RU2649594C1 - Application method of a piece energy additive - Google Patents

Abstract

FIELD: animal breeding.

SUBSTANCE: invention relates to livestock raising, in particular, to a method for increasing energy nutrition and enriching animal diets with vitamins, macro- and microelements. Method consists in introducing a coniferous energy supplement in an amount of 150 grams (0.25 g/kg of live weight) to the animal ration, the additive being introduced into the animal diet 20 days before calving and 30 days after calving.

EFFECT: use of the invention will increase milk production and reduce the loss of nutrients of farm animals at the beginning of lactation.

1 cl, 3 tbl

Description

The invention relates to animal husbandry, and specifically to methods of using feed additives intended to increase energy nutrition, and enriching feed rations with vitamins, macro- and microelements, which can increase milk productivity and reduce the loss of nutrients of farm animals at the beginning of lactation.

The high productivity of dairy cattle is determined and inextricably linked with the intensive course of processes of all types of metabolism in the organs and systems of the body, with their intense functional activity. Only with the optimal state of metabolic processes, the genetic potential of highly productive animals is fully realized.

A feature of the metabolism of highly productive cows during the milking period (6-8 weeks after calving) is that high energy requirements for milk production cannot be fully covered due to nutrients from the feed. As a result, lipid of fat depots, muscle tissue proteins and body minerals accumulated by the animal organism in the second half of lactation and, especially, in the dry period are used for milk synthesis in this period in significant quantities [Buryakov N.P. Monitoring the usefulness of cattle / Bio diets. - 2008. No. 8. S.12-17. (one); Lee V. Optimization of digestion processes in cows / Dairy and beef cattle breeding. - 2011. No. 7. S.8-10. (2)].

Most researchers are inclined to believe that with a high level of productivity, the normal course of lipid metabolism in the body of cows is limited by glucose deficiency, which is used in significant quantities for the synthesis of milk lactose, therefore, to increase the glucose concentration in the blood and normalize metabolic processes, various glycogenic feed additives (propylene glycol, salts of propionic acid, glycerin, etc.). [Hare V.N. Feeding highly productive cows of propylene glycol in combination with niacin and glycerin / Feeding of farm animals and fodder production. - 2009. No. 1. S.20-23 (3)]. Moreover, in the domestic market, the basis for energy supplements is most often propylene glycol, while in Europe glycerol is successfully used. The main component of glycerol is glycerol (propanotriol-1, 2, 3), the simplest representative of trihydric alcohols, which is a viscous transparent liquid with a sweet taste that interacts with many compounds and is harmless to the environment, since it mixes with water in all ratios and does not represent threats to soil and groundwater.

Balancing rations can be achieved not only through the introduction of scarce components, but also with the help of feed additives that increase the efficiency of feed absorption. Biologically active preparations provide a more complete extraction of nutrients from feed, normalize the digestive system and, thus, provide the physiological needs of the body [Karpov V. Efficiency of the complex use of feed additives of natural origin in cattle breeding / Dairy and beef cattle breeding. - 2009. No. 4. S.15-17 (4); Henning A. Mineral substances, vitamins, biostimulants in the feeding of farm animals / M .: Kolos. - 1986. P.118-127 (5)].

Currently, the most promising are studies related to the use in medicine and veterinary medicine of bioregulatory type products, abundantly contained in woody greens.

The beneficial properties of woody greens containing carotene, chlorophyll, xanthophyll, proteins, polysaccharides, nucleic acids, flavonoids, amino acids, vitamins K, E, C and other substances that play a significant role in metabolism and in the synthesis of several new vitamins in the body do not cause doubts are reflected in many publications [Levin ED, Repyakh SM Processing green wood. M .: Forest industry, 1984, 120 p. (6); Yagodin V.I., Vyrodov V.A. Technology of green wood. St. Petersburg: LTA, 1994, 92 p. (7); Yagodin V.I., Vyrodov V.A. Technology of biologically active substances from woody greens. St. Petersburg: LTA, 1999, 80 pp. (8)].

Pine needles contain iron, manganese, copper, zinc, cobalt, potassium, sodium, calcium and other micro and macro elements. The high content of cobalt in the needles explains the therapeutic effect of feeding it to cattle, which is sick with dryness. In addition, resinous substances, essential oils and phytoncides, which have a bacteriostatic effect on the intestinal microflora, are in needles.

The purpose of the present invention is the use of coniferous energy supplements [TU 9759-011-42400357-13. Coniferous energy supplement. Technical conditions N. Novgorod, 2013, 9 pp. (9)] at the end of the dry period and at the beginning of lactation in order to increase the productivity of cows by improving the digestive and metabolic processes in the body.

The manufacturer of coniferous energy supplements (HED) is NTSC Himinvest LLC N. Novgorod [Technological regulations for the production of coniferous energy supplements. N. Novgorod, 2013, 11 pp. (10)].

HED is a homogeneous viscous liquid with a characteristic coniferous smell, olive green or dark green in color, water content not more than 50%, pH 8.0-9.0, density not less than 1,126 g / cm ³ and mass fraction of carotene not less than 3 mg per 100 g of extract. Studies of the chemical composition of HED showed a high content of B vitamins (B1, B2, B3, B5, B6, B9), as well as carotenoids and other biologically active compounds. The energy value of coniferous energy supplements is 250 kcal / 100 g supplements.

The scientific and production experiment was conducted in September-November 2016 at the Lukoshkino farm (FSUE EC Klenovo-Chegodaevo) on two groups of black-motley cows 20 days before and 30 days after calving, selected for productivity and lactation.

Animals of the control and experimental groups were in the same conditions. Their feeding was carried out according to the daily routine adopted at the farm. The diets of feeding animals are made in accordance with their live weight and productivity.

