RU2653549C2 - Method of increasing the productive quality of laying hens and consumer properties of produced products (eggs) - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to a method for increasing the productive qualities of laying hens and consumer properties of the produced products (eggs). Method includes introducing into the main diet a multicomponent biologically active feed supplement from the plant resources of the Magadan Region, consisting of herbal flour of wild medicinal plants, brown seaweed flour, urtica dioica and costmary flour, possessing a number of biologically active properties, having a positive effect on all physiological processes occurring in the body of laying hens. And the additive is introduced from the calculation of 3 kg per 1 ton of mixed fodder to laying hens of all age and productive periods continuously.

EFFECT: use of the invention will increase the productivity of laying hens.

1 cl, 3 tbl

Description

The invention relates to agriculture (feeding poultry) and can be used to organize biologically complete feeding of laying hens in the conditions of the Magadan region.

Method of application: feeding a multicomponent biologically active feed additive from plant resources of the Magadan region containing grass flour from wild medicinal plants, flour from brown seaweed (kelp), nettle flour and tansy flour, at the rate of 3 kg per 1 ton of feed laying hens of all age and productive periods continuously.

The implementation of the invention contributes to the intensification of metabolic processes occurring in the body of laying hens, so the digestibility of dry matter of feed has increased by 2.5%; protein - by 1.4%; fat - by 15.1%; BEV - by 3.2%; fiber - by 10.6%; the use of feed nitrogen increased by 9.1%; phosphorus - by 14.7%; calcium - 4.0%; potassium - by 18.4%.

The intensification of metabolic processes in the poultry has a positive effect on increasing the productive qualities of laying hens: gross egg collection by 6.7%; egg laying on the average laying hen - by 6.2%; egg laying intensity - by 5.6%; average egg weight - 4.8%; yield of egg mass - by 18.6%.

The implementation of the invention improves the consumer properties of products (eggs): the concentration of carotenoids in the yolk of the egg increased by 34.0%; the dry matter content in the egg as a whole, without shell - by 2.3%; crude fat - by 1.4%; crude protein - by 4.4%; calcium - by 2.2%; phosphorus - by 5.9%; potassium - by 12.3%; sodium - by 7.1%.

The intensification of metabolic processes and an increase in the productivity of laying hens influenced the increase in feed conversion: a decrease in feed costs for the production of 10 eggs was 6.2%; for the production of 1 kg of egg mass - 15.6%.

Known feed products, premixes and additives for entering into the diets of farm animals and poultry containing in their composition flour from wild plants, dioica nettle, common tansy, algal bionts: ⁽¹⁹⁾ RU ⁽¹¹⁾ 2402232 ⁽¹³⁾ C2 Trukhachev V.I. . (RU); Zadorozhnaya V.N. (RU); Any S.I. (RU); Mironova O.P. (RU) “Dietary supplement for broiler chickens”, including clover grass meal; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2392826 ⁽¹³⁾ C1 Polyanskiy M.M. (RU) “Feed supplement for poultry and animals”, including plantain, bitter wormwood and yarrow; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2392825 ⁽¹³⁾ C1 Polyanskiy M.M. (RU) "Feed supplement for poultry and animals", including oregano, St. John's wort, plantain, celandine, chamomile; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2409973 ⁽¹³⁾ C1 Alykov N.M. (RU), Belaya M.V. (RU), Alykova T.V. (RU), Alykov E.N. (RU), Yavorsky N.I. (RU) “Comprehensive feed additive for farm animals and birds,” including plantain, celandine, wormwood, dioica nettle; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2392824 ⁽¹³⁾ C1 Polyanskiy M.M. (RU) “Feed supplement for poultry and animals,” including St. John's wort, plantain, yarrow, pharmacy chamomile, dioica nettle; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2355187 ⁽¹³⁾ C1 Polyanskiy M.M. (RU) "Feed supplement for poultry and animals" containing oregano, St. John's wort, coltsfoot; plantain, celandine, sweet clover, wormwood, yarrow, pharmacy chamomile, dioica nettle; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2467590 ⁽¹³⁾ C1 A V. Kalikhin V.V. (RU), Efimova L.V. (RU), Lopatina E.V. (RU), Kalikhin E.V. (RU) “Feed additive for farm animals and birds”, containing dandelion root and dioica nettle; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2392827 ⁽¹³⁾ C1 Polyanskiy M.M. (RU) “Feed supplement for poultry and animals”, including St. John's wort, celandine, melilot, clover, tansy; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2405374 ⁽¹³⁾ C2 Polyansky M.M. (RU) "Feed supplement for poultry and animals", including oregano, St. John's wort, plantain, coltsfoot, tansy; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2534266 ⁽¹³⁾ C2 Ignatovich L.S. (RU) “Biologically active feed additive for laying hens”, which includes herbal flour from traditional wild plants: narrow-leaved Ivan tea; reed langsdorf; meadow bluegrass; recessionary godson; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2534307 ⁽¹³⁾ C2 Ignatovich L.S. (RU) “Composition of biologically active feed additives for laying hens”, including grass flour from tons of wild plants, flour from brown seaweed; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2541404 ⁽¹³⁾ C2 Ignatovich L.S. (RU) “Integrated biologically active feed additive for laying hens”, including herbal flour from wild plants, flour from brown seaweed, flour from cones of dwarf pine; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2374899 ⁽¹³⁾ A Afanasyev V. (RU), Boyko L. (RU), Trunova L. (RU), Denisov Yu. (RU), “Premix and method of its application”, including its composition is dried seaweed (kelp); ⁽¹⁹⁾ RU ⁽¹¹⁾ 2312518 ⁽¹³⁾ C1 Isaev V.A. (RU), Adelman V.Ya. (RU), Erastov G.M. (RU), Terentyev V.A. (RU) "Feed additive for farm birds and animals and a method of increasing their productivity and resistance", containing Far Eastern kelp; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2312516 ⁽¹³⁾ C2 Rakhimov A. (RU), Androsova L. (RU), Tkachenko O. (RU) “Feed agent for laying hens”, including seaweed flour; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2386344 ⁽¹³⁾ C2 Starikova N.P. (RU), Mammaeva T.V. (RU) “Dietary supplement for chickens” consisting of kelp; ⁽¹⁹⁾ RU ⁽¹¹⁾ 2009133501 ⁽¹³⁾ A Kuzmina I.Yu. (RU) “Complex supplement for cattle with immunostimulating activity”, containing Rhodiola rosea extract and brown seaweed flour.

