RU2559072C2 - Complex selenium-and-carotene fodder additive - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to the farming industry field, in particular, to a complex selenium-and-carotene fodder additive. The fodder additive contains a bioactive pine needle concentrate (with increased L-arginine content) and sodium selenite at the following components ratio, wt %: bioactive pine needle concentrate - 99.98%, sodium selenite - 0.02%.

EFFECT: invention usage will allow to improve the general condition of animals and immunobiological activity, decrease mortality and increase farm animals productivity.

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Description

The invention relates to the field of agriculture, in particular to the use in animal husbandry of biologically active products based on complex raw materials, including components of natural origin of woody greens and synthetic products of biochemical production. The action of the additive is aimed at preventing metabolic disturbances in the animal body, maintaining the normal function of the enzymatic antioxidant system of the body, ensuring the immunobiological activity of the body and increasing the productivity of farm animals.

Optimal diets ensure the normal course of the physiological functions of the animal organism, therefore, full feeding requires a whole complex of different substances. At the same time, as many researchers point out, a lack in the diets of farm animals of at least one nutrient, regardless of whether it serves as a source of energy or not, negatively affects the productivity and also the state of the animal’s health.

Balancing rations can be achieved not only through the introduction of scarce components, but also with the help of feed additives that increase the efficiency of feed absorption. Such biologically active preparations provide a more complete extraction of nutrients from existing feeds, normalize the digestive system and, thus, ensure the physiological needs of the animal with minimal feed costs.

Recently, the issue of the integrated use of all forest biomass has been sharply raised. A huge potential in this could be the production of biologically active substances from coniferous woody greenery.

Woody greens (needles, leaves, bark, wood) are rich in essential oils (terpene hydrocarbons), carotenoids (carotenes and xanthophylls), green pigments (chlorophyll “a” and “b”), vitamins (provitamin A, vitamins E, K, D , F), volatile and other biologically active substances.

In the composition of woody greenery, up to 35 components were found that belong to several groups of compounds: monoterpene and sesquiterpene hydrocarbons, oxygen-containing and other compounds. In the composition of woody greens, about 80% is accounted for by needles [Runova E.M., Ugryumov B.I. Complex processing of coniferous herbs in order to obtain biologically active substances // Chemistry of Plant Raw Materials. 1998. No. 1. S. 57-60. (one)]. There are a lot of nutrients in needles. In 1 kg of it contains 250 mg of carotene, up to 1200 mg of calcium and 320 mg of iron. In addition, there are copper, zinc, cobalt, phosphorus, manganese and many other trace elements that are very necessary for living organisms. In the body of most animals and birds, they are not created, so they must be supplied with food in sufficient quantities. In coniferous woody greens more than in legumes, cobalt, iron and manganese. The needles contain vitamins C, E, K, P, A and some of group B. It contains 1.5-2 times more ascorbic acid than lemons and oranges, and 25 times more than onions and potatoes. [Rysmyatov A. Z., Rysmyatov Z. A. Needles - highly nutritious and therapeutic food // Siberian, Far Eastern land, 1985. No. 1. S. 13-14. (2); Berestov V.A., Petrova G.G., Izotova S.P. Use of woody greens in industrial fur farming and rabbit breeding, 1982, 96 pp., Silt. 20 cm., L .: Kolos, Leningrad. Department 1982. (3)].

One of the products based on needles, widely used in the cosmetics industry, but, unfortunately, little used in agriculture, is coniferous chlorophyll-carotene paste.

Currently, it is known to use fat-soluble coniferous chlorophyll-carotene paste as a valuable preparation that could replace part of fish oil and vitamin A concentrate in poultry [Khinich V. I. Use of coniferous chlorophyll-carotene paste as a stimulator of A-vitamin exchange of laying hens at the beginning of oviposition / In the book: “Use of the biologically active substances of the tree”. - Riga: Zinatne, 1973, p. 135. (4)]. It is also known to use coniferous chlorophyll-carotene paste, which as a feed additive was widely used in pig and cattle breeding to increase the body's resistance to various infections in animals, as well as to increase the reproductive function and productivity of animals [Solodky F. T., Khinich V. I On the use of needles and products from it as bioactive top dressing in animal husbandry / In the book. “Use of living elements of a tree”: Scientific works of the Leningrad Forestry Engineering Academy. - L .: 1969. - S. 123-125 (5)].

