RU2676724C1 - Method of feeding high-productive cows - Google Patents

Abstract

FIELD: fodder production.SUBSTANCE: invention relates to fodder production, in particular to a method for feeding highly productive cows. Method consists in the introduction into the main ration of the animal coniferous energy supplement in the amount of 300 g per head for 15 days before calving and 30 after it.EFFECT: use of the invention will increase the productivity of cows.1 cl, 6 tbl

Description

The invention relates to feed production and can be used in animal husbandry for the production of feed mixtures that activate the body systems of farm animals.

High milk productivity and high metabolic rate in highly productive cows require special rationing of their feeding, taking into account the physiological state, periods and even months of lactation [Golovan V.T., Podvorok N.I., Dakhuzhev Yu.G. et al. Rational milk production technology in the south of Russia // Publishing House. MSTU, Maykop, 2006, 236 p. (one)].

Feeding highly productive cows is significantly different from feeding medium and low yields. This is because highly productive animals are in a more stressed state during dead wood and lactation, so the need for nutrients to ensure the functional activity of the body is higher and requires the introduction of high-energy diets.

Feeding the animal in the first days after calving directly depends on the state of its body and the nature of feeding before calving. If calving went smoothly and the cow feels well, then feeding is not necessary. Hay, haylage and high-quality silage at this time can be given plenty. However, the full rate of concentrates and root crops should be given at the end of the first week after calving. The restriction in feeding these feeds is a preventive measure against increased stress of the mammary gland and possible inflammation of the udder [Gavrin, A.N. On improving the safety of imported cattle of the Federal State Institution RCSC // http://www.mcx-consult.ru/page 2008. (2)].

Abundant feeding of cows before and after calving, especially feeding a large number of concentrates, can cause loss of appetite, indigestion, pathological changes in the udder, mastitis, and in some cases maternity paresis. This applies most of all to highly productive, well-fed cows [Golovan V.T., Neshko M.I., Podvorok N.I., Kulik Yu.V., Nitovkin D.V. Ways to optimize the cost of production of milk and beef // Brochure, ed. IP "st. Rashpilevskaya, 142 ", Krasnodar, 2008, 75 pp. (3)].

Known feed additive for increasing muscle mass of animals, including sulfur-containing: L-carnitine, choline chloride, lecithin, hydrolyzed collagen, brewer's yeast, algae, vitamins and zeolite in a certain ratio of components [RF Patent No. 2292732 (4)]. The supplement stimulates the body in only one narrow direction, acting on the muscle system of animals. It has a complex composition, which includes scarce components. This increases the cost of feed additives, increasing its cost.

Known feed additive for cattle containing mineral salts, activated sludge, meal of medicinal plants, feed grains from phyllophora, diammonium phosphate, ammonium sulfate, zinc and manganese carbonates, videin, sodium chloride and feed lignin in a certain ratio of components [USSR Patent No. 1837793 (5)]. The disadvantage is the complex composition of the feed additive.

Known mineral feed additive for farm animals containing flask - opalcristobalite rocks, crushed to a state of flour. The additive is prepared by crushing together with feed grain to a state of flour at a ratio of flask and grain concentrate in the range of 1: 10-1: 100 [RF Patent No. 2134042 (6)]. The feed additive does not provide stimulation of the animal body systems due to the lack of medicinal herbs in its composition. The disadvantage is the high rate of input of the sorbent - flask into the feed - grain, which helps to remove nutrients from the body of animals, which weakens it.

Known micro-granulated feed additive containing alpha tocopherol, an oil extract of biologically active substances from sea buckthorn leaves, an antioxidant, magnesium oxide and an inert sorbent [RF Patent No. 2034501 (7)]. The granulation process is carried out under pressure at a temperature of about 80 ° C. Biologically active substances begin to decompose already at a temperature of 50 ° C. As a result, vitamin E and biologically active substances found in the extract of sea buckthorn are destroyed, losing their beneficial properties, which reduces the effectiveness of the feed additive.

The disadvantage is the complexity and complexity both in the manufacture of the finished product (granulation), and in the preparation of its component - oil extract from sea buckthorn leaves, which increases the cost of feed additives.

In the first phase of lactation, a manifestation of laminitis occurs - inflammation of the hoofs due to feeding starch-rich diets. Scar acidosis occurs when a large number of concentrates are ingested in animals, which increases the acidity of the scar fluid, which worsens the appetite, reduces body weight and milk productivity. To prevent acidosis in lactating cows, it is necessary to add high-protein and high-energy feeds to their diets. Upon reaching the peak of milk yield, the increase in the number of concentrates is stopped and kept at a stable level of feeding during the second period of lactation until a decrease in productivity begins. Such feeding provides an optimal lactation curve, which is characterized by a sharp increase and long-term retention of the peak, and then its gradual decrease in the third period of lactation. At the end of the milking from the 4-5th month of lactation, feeding should be carried out in accordance with the actual milk yield in order to keep the daily productivity at a high level until the 6-7th month with a gradual decrease by the end of lactation. In the second period of lactation, tissue reserves in the body are restored, but excessive feeding can lead to negative consequences - obesity and a sharp decline in milk yield. Therefore, it is necessary to feed according to the norms in accordance with the size of milk yield, live weight, fatness of cows and the need for partial restoration of body reserves. The average daily gain in live weight during this period should lie in the range of 0.1-0.3 kg [Gulsen, Ya. Signals of cows // A Practical Guide to Management in Dairy Cattle Breeding. - 2010. (8)].

