RU2668335C1 - Method of selecting bulls with high growth potential by elemental composition of hair - Google Patents

Abstract

FIELD: cattle breeding.SUBSTANCE: invention relates to livestock areas, in particular to a method for selecting bulls with a high growth potential by elemental hair composition. Method involves determining the concentration of chemical elements: calcium, zinc, copper and manganese. At a concentration of calcium, zinc, copper and manganese, respectively, mcg/g: 1,821.4–2,235.0, 78.2–93.6, 4.0–4.7 and 29.5–37.8 proposed productivity estimate for the average daily increase is 700–800 g; at a concentration, mcg/g: 2,235.1–2,627.6, 93.7–104.3, 4.8–5.3, 37.9–46.4 proposed productivity assessment at the level of 801–900 g; at a concentration, mcg/g: 2,627.7–3,053.0, 104.4–114.6, 5.4–6.3, 46.5–54.2 proposed evaluation of productivity at the level of 901 g or more.EFFECT: use of the invention will allow selecting animals with a high growth potential.1 cl, 1 tbl

Description

The invention relates to the fields of animal husbandry, physiology of farm animals, and in particular to methods aimed at an early assessment of the genetic potential of productivity of gobies, and can be used to identify highly productive gobies.

The method consists in the fact that as an assessment of the productive qualities of gobies, it is proposed to determine the level of chemical elements in the wool, taking into account the concentration of calcium, zinc, copper, manganese.

The basis of life in any climatic and geographical conditions is a constant metabolism between the body and the environment. Chemical elements are not synthesized, unlike many organic substances in the body, but come from the outside with food, air, through the skin and mucous membranes. Therefore, the definition of chemical elements allows you to learn about the state of the animal’s body, about the effect on productivity and fitness for certain living conditions.

In recent years, increasing attention has been paid to the study of macro- and micronutrients and their importance in the life of the body. Elemental status is a reliable reflection of the biochemical processes occurring in the body [1].

Macro- and microelements are necessary for a living organism throughout life in small quantities to provide a number of physiological functions, in contrast to various organic compounds. They are not synthesized in the body, their balance is maintained exclusively due to the consumed feed [2, 3].

Deficiency of macro- and micronutrients in the body of animals not only contributes to an increase in their incidence, but also dramatically reduces the genetic potential of animals to biosynthesize high-quality meat, milk, wool, eggs, the ability to reproduce, give birth to healthy, healthy young animals, and the ability to actively, timely and adequately respond on changing environmental conditions [4, 5].

This is due to the fact that most chemical elements are structural components of animate and inanimate nature and are part of biologically active substances (enzymes, hormones, vitamins), participate in all metabolic processes of the body [6]. In this connection, studies on the creation of a method for selecting animals with a high growth potential according to the concentration of chemical elements in the wool seem to be promising.

A known method for identifying bulls with high growth potential [7]. The growth potential in 2-month-old calves is determined by determining the initial concentration of glucose and insulin in the blood, followed by the introduction of glucose into the body with food and re-determining the concentration of glucose and insulin.

A known method of assessing the growth energy of calves by physiological indicator [8]. The method consists in measuring bioelectric potentials in biologically active centers, find its average value and, with a value of more than 48 μA, state high calf growth energy.

However, the aforementioned methods for predicting productivity are distinguished by the duration of execution, the complexity, and also the complexity of organizing the implementation of the method.

A known method for predicting meat productivity in gobies [9], including determining the main indicators of protein metabolism in animals based on concentrations of albumin, globulins, aminotransferases, calculates the growth index (IR) according to the formula, with a value of 0.78-0.86 daily average growth the live weight of animals will be more than 800 g, and with a growth index of 1.12-1.27 - less than 800 g

The disadvantage of this method is the inability to evaluate animals up to one month of age, the norms for highly productive animals (1000 g and above) are not defined, the IR index does not overlap the values from 0.87 to 1.11, it is unclear when receiving such numbers in which group the bulls belong.