The closest analogue in physiological effect and component composition is the product of coniferous chlorophyll-carotene paste [GOST 21802-84. Softwood paste chlorophyll-carotene. Specifications (6)]. Chlorophyll-carotene paste is a multivitamin product obtained by extraction of woody greens. Homogeneous, dense, ointment-like mass of olive-green color. In addition to chlorophyll, carotene, waxy and volatile substances, the paste contains unsaponifiable substances (hydrocarbons, aldehydes and ketones, alcohols), sodium salts of fatty and resin acids, vitamin E, provitamin D, sterols, mineral elements. However, the paste has an insufficiently pronounced therapeutic and prophylactic effect, since there is a significant imbalance in the introduction of biologically active substances in the regulation of redox processes, metabolism and energy in the body, as well as through additional interaction with each other, preventing metabolic disturbances. Despite the complex biochemical composition, chlorophyll-carotene paste cannot optimize mineral metabolism, does not stabilize the ratio of volatile fatty acids to the optimal level in lactating cows, does not reduce the risk of metabolic diseases in pigs (nutritional anemia of piglets, rickets of weaned pigs), and this leads to loss of animal productivity. To enhance the efficiency of the metabolic processes of the body during the conversion of complex compounds of coniferous chlorophyll-carotene paste, it is advisable to use it together with the biologically active element selenium.

Selenium is a trace element necessary for all animals. Today, more than 30 proteins are known that perform various vital functions in the body, the activity of which depends on selenium. It is part of the prosthetic groups of enzymes such as glutathione peroxidase, thioredoxin reductase, and thyroxine deiodinase.

Selenium affects the processes of tissue respiration and the immunobiological activity of the body, activates the exchange of vitamins A, E, C and K and affects their absorption and consumption. The addition of this element affects the release of trace elements from roughage.

The biological interaction of selenium is known not only with vitamins A, E, C and K, but also with other trace elements, the effect on the absorption and consumption of vitamins. It is known that in the process of metabolism in animals, there is a close relationship between vitamin E and selenium.

Although each of them performs a separate metabolic function, they complement each other, preventing metabolic disturbances in the animal body. Selenium has a specific role, depending on vitamin E, in the endoplasmic reticulum, where this element is part of non-heme iron - seroprotein X. It functions as an electron carrier between the flavoproteins and cytochrome P ⁴⁵⁰ , NaDFH - the dependent electron transfer chain of the animal liver microsomal fraction. In accordance with this, another aspect of the interaction between selenium and vitamin E is established, namely, the protection of acid-labile selenium in iron-seroproteins from oxygen oxidation with this vitamin.

Selenium and vitamin E enhance the processes of erythropoiesis, as a result of which the number of red blood cells in the blood increases. Selenium takes part in oxidative phosphorylation, together with vitamin E it acts as a catalyst in electron transfer processes, in combination with vitamins A and E it has a radioprotective effect, participates in immunobiological reactivity and develops resistance to anaphylactic shock, inhibits the action of citrate hydrolase, increases the perception of the retina of the eye light rays.

The deficiency of selenium can be compensated for by the inclusion of vitamin E. Thus, feeding sheep L-tocopherol for three months contributed to the accumulation of vitamin E in skeletal muscle, pancreas and kidneys. Similarly, intramuscular administration of sodium selenite to sheep receiving a vitamin E-deficient diet activated the incorporation of tocopherols into the kidneys, heart and skeletal muscles, pancreas, liver, and adipose tissue. Vitamin E supplements after treating animals with selenium also improved calf growth and development compared to those treated with selenium alone. The use of vitamin E alone increased the increase in calves' live weight, but to a lesser extent than with selenium. A similar dependence is observed with the combined use of vitamins retinol, calciumferol, phylloquinone in combination with selenium.

SUMMARY OF THE INVENTION

The problem to which this invention is directed, is to create a selenium-carotene complex feed additive, including a wide range of biologically active substances, cheap, environmentally friendly and universal in its physiological effect on the body of farm animals.

This problem is solved in that the selenium-carotene complex feed additive consists of a natural component of bioactive coniferous concentrate (BHC), which exhibits a high synergistic effect of metabolism through a relationship at the biochemical level with the mineral component of sodium selenite salt (Na ₂ CeO ₃ ).

Selenium-carotene complex feed additive contains bioactive coniferous concentrate (with a high content of L-arginine) and sodium selenite, in the following ratio, wt. %: bioactive coniferous concentrate 99.98%, sodium selenite 0.02%.