The disadvantage of fodder products and additives produced in other regions of the Russian Federation is the high cost of transportation costs for their delivery to the regions of use. The use of multicomponent feed additives from plant resources growing in the Magadan Region in the diets of laying hens is a more rational and effective form of enrichment of rations of farm poultry with biologically active substances.

We have discovered a number of published sources on the effect of the use of herbal flour additives of various compositions in poultry diets:

According to the literature, the proportion of vitamin C in the mountaineer meal is 469.5 mg%.

It is a good source of minerals: calcium - 1.20%; phosphorus - 0.40%; Manganese - 450 mg / kg; copper - 16 mg / kg; zinc - 90 mg / kg; cobalt - 10.2 mg / kg; iron - 600 mg / kg and amino acids: methionine with cystine - 0.62%, arginine - 1.04%, threonine - 0.68%. The feeding of poultry highlander flour contributed to an increase in the live weight of chickens by 1.7-5.6%, a decrease in feed costs per 1 kg of growth by 1.9-5.9%, and an increase in preservation by 2.0-6.0% [12].

The content of vitamin C in rose hips is 447.5 mg%. When feeding laying hens with compound feed containing 4.0% flour from rose hips, the egg-laying intensity increased by 0.2-1.2%, the cost of feed by 10 pieces of eggs decreased by 4.1% [3].

As a result of studies on the use of potent stalk, it was revealed that the addition of potato stalk supplements to poultry diets increased egg production by 11.4%, hatchability by 12.1% and reduced feed costs per unit of production [4, 5].

Herbal flour from wild medicinal plants, consisting of narrow-leaved Ivan tea; Vejnik Langsdorf; meadow bluegrass; rhomboid godchild has a high content of biologically active substances: vitamins A, C, E, K, group B, carotene; mineral elements - phosphorus, potassium, magnesium, iron, manganese, copper; amino acids - lysine, valine, threonine, phenylalanine, leucine and isoleucine [6, 7, 8, 9].

The use of herbal flour from wild medicinal plants in a dose of 3.0-4.0% in pure form and 0.5-3.5% by weight of the diet as part of component feed additives contributes to an increase in gross egg collection to 8.8%; egg laying intensity - up to 7.5%; average egg mass - up to 7.0%; yield of egg mass - up to 21.5%.

Enrichment of diets with feed additives with the inclusion of herbal flour allowed to increase the nutritional properties of eggs: the content of raw fat in the egg increased to 7.3%; crude protein - up to 2.5%; BEV - up to 13.8%; carotene in the yolk of an egg - up to 10% [10, 11, 12, 13, 14].