A known method for identifying calves with a high growth potential [10], including the isolated content of calves in individual cells, a specially equipped case with an optimal microclimate. Determining the future productivity of calves is based on the rate of milk consumption, within 2 weeks after full adaptation to independent milk consumption, at a rate of consumption above 4 kg / min, calves are considered highly productive, and below 2 kg / min - low-productive, with a low growth potential.

The disadvantages of this method are the difficulty of creating an "ideal" microclimate, especially in the summer periods: June, July, winter: December, January, the duration of the observation (within 2 weeks). When implementing the method, animals were divided into 2 groups, consuming above 4 kg / min and less than 2 kg / min, there is no group of animals consuming from 2 to 4 kg / min, their productivity is unclear.

Our claimed method meets the condition of patentability of the invention of "novelty." Analysis of the prototype [10] and other methods in this area did not reveal signs similar to the claimed solution, which allows us to conclude that the condition "inventive step" is met. The invention is applicable, as it can be used in animal husbandry in identifying bulls with high growth potential.

The purpose of the invention is the creation of a method for selecting bull-calves with a high growth potential according to the results of determining the level of chemical elements in the wool and evaluating the results taking into account the concentration of calcium, zinc, copper, manganese.

The method was implemented as follows.

To solve the tasks, a scientific and economic experiment was conducted on 45 heads of Hereford bulls, which at 8 months of age were divided into 3 groups based on their growth rate from birth to 8 months of age: Group I - with a productivity of 700-800 g, II - 801-900, III - 901 or more grams.

Weight growth up to 8 months of age was studied by monthly individual weighings (log of offspring and rearing of young animals (form 4-meat). Absolute and average daily growths were determined by the calculation method.

Wool sampling was carried out from the withers according to the method [11].

The elemental composition of biosubstrates was studied in the laboratory of the ANO "Center for Biotic Medicine" in Moscow (registration number in the state register is Ross. RU 0001. 513118 of May 29, 2003; Registration Certificate of ISO 9001: 2000, Number 4017-5.04.06), 25 chemical elements.

The accuracy of the determined parameters was achieved using atomic emission and mass spectrometry (AES-ICPMS-ICP) using Elan 9000 equipment (Perkin Elmer, USA) and Optima 2000 V (Perkin Elmer, USA), ensuring accuracy 10 ⁹ -10 ¹² 25 chemical elements (Ca, Cu, Fe, Li, Mg, Mn, Ni, As, Cr, K, Na, P, Zn, I, V, Co, Se, Al, B, Cd, Pb, Hg, Sn , Si, Sr).

Analysis of the data obtained in the study showed that for 4 (Ca, Zn, Cu, Mn) of the 25 studied macro- and microelements that affect the biological processes of metabolism, significant differences between the groups were obtained (Table 1).

In gobies with a productivity of 700-800 g, the calcium concentration was at the level of 1821.4-2235.0 μg / g, zinc - 78.2-93.6, copper - 4.0-4.7 μg / g, manganese - 29 , 5-37.8 μg / g, with a productivity of 801-900 g of calcium - 2235.1-2627.6 μg / g, zinc - 93.7-104.3, copper - 4.8-5.3 μg / g, manganese - 37.9-46.4 μg / g, with a productivity of 901 or more g of calcium - 2627.7-3053.0 μg / g, zinc - 104.4-114.6, copper - 5.4- 6.3 μg / g, manganese - 46.5-54.2 μg / g.

The influence of these elements on the growth rate is also confirmed by published data [12].

To verify the reliability of this method, a study was conducted in LLC KH "them. Kalinin »of the Saraktash region of the Orenburg region on 120 heads of physiologically healthy gobies of the Kazakh white-headed and Hereford breeds, from which at the age of one month (November-December months) wool samples were taken to study the content of calcium, zinc, copper and manganese in it. Based on the proposed method, 21 animals fell into the first group, 62 animals and a third 37 animals in the second group, and further control weighings of experimental animals were carried out, when calculating daily average growths up to 8 months of age, it was revealed that out of the 21 animals that were in the first group, 20 goals corresponded to productivity of 700-800 g, out of 62 animals outlined in the second group, 60 goals - with productivity 801-900 g, out of 37 animals outlined in the third group, 36 goals - with 901 g productivity and above that the proof Vaeth high accuracy of the method.

