RU2668849C2 - Method of use of chromium-compensating additives in cow diet - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture, in particular to a chromium-compensating additive for highly productive cows. Additive is characterized in that the chromium acetate with an elemental chromium content of 20 mg/ml is diluted in distilled water in a ratio of 1:5, which is introduced into the grain mixture in an amount of 1 ml of solution or 0.4 mg as elemental chromium per animal a day for three weeks before calving and a month after it. Moreover, chromium acetate is obtained by reduction of hexavalent chromium (Cr) to trivalent (Cr) by molasses in the presence of acetic acid.EFFECT: use of the invention will increase milk production and affect carbohydrate metabolism.1 cl, 2 tbl

Description

The invention relates to agriculture, namely to livestock, is intended for use in feeding highly productive cows.

Increasing the productivity of farm animals is one of the most urgent tasks of agricultural science. To achieve high animal productivity, feed mixtures must be fed in a balanced manner for all nutrients.

It is known that minerals are of great importance in the organization of full-fledged cattle feeding.

However, it has also been proven that plant foods do not satisfy the animal needs for mineral components in the required amount.

Chromium is one of the microelements that were not previously taken into account, but which have a great effect on the animal organism [1; four].

It is known to use chromium chloride as an additional source of chromium in the diets of cows, which contributes to the normalization of metabolic processes in the body of cows [2]. The inclusion of chromium chloride in the composition of the diet of cows can increase milk productivity, improve the chemical composition and quality of milk. However, this additive is a salt of an inorganic acid and may have a negative effect on the animal organism. For example, an excess of chlorides has a negative effect on the secretory activity of the stomach, and the bioavailability of trace elements in such compounds is lower than in organic compounds [3].

The closest analogue to the claimed one on the basis of essential features and adopted for the prototype is KemTrace chromium propionate 0.4% of the Kemin company, which is used as a source of chromium, adding 0.3 to the grain mix or mineral-vitamin premix based on calculation for young cattle mg of elemental chromium per 1 kg of dry matter of the diet and for dairy cows at the rate of 10 mg of elemental chromium per head per day. However, the prototype analogue is an imported mineral supplement and has a high cost. In this regard, the search for alternative sources of organic chromium is of particular relevance.

The aim of the invention is to increase milk productivity by using chromium-compensating additives in the form of chromium acetate in diets. When using this feed additive in the diets of feeding highly productive cows, you can achieve good nutrition.

To solve the problem, in the claimed invention, in addition to features similar to the closest analogue, KemTreys chromium propionate, new features are introduced: chromium acetate is obtained in liquid form with elemental chromium content of 20 mg / ml. For use in feeding cows, chromium acetate is diluted in distilled water in a ratio of 1: 5 and introduced into the composition of the grain mixture in an amount of 1 ml.

Analyzing the totality of the essential features in the known feed additives and in the formula of the invention claimed for patenting, it was found that in the above analogues there are no signs inherent in the claimed invention, and therefore the chromium-compensating additive based on chromium acetate meets the criterion of "novelty."

In the field of agriculture and related industries, where feed additives are fed and used by animals, they have not detected chromic compensating additives with the totality of features contained in the claims of the claimed invention, and therefore the chromic compensating additive based on chromium acetate meets the criterion " inventive step ".

A known method of reducing hexavalent chromium (Cr ⁺⁶ ) to trivalent (Cr ⁺³ ) by organic substances in the presence of acetic acid. In the described method, sugar, glucose, starch, flour, glycerin, formalin, wood shavings, sawdust, molasses, ethyl alcohol and other organic substances are used as reducing agents.

A known method of producing chromium acetate from chromic anhydride (RF patent No. 2186030, publ. 07.27.2002, C01G 37/00, C07F 11/00). However, this compound is technical and cannot be used in animal feeding.

The essence of the method and its novelty lies in the use of chromium acetate obtained by reducing hexavalent chromium (Cr ⁺⁶ ) to trivalent (Cr ⁺³ ) molasses in the presence of acetic acid in the diets of cows in the most physiologically intense periods (three weeks before calving and a month after calving) at a dose of 1 ml of solution per head per day or in terms of elementary chromium 0.4 mg.

Example

 Scientific and economic experience was gained on the use of a chromium-compensating additive in comparison with the imported analogue of KemTreys chromium propionate of Kemin company. The tests were carried out on highly productive cows of black-motley breed in the amount of 30 animals, which are divided into 3 groups. The experimental design and the obtained data are presented in table 1.

Note: * P≥0.95

The use of chromium-compensating additives chromium acetate in the diets of highly productive cows allowed to increase the milk yield in the first 100 days of lactation (by 10.8%) and the mass fraction of fat in milk (by 0.13%).

The main biochemical blood parameters of cows are shown in table 2.

Chromium acetate had a positive effect on carbohydrate metabolism, increasing the glucose content in the blood of cows receiving this supplement by 30%. The cholesterol level also decreased (by 11%), the calcium content increased (13.4%), the protein level returned to normal (72.2 g / l versus 67.7 g / l).

Note: * P≥0.95

Thus, the proposed chromium-compensating additive can increase the milk productivity of cows, improve the quality of milk and have a positive effect on hematological parameters, and can serve as a domestic analogue of imported additives.

Information sources

1. Gibalkina N.I. Growth and development of young cattle in the dairy period at different levels of chromium in diets. / Actual problems of the intensive development of animal husbandry. Materials of the XVI International Scientific and Practical Conference dedicated to the 80th anniversary of the Department of Breeding and Genetics of Farm Animals, UO BSAA. - 2013 .-- S. 30-36.

2. Kokorev V.A. Morphological and biochemical blood parameters of dairy cows at different levels of chromium chloride in diets. / Actual problems of the intensive development of animal husbandry: [Sb. scientific tr.]: in 2 hours, Part 2 (17): Hills: BSAA, 2014 - S. 730.

3. Megevov A.B. The effect of chromium on metabolism and milk production of cows: Abstract. dis. c. agricultural sciences. - Saransk, 2012 .-- S. 24.

4. Musulkin D.R. The effect of different levels of chromium on the metabolism and productivity of heifers and cows: Abstract - Saransk, 2009. - P. 26.

5. RF patent No. 2186030, 07.27.2002. A method of producing chromium acetate.

Claims (1)

A chromium-compensating additive for highly productive cows, characterized in that chromium acetate, with an elemental chromium content of 20 mg / ml, is diluted in distilled water in a ratio of 1: 5, which is introduced into the composition of the grain mixture in an amount of 1 ml of solution or in terms of elemental chromium 0 , 4 mg per head per day three weeks before calving and a month after it, moreover, chromium acetate is obtained by reducing hexavalent chromium (Cr ⁺⁶ ) to trivalent (Cr ⁺³ ) molasses in the presence of acetic acid.