A number of published sources have been found to study the effect of the use of dioecious nettle flour additives in poultry diets:

The content of vitamin C in nettle flour from dioica is 229.3 mg / g, E - 104.4 μg / g, carotene - 420.0 mg / kg; the content of micro and macro elements is rather high: manganese - 69 mg / kg; zinc - 42 mg / kg; copper - 14.0 mg / kg; cobalt - 12.4 mg / kg; iron - 760.0 mg / g; calcium - 0.40%; phosphorus - 0.42%; amino acids: lysine - 0.87%; methionine - 0.49%; cystine - 0.24%; arginine - 1.04%. As a result of studies, it was found that feeding broiler chickens with feed content of 2.0% dicotyledonous nettle flour contributed to an increase in live weight by 5.9%, safety - by 3.0%, and reduction in feed costs by 1 kg of live weight gain - by 6.8% [15].

The introduction of nettle flour to broiler chickens leads to an increase in the accumulation of vitamin C in the liver by 0.41-2.04 mg / g; in the kidneys - by 1.01-1.96 mg / g; in the adrenal glands - by 0.64-2.31 mg / g and a corresponding increase in vitamin A in these organs, Maltsev causes an increase in availability: lysine by 12.3%; methionine - by 6.7%; cystine - by 1.4% [16].

According to N. Rabazanov’s observation, the use of dioecious nettle flour in broiler chickens rations helps to increase safety by 2-3%, live weight by 4.3%, reduce feed costs by 1 kg of growth by 6.4%, and increase production profitability - by 8.5% [15].

Based on studies on broiler chickens in the Republic of Dagestan Egorov, the authors showed that feeding broilers mixed feed containing 2% nettle flour contributed to a 5.9% increase in live weight, 3% preservation, and 1 kg reduction in feed costs. increase in live weight - by 6.8% [17, 18].

The inclusion in the rations of laying hens of feed additives, which include 2.0-3.0% flour from dicotyledonous nettle, helps to intensify the metabolic processes in the body of laying hens, increasing the gross egg collection by 7.8-8.1%; egg laying intensity - by 6.4-6.7%; the average egg mass - by 3.2-3.4%; yield of egg mass - by 17.3-20.9%; the concentration of carotenoids in the yolk of eggs is 52.6-57.4%. Feed costs for 10 eggs decreased by 7.2-7.5%; per 1 kg of egg mass - by 14.7-17.3% [14, 19, 20].

Known research on the use of seaweed in the diets of poultry:

Akhmedkhanova P.P., Bayranbekov Yu.B., Gamidova NR, Isaeva N. studied the effect of inclusion of flour from Caspian seaweed in broiler diets during heat stress [21,22].

Evkhutich N., I. Lebedeva conducted a scientific experiment on chickens, to which Japanese kelp was added to the feed in the form of a suspension in an amount that ensures an increase in iodine level. The iodine content in the chicken egg increased 2.4–2.6 times [23, 24].

Ignatovich L., Korzh L. studied the effect of feed additives from brown seaweed flour (kelp) on the physiological state, increase the productive qualities of laying hens, product quality (eggs), feed conversion and economic production efficiency. The iodine content in the egg increased up to 8 times [25, 26, 27, 28, 29, 30, 31, 32].

Mammaeva T.V., Okara A.I., Starikova N.P. determined the effect of feed additives based on kelp on the reproductive functions of laying hens [33, 34].

Tischenkov A.K., Chernoshchekov E.G. and Shevyakov A.K. investigated the effect of introducing various sources of iodine into broiler chickens rations, including pure kelp powder [35].

Tolokonnikov S.Yu. experiments were conducted on the effect of the inclusion of algal bionts in broilers rations [36].

Sharvadze R., Krasnoshchekova T. conducted research on the effect of seafood on the physiology of chickens [37.38].

In all of the above studies, an increase in poultry productivity and the quality of products produced, an increase in feed conversion was observed.

The purpose of our invention is to increase the productive qualities of laying hens, consumer properties of the resulting products (eggs) and feed conversion due to the use of new non-traditional feed additives from local plant resources in poultry feeding.

This goal is achieved by applying in the diets of laying hens a multicomponent biologically active feed additive from local plant resources, traditionally grown in the Magadan region, consisting of grass flour of wild medicinal plants, flour from dicotyledonous nettle and brown seaweed, characterized in that it additionally contains a new component - tansy flour.

