RU2198539C2 - Preparation for improving fur quality in polar foxes - Google Patents

Abstract

FIELD: industrial fur farming. SUBSTANCE: schungite variety should be used for improving fur quality in polar foxes due to decreasing skin defects. Thus, the quantity of large skins is increased. Sale price is 8.83% higher, safety in whelps is increased, as well, and their output value per main female is 24.4% higher. EFFECT: improved quality. 2 ex, 4 tbl

Description

 The invention relates to agriculture, namely to fur farming, and can be used in industrial farming for improving the quality of fur foxes.

 A known method of growing fur animals (minks and Arctic foxes), according to which animals are implanted subcutaneously with melatonin and polycyanacrylate and, starting in July, thyroidin is additionally introduced into the feed at a dose of 0.75-1.5 g / kg weight once a week. The method allows to reduce the time of growing animals while improving the quality of the skin (Av. St. USSR 1579489, class A 01 K 67/02, 1990).

 This method involves a complex (combined) hormonal treatment of fur-bearing animals, which consists in the fact that melatonin inhibits thyroid and sex gland hormones and growth hormone, mimicking the animals shortened daylight hours and thereby accelerates the maturation of fur. However, it is important to prevent inhibition of the basal metabolism and suppression of the growth of animals, so as not to reduce the size of the skin. For this purpose, thyroidin is introduced into the feed to stimulate metabolic processes in the tissues. Therefore, the result of the mutual action of melatonin and thyroidin will depend on the accuracy of the dosage of hormonal preparations and the individual hormonal status of fur animals, which is difficult to ensure with a large population. Failure to comply with these conditions will make it difficult to obtain the claimed effect and may lead to increased feed intake, reduced feed output. All this, as well as the high complexity of the method limit the effectiveness of its use in industrial animal farming.

It is known to use succinic acid from furfural (1,4-butadiene acid) to improve the quality of mink fur (RF patent 2007167, MKI ⁵ A 61 K 31/00, 1994).

It is also known to use the biologically active stimulator of the drug "Ked" to improve the quality of fur mink, which is obtained from the husks of pine cones (RF patent 2138160, MKI ⁶ A 01 K 67/02, 1999).

 The disadvantage of these funds is the need to obtain them at specially created enterprises, which increases their cost. At the same time, the effectiveness of these biologically active preparations depends on the terms and conditions of storage, which complicates their use in industrial animal husbandry. In addition, well-known drugs are intended to improve mink fur and are not used for Arctic foxes, which is associated with the distinctive features of their digestive system.

 The invention solves the problem of obtaining an inexpensive tool that allows to improve the quality of fox foxes, increase their productivity and optimize the physiological state, which has no side effects on the body, is convenient to use and stable during storage.

 In accordance with the invention, this is achieved due to the fact that shungite rock is used as a means to improve the quality of fur foxes.

 Shungite rock is an ancient Precambrian carbonaceous formation with a specific structure and properties. Shungite carbon, which is part of these rocks, is non-graphitizable, has a fullerene-like structure, and is characterized by high chemical and physicochemical activity (Shungit is a new carbonaceous raw material. Edited by V.A. Sokolov, Yu.K. Kalinina, E.F. Dyukkieva, Petrozavodsk, Karelia, 1984).

 Shungite carbon forms a matrix in the rock in which highly dispersed silicates are evenly distributed. This structure gives the schungite rock electrical conductivity, and the products of crushing and grinding the rock provide the ability to actively interact with any medium in which they are placed, realizing their high redox, exchange, sorption, adhesion and catalytic properties.

The main component of schungite rock is shungite carbon and silica, as well as macrocomponents in the form of oxides: TiO ₂ , Al ₂ O ₃ , FeO, CaO, MgO, Na ₂ O, K ₂ O, Fe ₂ O ₃ . According to semi-quantitative spectral analysis, a number of trace elements with a biogenic effect (boron, vanadium, molybdenum, copper, nickel, zinc, chromium, selenium, etc.) are contained.
In the water extract from shungite, rare earths of lanthanides (cerium, neodymium, lanthanum, proseodymium, etc.) were found, which also play an important role in biological processes.

 Shungit in its physicochemical and organoleptic properties meets the requirements of the Ministry of Health for the hygienic assessment of products used in the practice of drinking water (Hygienic opinion of the Ministry of Health of the Russian Federation 10. KC. 31.216. P. 00064.02.. 99 of 4.02.1999).