Experimental animals received a basic diet consisting of silage, haylage, hay, concentrates and molasses. The cows of the experimental group included 150 grams of coniferous energy supplement in the diet (0.25 g / kg body weight) 20 days before calving and 30 days after calving.

The efficiency of the use of energy and nutrients of feed in ruminants is directly dependent on the nature of metabolic processes in the rumen, microbial processes in the pancreas. To study the effect of the test additive on the rumen fermentation processes, at the end of the experiment, a scar content was taken using an esophageal probe, in which the pH, the total content of volatile fatty acids (VFA), the molar ratio of individual fermentation acids, the concentration of ammonium nitrogen, and the content of microbial mass ( bacteria and ciliates).

Analyzing the data in the table, it should be noted that the total acidity of the cicatricial content in experimental cows was increased, which is associated with the intensification of the fermentation processes and the formation of acidic metabolites in the rumen in the form of volatile fatty acids when feeding coniferous energy supplements. The total amount of VFA, the final products of the breakdown of carbohydrates in the pancreas, was 8.7% higher in experimental cows compared to the control group. This fact indicates a more intensive course of carbohydrate hydrolysis in experimental animals. Considering the molar ratio of individual short-chain acids, an increase in the proportion of acetic acid in experimental cows and a slight decrease in the proportion of propionic and butyric acids should be noted.

Higher indicators of the mass of symbiotic microflora were found in animals of the experimental groups. So, there was an increase in the level of formation of microbial mass by 19.4%, including ciliates by 36.9% and bacteria by 10.7%. Thus, the introduction of coniferous energy supplements was accompanied by an increase in the total mass of symbiotic microflora, both protozoa and bacteria.

Based on the foregoing, it can be concluded that the introduction of a coniferous energy supplement into the diet helps to optimize the processes of fermentation in the rumen and, as a result, creates more favorable conditions in the rumen environment for the development of microflora and increase the digestibility of nutrients in diets. This ultimately helps to increase milk production.

In order to study the effect of coniferous energy supplements fed as a part of diets on milk productivity, milk production was recorded for each group of cows (Table 3).

The differences compared with the control are statistically significant at * - P <0.05, ** - P <0.01.

As can be seen from the data in table 3, feeding coniferous energy supplements in the diet provided an increase in milk productivity. The average daily milk yield on the 30th day of the experiment at natural fat content and after transferring to 3.4% the fat content in the cows of the experimental group was higher by 6.9 and 9.3%, respectively, in comparison with the animals of the control group. The highest fat content (3.95%) in milk was among the cows of the experimental group treated with the supplement, versus 3.86% in the control.

After the feeding was stopped, the results of the control milking showed that the average daily milk yield of the experimental cows was also higher than in the control. So, the difference in average daily milk yield of natural milk was 5.4%, after transferring to 3.4% the fat content was 8.0%.

The content of protein and lactose in the milk of cows of all groups was almost the same. There was a significant decrease in the number of somatic cells in the milk of cows fed with a coniferous energy supplement, which may determine the bacteriostatic effect of the coniferous extract that is part of the supplement. A tendency towards an increase in the dry milk residue in the milk of experimental cows was also noted.

The cost of nutrients for the production of 1 kg of milk of 3.4% fat content in the groups of cows treated with coniferous energy supplement was lower. Thus, the consumption of concentrated energy feed for the cows of the experimental group was lower by 8.0% compared with the control animals.

The positive effect of coniferous energy supplements in the amount of 150 ml, which was included in the diet of cows at the end of the dry period (at the beginning of lactation), on the average daily milk yield of natural fat by 5.4-6.9%, with an increase in milk fat by 0.09%, was established. and lower feed costs per unit of output. The use of coniferous energy supplements contributed to the strengthening of enzymatic processes in the rumen and had a positive effect on the course of carbohydrate-lipid and protein metabolism and indicators of nonspecific resistance.

Thus, feeding a biologically active supplement containing coniferous extract and glycerin helps to increase the energy nutrition of cow diets and enrich them with vitamins and macro- and microelements, which can significantly increase milk productivity and reduce the loss of nutrients in animals at the beginning of lactation.

Sources of information accepted during the examination of the application

1. Buryakov N.P. Monitoring the usefulness of cattle / Bio diets. - 2008. No. 8. S.12-17.

2. Lee V. Optimization of digestion processes in cows / Dairy and beef cattle breeding. - 2011. No. 7. S.8-10.

3. Hare V.N. Feeding highly productive cows of propylene glycol in combination with niacin and glycerin / Feeding of farm animals and fodder production. 2009. No1. S.20-23.

4. Karpov V. The effectiveness of the integrated use in animal husbandry of feed additives of natural origin / Dairy and beef cattle. - 2009. No. 4. S.15-17.

5. Henning A. Mineral substances, vitamins, biostimulants in feeding farm animals / M .: Kolos. - 1986. S.118-127.

6. Levin E.D., Repyakh S.M. Processing green wood. M .: Forest industry, 1984, 120 p.

7. Yagodin V.I., Vyrodov V.A. Technology of green wood. St. Petersburg: LTA, 1994, 92 p.

8. Yagodin V.I., Vyrodov V.A. Technology of biologically active substances from woody greens. St. Petersburg: LTA, 1999, 80 pp.

9. TU 9759-011-42400357-13. Coniferous energy supplement. Technical conditions N. Novgorod, 2013, 9 pp.

10. Technological regulations for the production of coniferous-energy additives. N. Novgorod, 2013, 11 pp.

Claims (1)

The method of application of coniferous energy supplements to increase energy nutrition and enrichment of feed rations with vitamins, macro- and microelements, which consists in adding 150 grams (0.25 g / kg of live weight) to animals ’diet, characterized in that the supplement introduced into the diet of animals 20 days before calving and 30 days after calving.