Brown algae flour has a chemical structure that has no analogues among compounds obtained from terrestrial organisms, as well as biological activity, often an order of magnitude higher than the corresponding parameters of known substances obtained from plants and land animals (Table 1).

The composition of algae includes a large number of vitamins: B ₁ , B ₂ , B ₃ , B ₁₂ , B _C , C, D, E and provitamin A. Phyloquinone (vitamin K present in plants) is contained in brown seaweed flour (kelp) causing the normal state of the blood coagulation system, its alimentary insufficiency is especially manifested in the cell content of chickens (lack of caprophagy).

The biochemical feature of algae is that they are able to accumulate trace elements found in negligible amounts in the surrounding sea water. The most specific of these is iodine.

Poultry is more susceptible to thyroid diseases than other animals, and therefore, for poultry farming, enrichment of feed with iodine is of particular importance. Against the background of iodine deficiency, deep metabolic disorders occur in the bird's body, as a result of which digestibility and digestibility of biologically active feed substances are worsened and, as a result, the development of internal organs, circulatory and reproductive organs is impaired, egg productivity decreases, and nutritional properties of manufactured products decrease. Excess inorganic iodine in the diet of the bird, added to the feed in the form of iodic acid or iodide salts, reduces the productivity of the bird, since the iodine contained in them does not firmly connect with its stabilizing elements, as a result of which these complexes are partially destroyed within three months. In the future, inorganic compounds of iodine become inaccessible to the body of the bird, therefore, their introduction into diets is not effective enough. Mineral compounds of iodine are incompatible with organic acids and salts of many metals. Iodine ion has a chemical similarity to copper ion, so potassium iodide in the presence of copper sulfate quickly reacts with it, as a result of which part of the iodine volatilizes, and the other part binds to copper, turning into iodine copper - a poorly digestible compound. Thus, the introduction of potassium iodide and copper sulfate into the premix is practically incompatible. Iodine released as a result of oxidation has a strong destructive effect on many vitamins and biologically active substances. An overdose of the mineral compounds of iodine is also possible, since their assimilation by the body of the bird is not regulated. To eliminate these factors, iodine must be ingested as part of protein (organic) compounds, in respect of which metabolic regulation is ensured in poultry.

In these compounds, the inhibitory effect of the aforementioned minerals on the absorption of iodine is significantly lower; their absorption is strictly individual, depending on the iodine deficiency of the body. Organic iodine compounds contained in algae are more resistant to natural degradation, have a prolonged action, low reactivity to oxidizing agents, which is very important in case of a possible overdose. The assimilation of iodized proteins by the body is accompanied by the removal of iodine from them under the action of special enzymes. The activity of these enzymes is directly dependent on the degree of iodine deficiency and allows you to absorb only the strictly necessary amount of iodine. An overdose of organic iodine compounds is excluded, since their excess is excreted from the body naturally [5, 33, 34, 39, 40, 41, 42, 43, 44].

Stinging nettle is nutritionally close to legumes and has a high feed value. Nettle flour is a good feed for poultry, it contains: more than 20% protein, about 5% fat, up to 18.5% fiber. The availability of nettle flour nutrients for poultry is close to that of green grass. Recently, in a number of countries, nettle has been used as a drug alternative to feed antibiotics, created by nature and not causing a negative effect on the body of poultry. This is due to the fact that nettle contains biologically active substances (vitamins, minerals, organic acids, protein substances, amino acids, sugars) in an easily accessible form. Dicotyledonous nettle flour contains more than 2% tannins, as well as flavonoids (quartzetine and its glycosides), alkoid-like substances, volatile, choline, formic, caffeic, ferulic, pantothenic and parocoumaric acids, gum, stearins, histamine, histamine, glycine, , coproporphyrin [5, 15, 18, 45, 46, 47].

Feeding nettle flour improves appetite, increases the absorption of nutrients, stimulates the growth and productivity of poultry, reduces elevated blood sugar and urine levels, stimulates hematopoietic function, and regulates the alkaline-acid balance in the body. It is a source of chlorophyll, and therefore has an ulcer healing and antibacterial agent (Table 2).

Anticancer, regenerative, anti-stress, antitoxic, stimulating indicators of biological activity were detected in dioica nettle. It has a positive effect on gout, rheumatism, kidney and bladder diseases, metabolic disorders, and neuropsychic and osteoarticular diseases, stimulation of the sexual activity of animals, and increases their productive qualities [5, 48, 49, 50, 51].

