RU2600745C1 - Fodder additive for improving quality of skin and fur of fur animals - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to production of fodders for farm animals, namely to feeding fur animals, and can be used in agriculture and animal husbandry. Fodder additive for improving quality of skin and fur of fur animals includes diacetylphenonylselenide and filler. Nanoglauconite is used as filler in fodder additive, which is mixed with diacetylphenonylselenide at ratio of 7.5-15.0 g of nanoglauconite per 1 mg of diacetylphenonylselenide.

EFFECT: feeding with fodder additive provides increased thickness of skin tissue, on which fur of fur animals is located, while maintaining almost unchanged other indices of skin quality and related fur coat.

1 cl, 1 tbl, 14 ex

Description

The invention relates to the field of creating feed for farm animals, namely the feeding of fur animals, and can be used in agriculture and animal husbandry.

Known feed additive to improve the quality of the fur and skins of fur animals, in particular minks, containing an organo-selenium preparation - diacetophenonyl selenide, which is introduced into the feed for 60 days before they are slaughtered [1]. The disadvantage of this known feed additive is the relatively low quality of the skins and fur, namely, the relatively small thickness of the skin tissue on which the fur coat is located. In addition, this drug itself may not be completely processed by the body and accumulate in it, reaching concentrations undesirable for fur animals.

The closest to the claimed by us object in terms of features and the achieved technical effect is a feed additive to improve the quality of fur and animal fur skins, containing diacetophenonyl selenide and filler - vermiculite [2]. The disadvantage of this known feed additives, taken by us as a prototype, is also the relatively small thickness of the skin tissue on which the fur coat is located.

The aim of the present invention is to increase the thickness of the skin tissue on which is the hairline of fur of fur animals.

The declared goal is achieved by the fact that in a feed additive [2] containing diacetophenonyl selenide and a filler, nanogauconite is used as a filler, which is mixed with dicetophenonyl selenide in the ratio (7.5-15.0) g of nanogauconite per 1 mg of diacetophenonyl selenide. As a result of using the additive we are claiming, the thickness of the skin tissue on which the fur coat is located increases by 15–20% compared to that when using the additive [2] while maintaining other parameters of the quality of the skin and the fur coat associated with it practically unchanged.

So far, no feed additive has been described in the literature, the components of which would be dicetophenonyl selenide and nano glauconite or another natural mineral with a nanostructured level of organization of the substance. The noted moment gives us reason to assert that the first criterion feature of the invention established by the legislation of the Russian Federation, novelty, is inherent in the claimed object. Moreover, a comparison of the known features of the prototype [2] and the distinguishing features characterizing the claimed object (namely, the replacement of the component of the feed additive in the prototype — natural vermiculite containing micro- and macroparticles with sizes of the order of 1 μm or more with nanoglauconite containing nanoparticles with sizes less than 100 nm) does not allow to predict a priori the appearance of new properties in comparison with the prototype, namely, a rather noticeable increase in the thickness of the skin tissue on which the hair okra fur. This circumstance allows us to conclude that the claimed object does not explicitly follow from the level known in the art. Therefore, it is inherent in the second criterion feature of the invention according to the legislation of the Russian Federation - the inventive step. The proposed feed additive is very simple in composition, its preparation of both itself and the nanoglauconite used in it is quite easily feasible on an industrial scale and, therefore, its practical use is feasible without any problems; consequently, the object claimed by us is inherent in the third criterion feature of the invention established by the legislation of the Russian Federation - industrial applicability.

The use of the inventive feed additives is demonstrated in the examples below.

Example 1 (preparation of a feed additive)

Natural glauconite extracted from the Syundyukovsky deposit of the Republic of Tatarstan is crushed into flour and mixed with distilled or deionized (desalted) water at the rate of 20 g of glauconite per 100 ml of water. The resulting mixture is treated with ultrasound in an ultrasonic disperser UZU-0.25 with a power of 80 W at a frequency of 18.5 kHz with an oscillation amplitude of an ultrasonic waveguide of 5 μm for (5-20) minutes at room temperature, resulting in a water-glauconite suspension with particle sizes of glauconite from 5 to 100 nm. The suspension of nano-glauconite thus prepared is then used to prepare the inventive feed additive, which is obtained by mechanical mixing of the suspension of nano-glauconite obtained by the described method from the calculation of (7.5-15.0) g of nano-glauconite per 1 mg of diacetophenonyl selenide.

