RU2675704C1 - Method for evaluating the speed characteristics of horses of trotting breeds by elemental composition of hair - Google Patents

Abstract

FIELD: cattle breeding.SUBSTANCE: invention relates to the biology of animal husbandry and can be used in trotting horse breeding. Method of evaluation of the speed characteristics of horses of trotting breeds by the elemental composition of the hair includes sampling of biological material, the calculation of the coefficient, which allows to evaluate the speed characteristics of the animal. At the same time, the horse's mane hair is used as a biological material, and as a coefficient that allows to evaluate the speed characteristics of the animal, the toxic load coefficient (K) is used, which is calculated by the formula: K=Al/Ca×100, where: K is a toxic load coefficient, %; Al is the concentration of aluminum microelement in the hair, mcg/g; Ca is the concentration of calcium macroelement in the hair, mcg/g; 100 is a adjusting factor. If K values are in the range of 4.5–10.4 %, the horse’s speed characteristics are estimated as high, with a coefficient in the range of 10.5–18.2 % as average, with a coefficient in the range of 18.3–31.0 % — as low.EFFECT: proposed method makes it possible to reliably attribute an animal to one group or another in terms of speed characteristics while minimizing adverse stress effects on an animal body when taking a biological sample; in addition, there is no need for multiple selection of material for research due to the significant stability of the elemental composition of hair.1 cl, 3 tbl

Description

FIELD OF THE INVENTION

The invention relates to the biology of animal husbandry and can be used in trotting horse breeding.

BACKGROUND

There is a method of evaluating the horse’s horse performance by physiological indicator, which consists in measuring the bioelectric potential in biologically active centers (Method of evaluating the horse’s horse’s horsework by physiological indicator [Text]: Pat. 2195109 Russian Federation. Federation: A01K 67/02 (2000.01) / Mamaev A .V; Ilyushina L.D .; Leshchukov K.A .; applicant and patentee Orlov, state agrarian university - No. 20011111625; claimed: 04/26/01; publ. 12/27/2002. Bull. No. 7 (I h.). - 5 p.).

There is a method of assessing the level of training of horses on a physiological indicator, which shows the degree of change in the functional state of bone tissue before and after dosed physical activity by determining the propagation speed of ultrasound (Method for assessing the level of training of horses on a physiological indicator [Text]: Auth. 1621826 USSR: IPC5 A01K 67/02 / A.A. Samotaev, B.A. Klenov .; applicant Orenburg agricultural and industrial institute - No.4647805; claimed: 01/01/1989; publ. 23.01.91. Bull. No. 3. - 3 p.).

The disadvantages of these methods are: the duration of the measurements, the high complexity, the availability of special equipment and qualified specialists, as well as the complexity of their implementation.

A known method for predicting the sporting qualities of horses of trotter breeds, including determining the reactivity of the horse's body by intradermally introducing purified turpentine into the middle third of the neck, with an assessment of the adaptation syndrome after 96-120 hours, by evaluating the thickening and swelling (Method for predicting the sporting qualities of trotting horses [Text] : Pat. 2332007 Russian Federation: А01К 67/02 (2006.01) / A.I. Kuznetsov, S.V. Nadolenko .; Applicant and patent holder of the Federal State Educational Institution of Higher Professional Education “Ural State Academy of Wind Medicine.” - No. 2006147028; .: 12/27/06; publ. 08/27/08, Bull. No. 24. - 4 p.).

The disadvantages of this method are: stressful situation for the horse during the injection, the presence of sterile equipment and turpentine, the difficulty in accurately assigning the animal to the group with threshold thickenings of about 10 mm and a swelling of 50 mm

Closest to the claimed (prototype) is a method for determining the level of training of fast-moving horses, the essence of which is to determine the degree of dispersion of blood serum proteins and, with a dispersion value of more or less than 15% compared to its initial level during the study period, horses are classified as having respectively high or low level of fitness (A method for determining the level of fitness bystroallyurnyh horses [text]: the authors of the USSR Inventor's Certificate №651782:... M Cl ² 5/00 A61V / GF Sergiyenko, MT Rams, . .With Sergiyenko;. Applicant Breeding Institute - №2388524 appl .: 07.20.76; published 15.03.79 Bulletin №10 - 3)......