The therapeutic and stimulating effect of nutrients contained in the components of the feed supplement from local plant resources on the bird's organism is also associated with the presence of biologically active substances of various composition in it, belonging to different classes of chemical compounds: alkaloids, coumarins, saponins, mucus, flavonoids, phytoncides , pectins, glycosides. These nutrients affect the absorption of nutrients from the gastrointestinal tract, enhance the functioning of the heart, nervous system, excrete metabolic products, provide appropriate reactions of hormones, enzymes and vitamins, maintain acid-base balance in the blood, take part in building body tissues, etc. .d.

The multicomponent feed supplement offered by us can be a significant reserve, which reduces the deficiency of biologically active and mineral substances in the bird's body due to the active substances that make up its composition.

The composition of the components of a biologically active feed additive, consisting of grass flour of wild medicinal plants, flour from brown seaweed (kelp), nettle and tansy, contains a huge range of vitamins:

B vitamins (riboflavin, pantothenic acid, choline, nicotinic acid, pyridoxine, cyancobalamin, folic acid) affecting the increase in appetite, physiological development, development and functioning of the internal organs of the bird, and its productivity.

Vitamin C (ascorbic acid) catalyzes the oxidation processes in the body, participating in the synthesis of steroid hormones in the adrenal cortex, the formation of collagen, saves folic acid, affects the metabolism of sulfur, inactivation of toxins, increases the body's resistance to infections and stress, and has an antioxidant effect.

Vitamin D, affects the stabilization of absorption in the bones of calcium and phosphorus.

Vitamin A (retinol) contributes to the growth, development, high productivity of poultry, regulating metabolic processes in its body and participating in the functions of biological membranes.

Vitamin E (tocopherol), which has an antioxidant effect, has a versatile effect on the metabolism in the bird's body, plays a large role in the functioning of the lungs and heart, cell respiration, and gem synthesis in the bone marrow. It promotes the development of intense immunity, protects vitamins A, D, carotenoids from oxidation, improving their absorption. It has a positive effect on the sexual function and productive qualities of the bird.

Vitamin K (phylloquinone present in plants) causes the normal state of the blood coagulation system; its deficiency slows down blood coagulation. Alimentary insufficiency is manifested in the cell content of chickens, when caprophagy is practically excluded. Its disadvantage increases with the use of fodder coccidiostatics, antibiotics that inhibit the growth of microflora in the large intestine. It contributes to the production of menaquinone - vitamin K, synthesized by intestinal microflora.

Mineral substances that are part of the components of a biologically active feed additive: iron (necessary for the body of the bird to form hemoglobin, participates in redox reactions. Iron metabolism and assimilation are associated with the content of vitamins of group B, calcium, copper in the diet of the bird), potassium (plays a huge role in regulating the water-salt balance in the animal’s body), magnesium (affects the absorption of gases in the gastrointestinal tract of the animal. Preparations containing magnesium are used for flatulence), manganese (activates oxidative processes, has a specific lipotropic effect, increases the utilization of fats in the body of the bird and counteracts the fatty degeneration of the liver. With a lack of manganese, the egg production of the bird decreases, the quality of the shell deteriorates), phosphorus (the main part of which is located in the skeleton in the form of calcium phosphate. It is in the composition of many coenzymes, phospholipids, phospholipo - and phosphoglycoproteins. Deficiency of phosphorus in diets leads to impaired calcium metabolism, the occurrence of rickets and osteoporosis), m food (catalyzes the inclusion of iron in the gem structure, regulates the maturation of red blood cells, normalizes the metabolism of calcium and phosphorus, the synthesis of certain hormones), zinc (participates in the processes of bone formation, blood formation, egg shell formation, affects the growth, development and reproductive function of the bird's body), iodine (necessary for the synthesis of thyroid hormones, the lack of which leads to its increase, the synthesis of thyroid hormones is disrupted, resulting in a decrease in bird productivity and egg mass).

