RU2664299C2 - Feed additives used to stimulate the reproductive function of pigs - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the fodder production and feeding of farm animals, in particular pigs. Feed supplement based on plant raw materials for stimulating the reproductive function of the repairing pigs and the main sows is characterized by the fact that it is a meal of rye embryos, which is introduced into the ration of animals daily in an amount of 125–175 g per head starting from 30–60 days of gestation and before farrowing.EFFECT: use of the invention will improve the reproductive ability of repair gilts and sows, lengthen the period of their use and obtain a high economic effect.1 cl, 5 tbl, 2 ex

Description

The invention relates to agricultural production, more specifically to the production of feed additives based on plant materials from waste from the food industry, flour and cereal production, and can be used, in particular, in the feeding of repair pigs and main sows in the form of a biologically active feed additive that stimulates the reproductive function animals.

Known stimulator of the reproductive function of pigs, containing cereal embryos (wheat, barley) and an antioxidant drug - mexidol (succinate-2-ethyl-6-methyl-3-hydroxypyridine) [1]. However, the effect of this drug on fertility has not been established, and the economic effect on one sow is negligible. In addition, with respect to Mexidol, there are contraindications for use during the gestation period, as well as the high cost of the drug.

It is known to use flour from a non-fat secondary waste from complex processing of durum wheat by cold pressing of embryos with a fat content of 5-8% as an additive for pregnant sows and their offspring. This additive under the name "Germivit" is introduced into the diet of sows 100-200 g once a day for 45-60 days before farrowing [2]. However, the additive contributed to increasing the yield of piglets during farrowing only 0.09 goals. per sow, which is not significant.

It is known to use flour from wheat germ as a feed additive for animals and poultry to improve reproductive function [3] - a prototype. The disadvantage of this method is the high percentage of input additives - from 0.5 to 30.0% of the composition of the feed, which is economically disadvantageous.

An object of the invention is to expand the range of bioactive feed additives of natural origin for primiparos and sows, helping to reduce the resorption of embryos, sowing, increase the yield of live piglets, reduce the number of stillborn piglets, improve the fertility rate, save piglets for weaning, and obtain a high economic effect. In addition, earlier rye embryos were not used in sows.

The rye germ with the traditional technology of rye grinding in the process of industrial processing of rye grain into baking flour gets into grain waste and is lost with them. According to the technology developed at the Siberian branch of the All-Russian Research Institute of Grain and its Processing Products [4], the waste is processed by sieve and air separation with the release of small and large germ, which is used for its intended purpose, in particular for feed purposes in the form of flour [ 5].

To solve this problem, a natural biostimulating feed additive based on plant materials obtained after industrial processing of rye grain into flour at the flour milling enterprise Avangard MAO in the Novosibirsk Region is proposed as a by-product - rye germ, which is introduced into the main ration of pregnant repair pigs and main sows daily in the form of flour from rye embryos in the amount of 125-175 g per head, starting from 30-60 days of gestation and before putting on farrow.

In terms of biochemical composition, rye embryos differ from whole rye in increasing the content of crude protein to 26.77%, crude fat - 10.86%, crude fiber - 3.12%, calcium - 0.117%, phosphorus - 0.973% and lysine - 0, 83%, vitamins in mg / kg: E - 41.28, B ₁ - 4.13, B ₂ - 1.24, B ₃ - 20.31, B ₅ - 69.25.

When comparing the amino acid composition of the total protein of the rye embryo and wheat, it is necessary to note an increased content in the protein of the rye embryo of lysine - 7.2% versus 5.6%, phenylalanine - 4.71% versus 3.8% in wheat. The rye germ also contains many biologically active substances and, in terms of the content of vitamins B ₂ and E, significantly exceeds the wheat germ. Rye embryo lipids contain more linoleic acid, campasterol, delta-7-stigmasterol, β-sitostyrene and vitamin E [6-8]. The bulk of other biologically active substances are concentrated in cereal embryos, in particular rye: lignans, carboxylic acids, alkylresorcinol, phytosterones, folates, and an increased level of iodine [9].

Example 1

The effect of rye embryo flour on the reproductive capacity of repair pigs, such as the primrose of large white breed, the condition of newborn piglets, and their safety in the conditions of Borovskoye breeding plant in the Novosibirsk Region, was determined. The maintenance and feeding of pregnant repair pigs is a group until transfer to the farrowing shop, weaning of piglets when they reach the age of 60 days.

For experience, on the principle of approximate analogues, 3 groups of repair pigs were formed with 6 animals each. Pigs of the control group received compound feed SK-1, in the first experimental group, rye germ flour (MZR) was added to the diet in the amount of 80-120 g, in the second experimental group - 125-175 g per head. The rye germ flour was fed to repair pigs in the experimental groups daily starting from 37-60 days of gestation and before transfer to farrowing. During the gestation period, the live weight of the pigs and the duration of gestation were taken into account (Table 1).

On the increase in live weight of pigs before farrowing, the addition of MOH to the composition of the main diet did not affect.

The optimal gestation periods with a significant difference were noted in both experimental groups, and in the control, the average duration of gestation was on average. The interval between farrowings was 3-4 days in the primiparines of the experimental groups, in the control - 11 days, which may complicate the formation of animal groups when placed on farrow.