The disadvantage of this method is the need for continuous monitoring of the degree of dispersion of proteins in blood serum, which involves the systematic sampling of blood from horses throughout the training process and the associated adverse stressful effects on the animal's body.

Our proposed method for evaluating the horse’s abrasive qualities allows us to solve the following technical problems: minimizing adverse stressful effects on the animal’s body, eliminating the need to repeatedly take material for research. It is more reliable due to the significant stability of the elemental composition of the hair.

SUMMARY OF THE INVENTION

The essence of the proposed method for evaluating the abrasive qualities of trotting horses is to calculate the toxic load coefficient, which allows the animal to be attributed to one or another group according to agility at a certain distance.

Hair is an excellent material for the study of macro - and micronutrients. The concentration of chemical elements in the hair most fully reflects their content in the tissues and correlates well with the elemental profile of the internal environment of the body, does not depend on the daily rhythm of physiological processes and time features of the diet (Kozhin, A. A. Microelementoses in human pathology of environmental etiology [Text] / A.A. Kozhin, B.M. Vladimirsky // Human Ecology. - 2013. - No. 4. - P. 56-64.).

The stability of the chemical composition of the hair is provided by a keratin shell, which prevents both the loss of internal components and the penetration of external contaminants. The advantages of hair research include the simplicity and affordability of sampling and transportation of samples that can be obtained without injuring the animal. Special equipment is not required for storing hair samples, they do not deteriorate and are stored almost without any time limit (Kalashnikov, V.V.Prospects for research on the trace element composition of horse hair / V.V. Kalashnikov, A.M. Zaitsev, T.V. Kalashnikova, L.V. Kalinkova, N.V. Blokhina // Horse breeding and equestrian sports .-- 2017. - No. 5. - P. 21-25; Kalashnikov, V.V. Concentration of toxic elements in the hair of horses from different regions RF / V.V. Kalashnikov, A.M. Zaitsev, L.V. Kalinkova, T.V. Kalashnikova, N.V. Blokhin, M.M. Atroshchenko, O.A. Zavyalov, A.N. tins, SA Miroshnikov // Horse breeding and equestrian sports -. 2017. - №6 -. pp 20-23).

The experimental part of the work was performed on clinically healthy trotters of the Oryol and Russian breeds (n = 67), bred in the same biogeochemical province (Bryansk region). The rules for testing pedigree trotting horses at the hippodromes of the Russian Federation do not give a clear definition of the term “agility”. In paragraph 181 of the said Rules it is said: "The playfulness of horses in arrivals is determined by stopwatch or special equipment and is taken into account to the nearest 0.1 second." It follows from this that agility refers to the time during which a horse travels a certain distance. In our case, this is 1600 m. Depending on the agility shown at this distance, the animals were divided into 3 groups:

I - up to 25 percentile (n is 14) with a speed of 121.80 ± 1.27 s (119.3-123.2),

II - within the range of 25-75 percentile (n is 37) with a speed of 127.10 ± 1.13 s (P not more than 0.05, compared with group I) (124.2-130.1),

III - above 75 percentile (n is 16) with a playfulness of 138.10 ± 1.56 s (P no more than 0.001, compared with group I) (130.3-143.2) (Rules for testing pedigree trotter breeds at hippodromes Russian Federation [Text]. - M., 2009. - 40 s; Skalnaya, MG, The limits of physiological (normal) content Ca, Mg, P, Fe, Zn and Cu in human hair [Text] / MG Skalnaya, VA Demidov, AV Skalny // Mikroelementy v meditsine. - 2003. - Vol. 4, iss. 2. P. 5-10.).