Example 2

Young fur-bearing animals - minks are reared, for which males and females are mated during their natural driving (March of the calendar year), and puppies are born from the middle of the third decade of April to the end of the first decade of May. Then, until the beginning of June, a suction period is carried out, during which mothers feed their young with breast milk. In the first ten days of June, cubs are deposited from their mothers and transferred to food by traditional food, which ensures their natural development until the relevant regulatory indicators are achieved, which takes about a month and a half (until mid-August). Starting in mid-August, young animals are fed the same traditional food for 60 days, but with the introduction of the indicated feed additive, which is obtained by mechanical mixing of the suspension of nano-glauconite with diacetophenonyl selenide specified in 7.5 g of nano-bentonite (i.e. 37.5 ml of this suspension) per 1 mg of diacetophenonyl selenide. This suspension is added to the feed at the rate of 30 ml of suspension per 1 kg of feed. After the completion of these 60 days, young animals are slaughtered and the skin, along with the fur coat, is removed from the mink. The quality of the hides and furs is evaluated according to the standard [3], using the indicators indicated in Table 1. Data on these indicators and, in particular, on the thickness of the skin tissue on which the fur coat is located, is also given in the Table for this case one.

Example 3

Perform, as in Example 2, but using a feed additive obtained by mechanical mixing of the suspension of nano-glauconite with diacetophenonyl selenide indicated in Example 1 at the rate of 12.0 g of nanobentonite (i.e. 60 ml of this suspension) per 1 mg of diacetophenonyl selenide. This suspension is added to the feed at the rate of 30 ml of suspension per 1 kg of feed. Information on the thickness of the skin tissue on which the fur coat is located, as well as some other indicators of the quality of the fur for this case are given in Table 1.

Example 4

Perform, as in Example 2, but using a feed additive obtained by mechanical mixing of the suspension of nano-glauconite with diacetophenonyl selenide indicated in Example 1 at the rate of 15.0 g of nanobentonite (i.e. 75 ml of this suspension) per 1 mg of diacetophenonyl selenide. This suspension is added to the feed at the rate of 30 ml of suspension per 1 kg of feed. The results for determining the thickness of the skin tissue on which the fur hairline is located, as well as some other indicators of its quality for this case are presented in Table 1.

Example 5

Perform, as in Example 2, but using a feed additive obtained by mechanical mixing of the suspension of nano-glauconite with diacetophenonyl selenide indicated in Example 1 at the rate of 12.0 g of nanobentonite (i.e. 60 ml of this suspension) per 1 mg of diacetophenonyl selenide. This suspension additive is introduced into the feed at the rate of 20 ml of suspension per 1 kg of feed. Indicators of the thickness of the skin tissue on which the fur coat is located, as well as some other characteristics of its quality for this case are shown in Table 1.

Example 6

Perform, as in Example 2, but using a feed additive obtained by mechanical mixing of the suspension of nano-glauconite with diacetophenonyl selenide indicated in Example 1 at the rate of 15.0 g of nanobentonite (i.e. 75 ml of this suspension) per 1 mg of diacetophenonyl selenide. This suspension additive is introduced into the feed at the rate of 40 ml of suspension per 1 kg of feed. Data on the thickness of the skin tissue on which the hairline of the fur is located, as well as some other indicators of its quality for this case are shown in Table 1.

Example 7 (comparative)

They are carried out according to the general technology of Example 2, but using a feed additive obtained by mechanical mixing of the suspension of nano-glauconite with diacetophenonyl selenide indicated in Example 1 at the rate of 5.0 g of nanobentonite (i.e. 75 ml of this suspension) per 1 mg of diacetophenonyl selenide. This suspension is added to the feed at the rate of 30 ml of suspension per 1 kg of feed. Data on the thickness of the skin tissue on which the fur coat is located, as well as some other indicators of its quality for this case, see Table 1.