Shungite has an antihistamine effect and is used as a means for mineral baths (RF patent 2123851, MKI ⁶ A 61 K 33/44, 9/14, 7/50, 1998), as an antiseptic agent for water treatment (RF patent 2116261, MKI ⁶ C 02 F 1/50, 1998), and also as a means to protect against geopathic effects (RF application 98109987, MKI ⁶ A 61 N 1/16; A 62 V 37/00; G 21 F 1/00, 2000).

 Shungite was not used as a means to improve the quality of fox furs.

 The use of shungite in microdoses with food provides an improvement in the quality of furs of silver foxes by reducing defects and increasing the number of large skins. The tool enhances the reproductive ability of Arctic foxes, stimulates the growth and development of puppies, increases their safety and the exit of puppies to the main female.

Using the proposed tool provides a high effect and its stability, because:
- material is inexpensive;
- there is the possibility of mass production;
- existing technologies for its manufacture ensure the stability of its properties;
- under normal storage conditions, the material does not change its properties over time;
- the introduction of funds in the feed does not cause technological difficulties;
- an overdose of material in the feed is not dangerous and does not cause negative consequences.

 The study of the proposed funds was carried out on silver fox (Alopex lagopus) in the animal husbandry MMUP "Berezovskoe" (Republic of Karelia). Statistical processing of the results was carried out using generally accepted methods of variation statistics (Merkuryeva, 1970; Plokhinsky, 1970), as well as using computers using the Statgraphics Plus program. Student t-test was used as critical values of statistical indicators.

 Example 1

 In preparation for the race, two groups of young female foxes were formed on the basis of analogues, one of which served as control. The control animals were fed according to the usual ration, and experimental foxes were additionally introduced into the feed mixture shungite powder in the amount of 3% of the feed weight for 3.5 months. In the course of the experiment, the reproduction rates of female Arctic foxes were studied, the results are presented in Table 1.

 An analysis of the data shows that the number of successfully delivered females in the experiment is 84.2%, which is 21% more than in the control (63.2%), and females with an unsuccessful pregnancy, on the contrary, were less in the experimental group - 5.3 %, while in the control this number was 26.3%. The pre-registration departure of puppies in the control group was 12.1%, while in the experimental group only 2.5%. The yield of puppies on the main female in the experimental group was 1.21 puppies or 24.4% higher than in the control, which indicates an increase in the reproductive ability of the females and a higher viability and safety of the young.

 Example 2

 From the number of puppies obtained from control and experimental females kept on diets with the addition of shungite powder, two groups of animals were formed. Experienced puppies were added to the feed mixture shungite powder in an amount of 3% by weight of the feed. Control animals were kept on a normal household ration. Weight gain by months was checked with experienced and control puppies, a merchandising assessment of the skins and their ranking by size was carried out, the area of the skins was calculated, and the quality of the skins was determined by the defectiveness of the fur and the offset by quality. Based on these characteristics, the average skin price was calculated. The results are shown in table. 2 and 3.

An analysis of the data presented shows that the stimulation of growth processes in experimental animals occurs earlier than in control animals. Introduction to food merchandising shungite powder improves characteristics furs by increasing the number of large skins (I ^th size) and 26.9% reduction in the number of skins II a ^size up to 6.4%. The maintenance of the skinlessness of the skins of experimental foxes was 63.8%, while in the control this indicator was 38.9%, the number of skins with a small defect in the experimental group was 2.1%, in the control - 22.2%, the quality test was higher in the experimental group by 8.4% than in the control group.

 The average selling price of the skin of experimental foxes exceeded the control by 117 rubles or by 8, 83%.

 The performed blood analysis showed (Table 4) that the introduction of shungite powder into the feed allows optimizing the physiological state of the animals. A study of experimental animals after slaughter did not reveal pathological changes in internal organs.

 Thus, the use of shungite powder at a dose of 3% by weight of the feed provides an improvement in the quality of fox furs, as a result of which the average selling price of the experimental animals exceeds the control by 117 rubles (8.83%). The proposed tool also allows you to increase the productivity of Arctic foxes due to a more favorable pupping and preservation of young animals after birth, due to which the puppies' exit to the main female turned out to be 1.26 puppies or 24.4% more than in the control.

Claims (1)

 The use of shungite breed as a means to improve the quality of fox foxes.

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