The therapeutic and stimulating effect of a multicomponent feed additive on the bird organism is also associated with the presence of biologically active substances of various composition in it, belonging to different classes of chemical compounds: alkaloids (complex nitrogen-containing compounds used to treat and prevent diseases of the internal organs and nervous system), coumarins (have a vasodilating, antispasmodic and antitumor effect), tannins or tanides (the astringent and anti-inflammatory effect of which based on the formation of a film on the mucous membranes, consisting of protein substances that prevents further inflammation. Tanides have a coagulating effect on proteins and are used as a local hemostatic agent. They are used as an antidote for poisoning by heavy metals and alkaloids), mucus (by its enveloping effect, improves digestion, and, consequently, to better absorption of nutrients), saponins (have a diuretic and choleretic effect, lowering blood pressure); flavonoids (possess antioxidant activity, the ability to strengthen the walls of blood capillaries, reducing their permeability and fragility), phytoncides (stimulate the body's defenses); pectins (hardened substances of the intercellular spaces, are composed of high molecular weight carbohydrates, adsorb toxic substances and remove them from the body, have the ability to bind radioactive cobalt and strontium, as well as heavy metals), terpenoids (a large group of plant active substances that are carbohydrates. To this group in particular, carotenoids), organic acids (have a positive physiological effect on the bird's body, increase the excretion of digestive juices and intestinal motility), hl kozidy (nitrogen-free compound, consisting of sugary (glycogen) and nesaharistoy (aglycon) portion. They support the heart muscle, a positive effect on the gastrointestinal tract, increased appetite) [52, 53, 54, 55, 56, 57].

The combined effect of the active substances contained in the components of the feed additive activates all the vital functions of the bird's body, including metabolic processes and processes that affect the increase in the productive qualities of laying hens and the quality of the products produced.

Example. The experimental part of the research was carried out in the production environment of LLC “Dukchinskaya Poultry Factory” (Magadan). The duration of the experiment was 107 days. Material for research - laying hens of cross Hayseks white age period of 35-50 weeks. The control group of birds received the main feeding ration (RR) used in the farm throughout the experiment. The experimental group included a multicomponent feed supplement in the main diet (Table 3).

According to the results of studies, it was revealed that in the experimental group there was an intensification of metabolic processes occurring in the body of laying hens, so the digestibility of dry matter of the feed increased by 2.5%; protein - by 1.4%; fat - by 15.1%; BEV - by 3.2%; fiber - by 10.6%; the use of feed nitrogen increased by 9.1%; phosphorus - by 14.7%; calcium - 4.0%; potassium - by 18.4%.

There was an increase in the productive qualities of laying hens: the gross egg yield increased by 6.7%; egg laying on the average laying hen - by 6.2%; oviposition intensity - by 5.6%; average egg weight - 4.8%; the yield of egg mass is 18.6%.

Feed costs per 10 pcs. eggs decreased by 6.2%; per 1 kg of egg mass - by 15.6% in comparison with the control group of birds.

The consumer properties of eggs increased: the concentration of carotenoids in the yolk of the egg increased by 34.0%; the dry matter content in the egg as a whole, without shell - by 2.3%; crude fat - by 1.4%; crude protein - by 4.4%; calcium - by 2.2%; phosphorus - by 5.9%; potassium - by 12.3%; sodium - by 7.1%.

The data obtained can be used to organize biologically complete feeding of laying hens and improve the consumer properties of products in the conditions of the Magadan region.

Information sources

1. Alakayev A. Highlander bird in the diet of broiler chickens. - Abstract of thesis of the candidate. s / s. n - Sergiev Posad, 2008 .-- 18 p.

2. Alakaeva A., Akhmedkhanova R., Salakhbekov I., Isaeva N. Flour from the mountaineer bird in feeding chickens. // Poultry farming. - 2008. - No. 6. - S. 25.

3. Salakhbekov I. Rosehips in feeding laying hens. Abstract of a dissertation by a / c. n - Sergiev Posad, 2002 .-- 18 p.

4. Donets E. Ecological aspects of the use of a water-alcohol extract of potato stalker powerful in chicken diets. - Abstract of the dissertation n - Khabarovsk, 2002 .-- 22 p.

5. Starikova N. Biologically active additives: state and problems: monograph. -Khabarovsk: RIC KhGAEP, 2005 .-- 124 p.

6. Medicinal plants of Siberia / V. Minaeva - 5th out of, rev. and add. - Novosibirsk: Science. Siberian branch. - 1991 .-- 431 p.

7. Khokhryakov A. Flora of the Magadan region. / M .: Nauka, 1985. - 398 p., Chastukhina S. Medicinal and food plants of Kolyma. - Magadan: JSC "MAOBTI", 1995. - S. 78-85.

8. Polezhaev A., Berkutenko A. Key to fodder plants of the reindeer. Magadan Book Publishing House, 1981. - 152 p.

9. Andreev N. Meadow farming. Ed. 3rd, rev. / M., Kolos, 1974. - 400 p.

10. Ignatovich L.S. Flour from a mixture of wild medicinal plants in rations of hens / L.S. Ignatovich L.V. Korzh // Poultry - 2011, - No. 12. - S. 25-26.