Example 8 (comparative)

They are carried out according to the general technology of Example 2, but using a feed additive obtained by mechanical mixing of a suspension of nano-glauconite with diacetophenonyl selenide indicated in Example 1 at the rate of 25.0 g of nanobentonite (i.e. 75 ml of this suspension) per 1 mg of diacetophenonyl selenide. This suspension is added to the feed at the rate of 30 ml of suspension per 1 kg of feed. Information on the thickness of the skin tissue on which the fur coat is located, as well as some other indicators of its quality for the described case are presented in Table 1.

Example 9 (prototype [2])

It is carried out according to the general technology of Example 2, but using a feed additive obtained by mechanical mixing of vermiculite with diacetophenonyl selenide at the rate of 1.0 g of vermiculite per 1 mg of diacetophenonyl selenide introduced into the feed at the rate of 25 g per 1 kg of feed. The results for determining the thickness of the skin tissue on which the fur hairline is located, as well as some other indicators of its quality for this case are given in Table 1.

Example 10 (prototype [2])

Carried out according to the technology of Example 2, but using a feed additive obtained by mechanical mixing of vermiculite with diacetophenonyl selenide at the rate of 1.5 g of vermiculite per 1 mg of diacetophenonyl selenide introduced into the feed at the rate of 25 g per 1 kg of feed. Information on the thickness of the skin tissue on which the fur coat is located, as well as some other indicators of its quality for this case are shown in Table 1.

Example 11 (prototype [2])

Carry out, as in Example 2, but using a feed additive obtained by mechanical mixing of vermiculite with diacetophenonyl selenide at the rate of 2.0 g of vermiculite per 1 mg of diacetophenonyl selenide introduced into the feed at the rate of 25 g per 1 kg of feed. Information on the thickness of the skin tissue on which the fur coat is located, as well as some other indicators of its quality for this case are shown in Table 1.

Example 12 (similar to [1])

Carried out according to the technology of Example 2, but using a feed additive - diacetophenonyl selenide at the rate of 1 mg per 1 kg of feed. Data on the thickness of the skin tissue on which the hairline of the fur is located, as well as some other indicators of its quality for this case are shown in Table 1.

Example 13 (similar to [1])

It is carried out according to the technology of Example 2, but using a feed additive of diacetophenonyl selenide at the rate of 3 mg per 1 kg of feed. Data on the thickness of the skin tissue on which the fur coat is located, as well as some other indicators of its quality for the described case, see Table 1.

Example 14 (control)

They are carried out according to the technology of Example 2, but no feed additives are introduced into the mink feed. Data on the thickness of the skin tissue on which the fur coat is located, as well as some other indicators of its quality for such a case, are also presented in Table 1.

As can be seen from the data presented in Table 1, when using the inventive feed additive, there is a rather noticeable increase in the thickness of the skin tissue on which the fur coat is (approximately 15-20% compared with those for the prototype additive [2 ]) while maintaining practically unchanged other quality indicators of fur and skin. We especially note in this connection that the claimed limits of the ratios of nano-glauconite: diacetophenonyl selenide are significant and, when going beyond these limits, a slight, but still a decrease in the above technical effect occurs (see the data of Examples 2-4 and 7-8).

We obtained similar data when using the claimed feed additive on other fur animals (Arctic fox, silver fox).

Literature

1. Application for patent of the Russian Federation No. 2008106721 (analogue).

2. RF patent 2.429.715 (2011) (prototype).

3. GOST 10322-71. "Dressed mink skins." M., Publishing House of Standards, 1994, 12 pp.

Claims (1)

 A feed additive for improving the quality of skins and fur animals containing diacetophenonyl selenide and a filler, characterized in that the filler is nano-glauconite, which is mixed with dicetophenonyl selenide in the ratio of 7.5-15.0 g of nano-glauconite per 1 mg of diacetophenonyl selenide.