treatment groups, but there was a tendency to increase intramuscular fat (p<0.05), suggesting the possibility of tenderness during cooking.

(iii) Carcass pH, backfat thickness and carcass grade.

The pH, backfat thickness and carcass grade of the carcass are as shown in [Table 14] below. The pH of the carcass did not show a significant difference between the treatment groups (p>0.05). However, backfat thickness showed a tendency to decrease by adding this feed additive (p<0.05). The appearance rate of grade A by treatment group was in the control group (33%), the first experimental group (70%), and the second experimental group (50%). %), and the second experimental group (75%). It is judged that the administration of this feed additive is related to the back fat thickness, which is thought to show the possibility of developing differentiated functional pork.

(iv) Fatty acid composition and iron content in meat

Fatty acid composition and iron content in carcass are as shown in [Table 15]. The composition of fatty acids in lean meat showed a significant difference (p<0.05), with the lowest saturated fatty acid and the highest unsaturated fatty acid in the experimental group administered with this neophyte feed additive, and the ratio of saturated fatty acid to unsaturated fatty acid was also significant in the experimental group. (p<0.05).

Fatty acid composition in the fat also showed that the unsaturated fatty acid content was higher in the experimental group than in the control group, and the ratio of saturated fatty acid to unsaturated fatty acid was also higher (p<0.05).

The iron content in the carcass was the highest in the lean meat of the experimental group (p<0.05), and the highest in the control group in the fat (p<0.05). Therefore, the administration of this feed additive reduces saturated fatty acids in pork and increases unsaturated fatty acids and iron, so it is believed that intake of such pork will provide nutritional benefits in relation to adult diseases.

(v) Blood characteristics

The immune response in the blood is shown in the following table. There was no significant difference in the number of red blood cells (RBC) and white blood cells (WBC) between treatment groups (p>0.05). However, lymphocytes involved in immunity were significantly higher in the second experimental group (p<0.05). Therefore, it was determined that the administration of this neophyte feed additive increases the immunity of livestock.

6. When natural rock powder feed additives are added to general feed and supplied to animals, the strong odor of manure accompanying livestock breeding can be greatly reduced due to the excellent suitability effect. In addition, the immunity of animals can be enhanced, and animal food (pork) obtained from these animals has been confirmed to have nutritional quality improvement effects in various aspects, such as reducing saturated fatty acids and increasing unsaturated fatty acids and iron. It is a method that can grow livestock in an eco-friendly way without using antibiotics or significantly reduce the amount of use and obtain better animal food that is nutritionally improved, and can be greatly used to obtain functional animal food, especially functional pork and beef. there is.

In addition, you can safely consume foods containing germanium, selenium, vanadium and various minerals that are beneficial to the human body, allowing you to lead a healthy life.

7. Usage and Dosage

1) Pig

- Efficacy: improvement of feed efficiency, improvement of meat quality, increase of disease resistance, sow turnover rate, improvement of piglet breeding rate, improvement of breeding environment.

- Usage Capacity: Add 1~2% per ton of neophyte feed.

2) cow

- Efficacy: Improvement of conception rate, maintenance rate, feed reduction, odor prevention, bloat reduction

- Usage Capacity: Add 1~2% per ton of neophyte feed.

3) Feeding cattle

- Efficacy: reduction of feed, shortening of breeding days, improvement of meat quality, prevention of odor, reduction of bloat

- Usage Capacity: Add 1~2% per ton of neophyte feed.

4) Broiler

- Efficacy: Improvement of growth rate, saving of medicine cost, reduction of feed, prevention of fatty liver

- Usage Capacity: Add 1~2% per ton of neophyte feed.

5) Laying hens, breeders

- Efficacy: Improvement of breeding rate, extension of spawning period, increase of anti-disease, feed reduction, prevention of odor

- Usage Capacity: Add 1~2% per ton of neophyte feed.

Claims (11)

A sericite powder processed into particles from sericite ore, having a far-infrared emissivity of 0.9 or more,
sericite powder. The method of claim 1,
The germanium content of the sericite powder is 191 mg / Kg or more,
sericite powder. The method of claim 1,
The particle diameter of the sericite powder is 325 Mesh,
sericite powder. The method of claim 1,
The sericite powder contains a selenium component and an anion,
sericite powder. Comprising the sericite powder according to any one of claims 1 to 4,
compound feed. Manufactured by mixing sericite powder and Herbaceous Peat,
feed additives. The method of claim 5,
The herb chotan is heat-treated for 20 to 30 minutes at 50 ° C. or less before mixing,
feed additives. The method of claim 5,
The feed additive is prepared by mixing the sericite powder and the herb chotan and then aging at room temperature for 5 to 30 days.
feed additives. The method of claim 5,
The content of the sericite is 15 to 16% by weight,
feed additives. Comprising the feed additive according to any one of claims 5 to 9,
compound feed. The method of claim 10,
The content of the feed additive is 2 to 20% by weight,
compound feed.