RU2400103C2 - Supplement to fodder for agricultural poultry growing stock - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, specifically to feeding agricultural poultry growing stock. The essence of the invention consists in usage of a complex iron (II) compound containing riboflavin and gamma-amino-butyric acid at a rate of 10 mg per 1 kg of fodder as a supplement for chicken diet.

EFFECT: invention allows to increase body weight gain of agricultural poultry growing stock.

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Description

The invention relates to agriculture, in particular to feeding young chickens, including laying hens.

It is known to use hormonal preparations as anabolic additives in feed to increase the gain in live weight of farm animals and poultry [1].

However, the use of such substances is prohibited in most countries, including Russia, due to the possible negative impact of poultry and animal meat on human health.

As a means of increasing the gain in live weight of poultry, an anabolic additive in feed for young farm poultry, consisting of gamma-aminobutyric acid, is known [2, 3]. Its use allows to reduce feed consumption by 1 kg of increase in live weight of males by 5.2-6.3% and increase their live weight by 5.7-7.9%.

A disadvantage of the known anabolic supplement is that it affects the increase in live weight of males and has virtually no effect on the increase in live weight of hens [2, 3].

Known compound gamma-aminobutyratoriboflavinate trihydrate iron (II), designed to improve the development and growth of chickens [4].

The present invention is aimed at expanding the range of additives in feed for young farm poultry, increasing the increase in their live weight.

This goal is achieved by using a complex compound of iron (II) with riboflavin and gamma-aminobutyric acid [4] as an additive in feed for young farm poultry [4] at a rate of 10 mg per 1 kg of feed.

It is known that riboflavin (vitamin B ₂ ) is a part of redox enzymes that affect the metabolism of proteins, fats, nucleic acids and a number of vitamins - pantothenic, folic and orotic acids, choline and pyridoxine, it also provides normal function of the sex glands and nervous system [5].

Gamma-aminobutyric acid is a mediator of physiological inhibition of the central nervous system and a natural metabolite in the body [6].

Iron (II) is also an essential trace element in the nutrition of birds [7]. It is part of more than 50 iron-containing enzymes, including hemoglobin. Hemoglobin performs the biological function of oxygen transfer from the lungs to muscles, which in turn contributes to a more intense metabolism and, as a result, an increase in live weight of young farm birds. Iron (III) in the body is formed as a result of oxidation of iron (II) compounds, it is not able to fix oxygen and is its carrier, therefore iron (III) compounds are not used in feeding farm animals [1, 7, 8].

The use of a complex compound of iron (II) with riboflavin and gamma-aminobutyric acid to stimulate poultry growth, in comparison with gamma-aminobutyric acid alone, has the advantages that it increases the increase in live weight of the bird by 11.6% (versus 5.7- 7.9%), reduces feed consumption per 1 kg of live weight gain by 10.9% (versus 5.2-6.3%), is introduced into the diet in a smaller amount (10 mg versus 50-300 mg per 1 kg of feed ), there is no need to introduce riboflavin into the diet, because it is a part of the complex compound, and, in addition, gamma-aminobutyric acid only affects the increase in live weight of males and practically does not affect the live weight of hens [2, 3].

Example. Two similar groups of young growth are formed in the final hybrid of laying hens of the Haysex Brown cross, 50 goals each at the age of 1 month. In the experimental group, when preparing the feed, the riboflavin included in the diet was replaced by a complex compound of iron (II) with riboflavin and gamma-aminobutyric acid at the rate of 10 mg per 1 kg of feed. The tests were carried out for 1 month. The control and experimental groups of chickens received nutritionally balanced feed, enriched with vitamins and minerals. The test results are shown in table 1.

Table 1. Groups Live weight at the beginning, g Live weight at the end, g The gain in live weight, g The gain in live weight,% Feed consumption per 1 kg gain in live weight, kg Experienced 306 699 393 111.6 2.83 Control 310 662 352 one hundred 3.14

The addition of a complex compound of iron (II) with riboflavin and gamma-aminobutyric acid in the main diet instead of riboflavin at the rate of 10 mg of the complex per 1 kg of feed leads to an increase in live weight of chickens by 11.6% and a decrease in feed cost per 1 kg of increase in live weight by 9.9% compared with the control group that did not receive this compound.

After completing the tests, three chickens were selected from each group, they were slaughtered and a biochemical analysis of blood serum, a chemical analysis of the pectoral and leg muscles were performed, and internal organs were weighed.

In the chickens of the experimental group, the mineral and protein metabolism in the body proceeds more intensively in comparison with the chickens of the control group, which is confirmed by the higher content of total protein, inorganic phosphorus and total calcium in the blood serum of the chickens of the experimental group compared to the control (Table 2).

Table 2. The content of total protein, total calcium and inorganic phosphorus in the blood serum of chickens Groups Indicator Total protein, g / l Total calcium, mmol / l Inorganic phosphorus, mmol / l Control 32,4 2,53 2,31 Experienced 36.8 2.78 2.49

In the pectoral muscles of the chickens of the experimental group, the protein content increases by 10.4%, while the other indicators of the chemical composition of the meat of the chickens of the experimental and control groups have similar values and correspond to the norms (Table 3).

Table 3. The chemical composition of chicken meat,% Groups Pectoral muscles Leg muscles Moisture Protein Fat Ash Moisture Protein Fat Ash Control 76.39 22.12 0.41 1,08 76.00 18.06 4.93 1.01 Experienced 74.43 24.42 0.25 0.90 75.86 18.27 4.88 0.99

Information sources

1. Hennig A. Mineral substances, vitamins, biostimulants in the feeding of farm animals - M .: Kolos, 1976. - S.342-358.

2. Kryukov BC, Egorov IA, Kupina L.Ya. Anabolic feed supplement for young poultry. A.S. No. 957836 USSR, MKI ³ A23K 1/16. Publ. 09/15/82. Bull. Number 34.

3. Kryukov V., Krivtsov V. Gamma-aminobutyric acid in the diet of chickens // Poultry. - 1990. - No. 2. - S.21-22.

4. Kebets A.P., Kebets N.M. Iron (II) gamma-aminobutyratoriboflavinate trihydrate, designed to improve and develop and grow chickens. Patent for invention No. 2246848 RU, IPC ⁷ A23K 1/00, 1/16. Publ. 02/27/2005. Bull. No. 6.

5. Jortner B.S., Cherry J. Peripheral neuropathy of dietary riboflavin deficiency in chickens // Journal of neuropathology and Experimental neurology - 1987. - V.46. - N 5. - P.544-555.

6. Mashkovsky M.D. Medicines, T.1 - M .: Medicine. - 1986. - P.119.

7. Petrukhin I.V. The use of chemical and biological substances in poultry feeding. - M .: Rosselkhozizdat, 1972.- 240 p.

8. Khakimov H.Kh., Tatarskaya A.Z. The periodic system and the biological role of elements. - Tashkent, “Medicine”, 1985. - 185 p.

Claims (1)

A feed additive for young farm poultry, characterized in that it consists of a complex compound of iron (II) with riboflavin and gamma-aminobutyric acid and is used at the rate of 10 mg per 1 kg of feed.