The proposed seleno-carotene complex feed additive has a number of significant advantages, enriches diets with macro- and microelements, increases the efficiency of the use of feed nutrients with a high level of energy and protein, optimizes the function of the gastrointestinal tract, prevents anemia and rickets in piglets and improves productivity.

As a result, enrichment of bioactive coniferous concentrate (BHC) with selenium will prevent metabolic disturbances in the animal body, support the normal functioning of the enzymatic antioxidant system of the body, ensure the body's immunobiological activity and increase the productivity of farm animals.

The close interaction of water-soluble and fat-soluble vitamins and other biologically active substances of woody greens and selenium on a number of metabolic profile indicators revealed the positive effects of preservation, growth stimulation, increased live weight, improved animal reproductive function and increased digestibility and use of food nutrients.

The technical result of the claimed invention is to obtain a complex feed additive from plant materials, which is optimally balanced in biochemical components and can exhibit both adaptogen properties and general properties due to the interaction of the components, as well as having the ability to make up the deficiency of vitamins.

This is achieved through the use of bioactive coniferous concentrate (BHC) from pine needles as a carrier of micro and macro elements and an adaptogen, where the content of the main biologically active substances is chlorophyll 700-1200 mg%, carotenoids, incl. β-carotene, is 30-60 mg%, vitamin E up to 50 mg%, vitamins of the K group 1-2 mg%, phytosterol (mainly b-sitosterol) up to 3%, polyprenols up to 1%, trace elements 5-7% . Bioactive coniferous concentrate contains up to 2.48 g of L-arginine per 1 kg, which is associated with the specificity of the raw material.

Bioactive coniferous concentrate from pine needles is obtained as follows. Raw materials - woody greens (representing chopped pine coniferous paw) are extracted with a hydrophobic organic solvent, for example, BR-2 grade extraction gasoline at a needles: extractant ratio of 1: 5 for 3-3.5 hours at an extractant boiling point of 70-95 ° С. After extraction and sedimentation, the gasoline extract is pumped into the sumps. For a more complete sedimentation and discharge of the extract, an excess pressure of 20-30 kPa is created in the extractor. After draining the extract, gasoline is blown out of the extracted woody greenery with hot steam.

The gasoline extract comes from the extractor to the sumps. In this case, coagulation and deposition of waxy products occurs. Duration of wax deposition is 12-16 hours. After sedimentation, the gasoline extract is filtered through a nylon cloth to separate waxy products. The resulting residue (resinous substances) is pumped into a distillation cube, where gasoline and crude essential oil are distilled off from extractive substances. The bottom residue, which is the sum of extractives without waxes and essential oils, is poured hot in a saponifier reactor, where fatty and resin acids are neutralized with a 35% aqueous NaOH solution. Neutralization and saponification is carried out with effective stirring at a temperature of 70 ° C for 1 hour. The produced product is diluted with water. An aqueous solution of coniferous concentrate is introduced into the obtained product, an aqueous solution of sodium selenite (white crystalline powder with a selenium content of 45%) with a concentration in the aqueous solution of 0.2%. In the corresponding component ratio - bioactive coniferous concentrate 99.98%, sodium selenite 0.02%. At the output, we obtain a selenium-carotene complex feed additive.

Selenium-carotene complex feed additive based on the proposed composition has new properties:

- increase productivity in farm animals (repair young pigs), increase the body's resistance;

- chemical neutrality with respect to the contacting parts of the metering devices and animal feeders;

- the absence of toxic effects at appropriate doses in farm animals.

The study of the beneficial properties of the seleno-carotene complex feed additive was carried out under the conditions of a production experiment on piglets in livestock farms of the Nizhny Novgorod region.

Example. SEC "Country Defense". Pig breeding. The object of the study was young pigs (mumps) 4-6 months. In studies, 3 groups of animals were formed. The number of animals in each group is 20 goals. The formation of groups was carried out on the basis of analogues taking into account the origin, live weight, physiological state and age. The animals in the experimental and control groups are identical.

In the experiment, the piglets of the control group received complete feed produced by the farm; I experimental group - complete feed with selenium-carotene complex feed additive (S-KKKD) in the amount of 0.14 g / kg live weight / day; II experimental group - complete feed with selenium-carotene complex feed additive (S-KKKD) in the amount of 0.17 g / kg live weight / day.

Experimental piglets were fed according to the detailed norms for feeding farm animals developed by A.P. Kalashnikov, N.I. Kleimenov and others (2003).