Thus, on the basis of our studies, we have proposed a method for selecting calves by growth rate based on the concentration of the following elements in the coat: calcium, zinc, copper and manganese.

Information sources

1. Kharlamov A.V., Frolov A.N., Zavyalov O.A., Miroshnikov A.M. The information content of biosubstrates in assessing the elemental status of farm animals (review) // Bulletin of beef cattle breeding. 2014.Vol. 4. No. 87. S. 53-58.

2. Miroshnikov S.A., Kharlamov A.V., Zavyalov O.A., Frolov A.N. Regional features of the elemental composition of cattle wool (results of a pilot study) // Bulletin of beef cattle breeding. 2015.Vol. 2. No. 90. S. 7-10.

3. Skalny A.V., Kuznetsov V.V., Lakarova E.V., Skalnaya M.G. Analytical methods in bioelementology. - St. Petersburg: Nauka, 2009 .-- 576 p.

4. Samokhin V.T. Micronutrient deficiency in the body - the most important environmental factor // Agrarian Russia. 2000. No5. S. 69-72.

5. Miroshnikov S.A., Kharlamov A.V., Zavyalov O.A., Frolov A.N., Bolodurina I.P., Arapova O., Duskaev G. Method of sampling beef cattle hair for assessment of elemental profile // Pakistan Journal of Nutrition. 2015. T. 14. No. 9. C. 632-636.

6. Miroshnikov C.A., Lebedev S.V. The concentration range (reference values) of chemical elements in the body of animals // Bulletin of the Orenburg State University. 2009. No.6. S. 241-243.

7. A method for identifying bulls with high growth potential. USSR patent No. 1304795, cl. A01K 67/02, Radchenkov V.P., Matveev V.A., Sapunova E.G., application 01/11/1984, publ. 04/23/1987. bull. No. 15.

8. A method for assessing calf growth energy by physiological index. RF patent №2251263, cl. A01K 67/2, 2005. Mamaev A.V. Filing: 2004-03-02, publication of a patent: 05/10/2005, bull. No. 13.

9. A method for predicting meat productivity in gobies. Patent RU 2360411. Derkho M.A., Nurbekova A.A., Fomina N.V. Application: 10/31/2007, publ.: 07/10/2009, bull. No. 19.

10. A method for identifying calves with high growth potential. Patent RU 2328115. Pankratov A.A., Tuzov I.N., Dikarev A.G. Application: 2006-10-02, publ.: 07/10/2008, bul. No. 19 is a prototype.

11. Miroshnikov S. Method of sampling beef cattle hair for assessment of elemental profile / Miroshnikov S., Kharlamov A., Zavyalov O., Frolov A., Duskaev G., Bolodurina I., Arapova O. // Pakistan Journal of Nutrition . 2015. T. 14. No. 9. C. 632-636.

12. Georgievsky V.I., Annenkov B.N., Samokhin V.T. Mineral nutrition of animals / - M .: Kolos, 1979. - 471 p.

Claims (1)

A method for selecting bulls with a high growth potential according to the elemental composition of the wool, including determining the concentration of chemical elements: calcium, zinc, copper and manganese, while in gobies, respectively, with a concentration, μg / g: 1821.4-2235.0, 78.2- 93.6, 4.0-4.7 and 29.5-37.8; the estimated productivity estimate for the average daily growth is 700-800 g; at a concentration, μg / g: 2235.1-2627.6, 93.7-104.3, 4.8-5.3, 37.9-46.4; the planned assessment of productivity at the level of 801-900 g; at a concentration, μg / g: 2627.7-3053.0, 104.4-114.6, 5.4-6.3, 46.5-54.2, the planned assessment of productivity at the level of 901 g or more.