11. Ignatovich L.S. The use of grass meal from traditional wild plants in rations of laying hens // Poultry and poultry products. - 2012. - No. 5. - S. 32-33.

12. Ignatovich L.S. Herbal flour instead of antibiotics / L.S. Ignatovich, L.V. Korzh // Livestock of Russia. - 2013. - No. 1. - S. 15.

13. Ignatovich L.S. Local plant resources in the diets of laying hens / L. Ignatovich // Poultry and poultry products. - 2014. - No. 3 - S. 32-34.

14. Ignatovich L.S. Component feed additives based on herbal flour in laying hens rations. / L.S. Ignatovich // Bird and poultry products. - 2015 - No. 3. - S. 30-32.

15. Rabazanov N. Use of dioecious nettle flour in feeding broiler chickens. Abstract of the dissertation n - Sergiev Posad. - 2003. - 22 p.

16. Maltsev A.B. Unconventional feed and feed additives / A.B. Maltsev [et al.] // Russian Academy of Agricultural Sciences Siberian Scientific Research Institute of Scientific and Applied Mathematics. - Omsk, 2005 .-- S. 166-194.

17. Ways to improve the balance of diets for poultry: guidelines. / UPPER. Siberian branch. Dal NIIISH. - Novosibirsk, 1990 .-- 36 p.

18. Egorov I.A. Valuable feed for poultry / I.A. Egorov // Poultry - 2014. - No. 06. - S. 22-24.

19. Ignatovich L.S. Feed additives from plant materials / Ignatovich L.S. // Poultry farming. - 2015 - No. 5 - S. 23-25.

20. Ignatovich L.S. Component feed additives in the diets of industrial laying hens / Ignatovich L.S. // Poultry farming. 2015 - No. 7 - S. 35-38.

21. Akhmedkhanova P.P. The use of unconventional feed in the diet of poultry / P.P. Akhmedkhanova, Yu.B. Bayranbekov, N.R. Hamidova // Materials of the XXI conference. Achievement in modern poultry farming: research and innovation. Sergiev Posad - 2009 .-- S. 81-82.

22. Akhmedkhanova P.P. Flour from mariculture for poultry / Akhmedkhanova R., Isaeva N. // Compound feed. - 2009. - No. 5. - S. 62.

23. Evkhutich N.V. The use of iodine in bird feeding and human nutrition / N.V. Evtu-hich // Bird and poultry products. - 2006. - S. 35-36.

24. Evkhutich N. Chicken egg - overcoming iodine deficiency / N. Evkhutich, I. Lebedeva // Poultry farming. - 2005. - No. 7. - S. 22-23.

25. Ignatovich L.S. Flour from kelp for laying hens / Ignatovich L.S. // Compound feed. - 2009. - No. 8. - S. 62.

26. Ignatovich L.S. The use of brown seaweed (kelp) in the feeding of an industrial herd of laying hens / L.S. Ignatovich // Poultry farming. - 2010 - No. 5. -. S. 17-18.

27. Ignatovich L.S. Brown algae feed supplement. / Ignatovich L.S. // Poultry farming. - 2011. - No. 5. - S. 18-20.

28. Ignatovich L.S. Laminaria flour for laying hens / L.S. Ignatovich, L.V. Korzh // Livestock of Russia. - 2012. - No. 3. - S. 11.

29. Ignatovich L.S. Component feed additives in the diets of laying hens / Ignatovich L.S. // Poultry farming. - 2013. - No. 7 - S. 9-12.

30. Ignatovich L.S. Additives from local plant materials in the diets of laying hens / Ignatovich L.S. // Poultry and poultry products. - 2013. - No. 5. - S. 12-15.

31. Ignatovich L.S. Local plant resources in the diets of laying hens / Ignatovich L.S. // Poultry and poultry products. - Number 3. - 2014 .-- S. 32-34.

32. Ignatovich L.S. Simple, affordable, profitable / Ignatovich L.S., Korzh L.V. // Livestock of Russia. - 2014. - No. 10. - S. 21.

33. Mammaeva T.V. Ecological and biological rationale for the use of kelp as a feed additive in chicken diets / abstract. dis.kand. biol. Sciences: 03.00.16 / T.V. Mammaev; Khabarovsk, 2002 .-- 25 p.

34. Mammaeva T.V. The effect of feed additives from kelp on the reproductive functions of chickens / T.V. Mamaev, A.I. Okara, N.P. Starikova // Zootechnics. - 2002. - No. 12. - S. 15-17.