Monitoring the growth and development of fattening pigs was carried out according to the results of monthly weighings and calculations of the absolute and average daily weight gain, relative growth for months and periods.

When conducting studies to control the physiological state of animals, the morphological and biochemical composition of blood taken from a vein from 3 animals of each group was studied. Studies were conducted on the content of hemoglobin, the number of red blood cells, white blood cells and platelets.

Table 1 Hematological blood counts of piglets (age 180 days) Indicator Experience groups Control I experimental group (feeding PK + S-KKKD 0.14 g / kg g. M / day) II experimental group (feeding PK + S-KKKD 0.17 g / kg g. M / day) Red blood cells, 10 ¹² / L 6.61 6.52 7.32 White blood cells, 10 ⁹ L 27.7 30,2 23.3 Hemoglobin, g / l 102.3 114.3 123.67 Platelets 10 ⁹ % 436.3 262.67 382.3

As a result of our studies of the peripheral blood of the experimental and control groups of pigs, it was found that the hemoglobin content in the experimental groups was higher by 180 g of the life of pigs by 12 g / l and 21.3 g / l, respectively.

The leukocyte level in animals of the experimental group I was also 2.5 · 10 ⁹ / L higher by day 180; in the second experimental group, this indicator was 4.4 · 10 ⁹ / L lower than the control group and was close to the physiological norm, the difference was not significant . The general morphological composition of the blood, in addition to the level of leukocytes (which is slightly higher than normal), is within the physiological norm.

The calcium content in the blood of animals was within the normal range with a slight tendency to increase at the end of the experimental period in groups receiving a selenium-carotene complex feed additive. Therefore, we can talk about the positive effect of the additive on calcium metabolism.

As shown by weighing experimental piglets, the use of selenium-carotene complex feed additives in the diets of experimental pigs had a positive impact on their productivity. The data are shown in table 2.

table 2 The mass of piglets at the end of the experimental period (age 180 days) Indicators Group I experimental group (feeding PK + S-KKKD 0.14 g / kg g. M / day) II experimental group (feeding PK + S-KKKD 0.17 g / kg g. M / day) Control The mass of animals at the end of the experiment, kg 84.5 ± 2.34 86.2 ± 3.22 80.4 ± 4.16

Thus, feeding piglets of the experimental groups of the seleno-carotene complex feed additive (Tables 1, 2) causes an increase in live weight gain, an improvement in the biochemical and morphological parameters of the blood. Based on the studies, the most optimal dosage is 0.17 g / kg g. m / day

The technical and economic advantages of the proposed seleno-carotene complex feed additive for animal husbandry is to effectively prevent metabolic disorders in the animal organism, and to maintain the normal functioning of the enzymatic antioxidant system of the body. When using selenium-carotene complex feed additives in animals, the general condition, immunobiological activity improves, mortality decreases and the productivity of farm animals increases.

Information sources

1. Runova E. M., Ugryumov B. I. Integrated processing of coniferous herbs in order to obtain biologically active substances // Chemistry of plant raw materials. 1998. No. 1. S. 57-60.

2. Rysmyatov A. 3., Rysmyatov Z. A. Needles - highly nutritious and therapeutic food // Siberian Land, Far Eastern, 1985. No. 1. S. 13-14.

3. Berestov V. A., Petrova G. G., Izotova S. P. Use of green wood in industrial animal husbandry and rabbit husbandry, 1982, 96 pp., Silt. twenty.; see., L .: Kolos, Leningrad. Branch, 1982.

4. Khinich V. I. The use of coniferous chlorophyll-carotene paste as a stimulator of A-vitamin metabolism of laying hens at the beginning of oviposition / In the book: “Use of biologically active substances of the tree”. - Riga: Zinatne. 1973.- S. 135.

5. Solodky F. T., Khinich V. I. On the use of needles and products from it as bioactive top dressing in animal husbandry / In the book. “Use of living elements of a tree”: Scientific works of the Leningrad Forestry Engineering Academy. - L .: 1969. - S. 123-125.

6. GOST 21802-84 Softwood paste chlorophyll-carotene. Technical conditions

Claims (1)

The selenium-carotene complex feed additive includes bioactive coniferous concentrate (with a high content of L-arginine) and sodium selenite, with the following ratio of components, wt.%: Bioactive coniferous concentrate 99.98%, sodium selenite 0.02%.