The effectiveness of the impact of the MOH on the productive indices of the first farms can be judged by the data of the blank. In the control group, this indicator was higher, in the third group, which received an increased level of MOH, all the repair mumps that had occurred were farrowed. On average, for one first-mowing, they had the highest rates for multiple fertility, milk production, and the safety of piglets (Table 2).

The addition of 125-175 g of rye germ flour contributed to the reduction of idleness in repair pigs, an increase in fruitful insemination from 66.7 to 100%, an increase in the yield of live-born piglets by 20.29%, a decrease in the number of still-born piglets from 0.50 to 0.17%, improving the safety of their offspring from 78.05 to 85.97%, with an additional achievement of increasing the milk yield of the first-sows of the 2nd experimental group by 20.53 kg compared with the control group.

The economic effect of the daily use of 125-175 g of MOH per head as a stimulating dietary supplement for repair pigs from the 37-60th day of gestation to farrowing amounted to 1351 rubles. on one head.

Example 2

In LLC SPK Chistogorsky, Kemerovo Region, on the sows of the Kemerovo meat breed, Pietrain and their crossbreeds, a production check of the optimal dosage of MOH was conducted. A month before feeding, 24 sows in each group were observed. Then the control group received SK-1 compound feed, the tested group received SK-1 and MOH at the rate of 125-175 g per head per day every day starting from the 30th day of gestation and before being transferred to the farrowing shop. Feeding and keeping sows is a group, 12 animals per cage, then transfer to the farrowing shop, weaning piglets at the age of 26 days, followed by maintenance in the cells of mothers up to 60 days of age.

Under the conditions of industrial keeping of animals, there was no decrease in the intervals between farrowings when MHR was added to the diet in comparison with the control (Table 3). Perhaps this was influenced by a higher level of work of the veterinary service. The influence of biostimulating supplements on the increase in live weight during gestation was also not detected.

During the study period, part of the sows re-entered the hunt and was removed. As a result, the gap in the control group was 20.83%, and in the tested group it was 8.33%, respectively. In addition, in the control group the number of premature farrowings (abortions) amounted to 4.17%, in the tested group - 0%. As a result, of the total number of main sows that were found, 75.00% were farrowing in the control, and 91.67% in the control group (Table 4).

The trend towards an increase in the number of viable piglets in the tested group with the addition of MOH to the diet was confirmed.

The number of live-born piglets in the tested group on average per sow was higher by 7.51% or 0.73 goals. A decrease in the number of still-born pigs was obtained from 0.67 to 0.36%, weakly born from 4.22 to 0.49% with an improvement in the effect of the additive on large-fruited and safe piglets up to 60 days of age.

Piglets in the experimental group were larger by 0.15 kg at birth, by 0.19 kg in 21 days. age and 0.53 kg in 60 days. when transferred to the growing workshop (table. 5).

The economic effect of using 125-175 g of MOH per head as a stimulating dietary supplement in the tested group of main sows amounted to 3824.95 rubles.

Information sources

1. Pat. (RU) No. 2143196, A01K 67/02, A61K 31/44. Stimulator of reproductive function of animals / A.V. Mamaev, A.M. Guskov, N.V. Znikhaev, A.N. Shchepelev, Yu.N. Rams; declared November 2, 1998; publ. 12/27/1999; Bull. No. 31.

2. Pat. (RU) No. 2305413, A23K 1/16. Feed additive and method for feeding pigs using this additive / I.M. Donnik, I.A. Alekseeva, A.D. Shusharin, N.A. Vereshchak, A.G. Isaev, V.M. Tumakova, A.S. Tolmacheva, V.K. Innocent; declared 09/20/2005; publ. 03/27/2007; Bull. No. 9.

3. Pat. (RU) No. 2348169, A23K 1/00; A23K 1/14; A23K 1/16. The method of feeding farm animals and poultry / V.K. Trofimov, G.G. Trofimov; declared 10/10/2008; publ. 03/10/2009; Bull. Number 7.

4. Chirkin A.P. Technology of selection of rye germ in flour mills / A.P. Chirkin, V.A. Scriabin, N.A. Nosenko // Sat. tr VII International scientific-practical conf .: "Food, ecology, quality." - Krasnoobsk, Publishing House: Siberian Research Institute for Agricultural Processing, 2010. - S. 269-271.

5. TU 9295-006-00932175-2009. “Technology and Products from the Rye Germ” / V.A. Scriabin, A.A. Chirkin.

6. Canneyn S.K. The interaction of essential fatty acids and minerals in the body of pigs / S.K. Canneyn // Fats in the nutrition of agricultural animals. - M .: Agropromizdat, 1987 .-- S. 145-148.

7. Schuette N.A. Isolation of Campasterol and Δ7-Stigmasterol from Rye Germ Oil / H.A. Schuette and W.E. Link // J. Am. Chem. Soc. - 1954.- V. 74 (16). - P. 4192.

8. Gloyer S.W. The Sterols of Rye Germ Oil / S.W. Gloyer, H.A. Schuette // J. Am. Chem. Soc. - 1939. - V. 61 (7). - P. 1901-1903.

9. Kazakov E.D. Biochemistry of grain and products of its processing / E.D. Kazakov, V.L. Kretovich. - M .: Agropromizdat, 1989 .-- S. 357.

Claims (1)

Feed supplement based on plant materials to stimulate the reproductive function of repair pigs and main sows, characterized in that it is flour from rye embryos that are introduced into the diet of animals daily in the amount of 125-175 g per head from 30-60 days of gestation and before placing the animal on farrow.