During the rest period, concentrated feeds can be saved - without producing milk, the ruminant is able to maintain vital activity when eating only roughage. But we must not forget about the introduction of premixes in the diet, since during this period there is an active development of the fetus [Medvedev A.I. Efficiency of using the same year-round system of feeding cows in highly productive dairy cattle breeding // Abstract of dissertation for the competition. student degrees cf - Ph.D. - Kinel, 2008 .-- 24 p. (9)].

The low nutritional value of the main feed (hay, silage, haylage) makes it necessary to balance rations with the addition of animal feed. Modern technologies make it possible to introduce the maximum amount of nutrients, vitamins, micro and macro elements for each type of animal feed into a feed recipe. The amount of feed in the diet of cows is determined by several factors: the level of cow productivity, physiological state, and the need to balance the diet with breakdown protein. The higher the milk yield of cows, the higher the proportion of concentrates in the diets of the postpartum period should be [Proshina O., Loskutov N. Reproduction of a herd: a lost page // Animal husbandry of Russia. - 2011, No. 9. S. 40-41. (10)].

The use of soy and propylene glycol in the diets of cows has been studied. It has been established that when feeding an energy feed additive, the milk yield of animals for lactation increases by 6.0%, the fat content in milk - by 0.2%, and the combined use of soy and propylene glycol - by 13.5% and 0.4%, respectively. The cost of feed for the production of 1 kg of milk is also reduced by 7.0%, to reduce the cost of 1 kg of milk by 26 rubles. At the same time, the profitability of milk production is increased by 2.0%. [Shevchenko N.I., E.A. Kael E.A. Productivity of cows using soy and propylene glycol // Bulletin of the Altai State Agrarian University. - 2012. - No. 5 (91). - S. 64-67. (eleven)].

Feeding propylene glycol to cows at a dose of 100 g per head per day, starting from the dry period, 45-30 days before calving and within 60-90 days after calving, allows you to get healthy calves, reduce cases of postpartum gynecological complications, increase the productivity of experimental cows by 488 liters of milk per lactation and reduce the decrease in their live weight in the first 3 months of lactation by 70 kg [Kundyshev, P.P. Feeding highly productive cows / P.P. Kundyshev // Pricelist. - 2010. - No. 7. (12)].

An alternative to propylene glycol is glycerin. Its metabolic rate is lower than propylene glycol; accordingly, animals do not have a quick feeling of satiety, which entails a decrease in feed intake. Glycerin is a natural product, because obtained from plant or animal raw materials. It is a syrup-like liquid that is comparable to many compounds and is not harmful to the environment, since it decomposes quickly and does not pose a threat to the soil and groundwater in the event of an accident and spill. That is why it can be used in animal feeding as an energy supplement [V. Podkuvka Glycerin from rapeseed - sweet food // Proposition. - 2005. - No. 08-09. - S. 36. (13)].

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 (14); Henning A. Mineral substances, vitamins, biostimulants in the feeding of farm animals / M .: Kolos. - 1986. S. 118-127 (15)].

Currently, the most promising are studies related to the use in 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, flavanoids, 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. (16); Yagodin V.I., Vyrodov V.A. Technology of green wood. St. Petersburg: LTA, 1994, 92 p. (17); Yagodin V.I., Vyrodov V.A. Technology of biologically active substances from woody greens. St. Petersburg: LTA, 1999, 80 pp. (eighteen)].

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. (19)] in order to increase the milk production of highly productive cows by improving the digestive and metabolic processes in the body.

The method of feeding highly productive cows consists in introducing a coniferous-energy supplement into the animal’s main diet, characterized in that the coniferous-energy supplement is added in the amount of 300 g per head, for 15 days before calving and 30 after it.

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

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 / cm3 and carotene mass fraction 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.

A scientific and production experiment was conducted in the SEC "Limanskiy" in the Shcherbinovsky district of the Krasnodar Territory on deep-growing and lactating highly productive cows with 10 animals in each group similar to milk productivity for 305 days of the previous lactation, the average daily milk yield and fat in milk, age, live weight, and the number of calving as well as dates of fruitful insemination. The experimental animals were kept under the same conditions.