35. Tischenko A.N. Iodine in the diets of broiler chickens / A.N. Tischenkov, E.G. Chernoshchekov, A.N. Shevyakov // Poultry and poultry products - 2007 - No. 2. - C 39-41.

36. Tolokonnikov S.Yu. The use of Black Sea algae in feeding broilers disk. b. n .: 06.02.02 / S.Yu. Tolokonnikov; Zagorsk, 1987 .-- 66 p.

37. Sharvadze R. Seafood affecting the physiology of chickens / R. Sharvadze, T. Krasnoshchekova // Poultry farming. - 2008. - No. 5. - S. 41-42.

38. Sharvadze R. Seafood in the feeding of chickens / R. Sharvadze // Poultry. - 2007. - No. 7. -S 16.

39. Gavrikova L.M. Replenish iodine deficiency / L.M. Gavrikova // Livestock of Russia. - 2007. - February. - S. 29-30.

40. Gavrikova L.M. The method of replenishment of iodine deficiency / L.M. Gavrikova // Bird and poultry products - 2007. - No. 2. - S. 42-43.

41. Gavrikova L.M. A method of filling iodine deficiency for laying hens / L.M. Gavrikova // Bulletin of the Russian Academy of Agricultural Sciences. - 2007. - No. 4. - S. 88-89.

42. Demchenko P.V. Feed value of algae / P.V. Demchenko // Livestock. - 1956. - No. 12. - S. 49-53.

43. Naumova L. The increased content of iodine in the hens rations / L. Naumova // Poultry farming. - 2009. - No. 8. -FROM. 32.

44. Nevinskaya N. Iodine starch and its effect on the body of a bird / N. Nevinskaya, A. Bulgakov, D. Kuznetsov // Poultry farming. - 2006. - No. 8. - S. 22-23.

45. Popov I.S. Seaweed. Feeding farm animals / I.S. Popov; Ed. 9th. - M .: Selkhozgiz, 1957. - 198 p.

46. Shatskikh E. Organic form of iodine in diets for broilers / E. Shatskikh, O. Tsyganova // Poultry farming. - 2007. - No. 8. - S. 22-23.

47. Bryzgalov G.Ya. Local raw materials for the distillery industry of the Magadan region / G.Ya. Bryzgalov // RAAS Magadan NIIISH - Magadan. - 2003 .-- S. 9-13.

48. Minaev V.G. Medicinal plants of Siberia / V.G. Minaev // 5th ed., Rev. and add. - Novosibirsk: Science. Sib. branch. - 1991 .-- S. 13-266.

49. Rabinovich A.M. Medicinal plants on the plot / A.M. Rabinovich // Moscow. - Rosagropromizdat. - 1989.- S. 61-64, S. 138-140.

50. Hammerman A.F. Medicinal Plants (Healing Plants) / A.F. Hammerman [et al.] // Ed. 2nd, rev. and add. Textbook for students of biological specialties of universities. // M .: Higher school. - 1991 .-- S. 27-41, S. 169-282.

51. Gubanov I.A. Wild useful plants of the USSR / I.A. Gubanov [et al.] // M.: “Thought”. - 1976. - S. 12-21, S. 101-102, S. 323-328.

52. Popov A.P. Medicinal plants in folk medicine / A.P. Popov // "Health" Kiev. - 1969 .-- S. 108-110.

53. Tsarev S.G. Medicinal plants in veterinary medicine / S.G. Tsarev // Rosselkhozizdat. - Moscow. - 1964 .-- S. 61-143.

54. Klitsenko G.G. Mineral nutrition of farm animals / G.G. Klitsenko. // Kiev: Harvest. - 1980. - 167 p.

55. Ways to improve the balance of diets for poultry: guidelines. / UPPER. Siberian branch. Dal NIIISH. - Novosibirsk, 1990 .-- 36 p.

56. Fisinin V.I. Feeding poultry / V.I. Fisinin [et al.]; Sergiev Posad, 2004 .-- 375 p.

57. Fisinin V.I. Scientific fundamentals of feeding poultry / V.I. Fisinin [et al.]; Sergiev Posad, 2009, - 349 p.

Claims (1)

A method of increasing the productive qualities of laying hens and consumer properties of products (eggs), including the introduction of a multicomponent biologically active feed additive from plant resources of the Magadan region into the main diet, consisting of grass flour of wild medicinal plants, flour from brown seaweed, dioica nettle, characterized in that the flour is additionally introduced from tansy, which has a number of biologically active properties that have a positive effect on all ziologicheskie processes occurring in the body laying hens.