In these animals, non-invasive sampling of hair from the mane was performed.

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 dated 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-ICP and MS-ICP) on Elan 9000 (Perkin Elmer, USA) and Optima 2000 V (Perkin Elmer, USA) equipment, ensuring accuracy 10 ⁹ - 10 ¹² by 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).

Next, we determined the concentration ratios of each of the toxic trace elements: Al, Sr, Pb, Sn, Cd, Hg to the concentration of each of the macro and trace elements: Ca, K, Mg, Na, P, Zn, Fe, Cu, Mn, I , Se, Cr, Co, expressed as a percentage.

Then we analyzed the relationship between these values and the agility of horses.

Analysis of the data obtained in the study showed that the relationship Al / Ca revealed a significant relationship with the performance at 1600 m. This ratio, expressed as a percentage, was called the toxic load coefficient (K) in horses. Thus, K is calculated by the formula:

where: K - toxic load factor,%;

Al is the concentration of aluminum in the hair, μg / g;

Ca - the concentration of calcium in the hair, mcg / g;

100 - correction factor.

At the same time, it turned out that if the values of the coefficient K are in the range of 4.5-10.4%, then the tallow qualities are assessed as high, with a coefficient in the range of 10.5-18.2% - as average, with a coefficient in the range of 18, 3-31.0% - as low (table. 1).

Table 1. The coefficient of toxic load,%

DETAILED DESCRIPTION OF THE INVENTION

The reliability of this method of evaluating the cut-off qualities of horses of trotter breeds by the elemental composition of the hair was tested at Lokotskaya Stud Farm CJSC on 4 stallions (g) of the Russian trotter breed and 9 mares of the same breed participating in the trials. Mane hair samples were taken from each animal to determine the concentration of aluminum and calcium in them. For each animal, the toxic load coefficient (K,%) was calculated. Table 2 shows the distribution of these horses according to the proposed agility groups, depending on the value of K.

Table 2. The distribution of horses in groups of agility, depending on the value of the coefficient of toxic load

Only after the horses passed the tests at the racetrack did we learn their real agility. Depending on the agility shown, the animals were distributed in the same groups as follows.

Table 3. The distribution of horses in groups depending on the agility shown in the tests

A comparison of these two distributions shows that all the horses that we assigned to the I and III groups of agility, depending on the value of the toxic load coefficient, were in the same groups after testing at the racetrack.

Only one mare, Hungary Lok, moved from group II to group III, showing a test speed of 140.6 seconds.

To determine the existence of the strength of the functional relationships between the parameters, we calculated the Spearman correlation coefficients (Kc). At the same time, a significant (P no more than 0.05) positive correlation was observed between the toxic load coefficient and the speed of trotters (r = 0.51).

Thus, based on our studies, we can conclude that our proposed method for evaluating the abrasive qualities of horses of trotter breeds by the elemental composition of the hair is reliable. In this particular example, it was confirmed in 12 of 13 animals, which is 92.0% of cases (P no more than 0.05).

Claims (7)

A method for evaluating the abrasive qualities of horses of trotter breeds by the elemental composition of the hair, including sampling of biological material, calculating a coefficient that allows you to evaluate the abrasive qualities of the animal, characterized in that the hair is taken from the mane of the horse as biological material, and as a coefficient that allows you to evaluate the abrasive qualities animal, - the coefficient of toxic load (K), which is calculated by the formula:

where: K - toxic load factor,%; Al — aluminum microelement concentration in the hair, μg / g; Ca — calcium macrocell concentration in the hair, μg / g; 100 - correction factor at the same time, if K values are in the range of 4.5-10.4%, then the horse’s abrasive qualities are assessed as high, with a coefficient in the range of 10.5-18.2% - as average, with a coefficient in the range of 18.3- 31.0% - as low.