The mechanism of action of CED is as follows: glycerol is rapidly and completely absorbed in the gastrointestinal tract of ruminants and is largely available for intermediate metabolism as a glucoplastic substance. It is used for the synthesis of glucose and for the direct generation of energy in the animal’s body - it increases the glucose content in the blood, normalizes the energy balance. The experiment lasted until 90 days of lactation.

The cows were fed according to the scheme adopted by the farm for the use of the same year-round feeding with mono-mixtures. Animal feeding diets were developed in accordance with the requirements of modern detailed feeding standards for lactating cows, taking into account the actual productivity and physiological state.

Accounting for milk productivity was carried out according to the data of the control milking of cows for months of lactation (table. 2).

Note: * P <0.05; ** P <0.01; *** P <0.001.

In the first month of lactation, from the cows of the control group received 16.91 kg of milk per day on average. This indicator in animals of the second group was higher by 1.8%, the third - by 3.3% and the fourth - by 5.7%). At the same time, there was a tendency to increase the fat content in cow's milk, when feeding 150 g of CED in the second group by 0.07%, 200 g of CED in the third group of cows by 0.13% (P <0.05) and 300 g HED in the fourth group - by 0.22% (P <0.01). The indicators for the protein content in cow's milk practically did not differ between the control and the experimental groups, however, there was also a tendency to increase this value by 0.01-0.04%. Due to an increase in the gross milk yield for the first month of lactation, the amount of milk fat in the milk of cows of the second group increased by 3.8%, the third - by 7.0% (P <0.05), the fourth - by 11.9% (P <0.001), as well as milk protein by 2.2%, 4.2% (P <0.05) and 7.2% (P <0.01), respectively. When adjusting the milk yield for 4% milk, feeding HED allowed to increase milk yield in the second group of animals by 2.9%, the third - by 5.3% and in the fourth - by 9.3%.

Tables 3 and 4 show the milk production of cows for the second and third months of lactation. The same dynamics of increasing the productivity of cows in the experimental groups was observed, which indicates the prolonged action of the studied feed additives.

Note: * P <0.05; ** P <0.01; *** P <0.001.

Note: * P <0.05; ** P <0.01

Averaged data on milk productivity and milk quality of cows for the first three months of lactation are shown in table 5.

Note: * P <0.05; ** P <0.01; *** P <0.001.

The milk content of dry substances, dry skim milk residue and somatic cells, as well as its density are presented in table 6.

Note: ** P <0.01; *** P <0.001.

It was found that even with a slight increase in the amount of fat and protein in cow's milk, there is a tendency to increase its dry matter content, SOMO and density.

Since the needles contained in the studied energy supplement have high bactericidal properties, it was justified that the content of somatic cells in milk in the second group of cows decreased by 1.9%, in the third - by 6.8% (P <0.01), the fourth - by 8.0% (P <0.001).

The intake of physiologically useful energy from the feed is determined by the amount of dry matter consumed, the concentration of exchange energy in the dry matter and the level of feeding.

Due to the inclusion of energetic coniferous supplements, the use of feed nutrients occurs more fully, due to the activation of the secret function of the departments of the stomach of cows.

It was found that the cost of nutrients per 1 kg of feed mixture by cows during the experiment decreased, compared with the control, in the second group of animals by 2.5%, in the third - by 7.4%, in the fourth group - by 9.9% .

When calculating the economic efficiency of using the studied additives, it was found that the level of profitability of milk production in the second group of cows, when feeding them a feed additive in the amount of 150 g per head 15 days before and 30 days after calving, increased by 2.0%, in the third group , when feeding 200 g per head with the same duration - by 8.0%, increasing the dosage to cows up to 300 g per head of EDC - by 12.3%. As a result of the experiment, 1200.96 rubles were obtained in the second group of animals. additional profit per head, in the third group - 4275.54 rubles., In the fourth - 6674.94 rubles.

Feeding coniferous energy supplements to cows 15 days before calving and 30 days after in an amount of 300 g per head ensured an increase in milk productivity of cows by 11.8%, milk fat content in milk by 13.2%, milk protein - by 11.2 %, a decrease in the number of somatic cells in milk by 8.0%, the cost of nutrients for the production of 1 kg of milk by 2.5–9.9%, loss of live weight when dividing - by 15.7%, improvement in physiological and biochemical status and manifestation of anti-stress effect, improvement of clinical indicators of animals, reduction of service per Ode to 11.8%. As a result, the level of profitability of milk production increased by 12.3%.

Information sources:

1. Golovan V.T., Podvorok N.I., Dakhuzhev Yu.G. et al. Rational milk production technology in the south of Russia // Publishing House. MSTU, Maykop, 2006, 236 p.

2. Gavrin, A.N. On improving the safety of imported livestock of the Federal State Institution RCSC // http://www.mcx-consult.ru/page 2008.

3. Golovan V.T., Neshko M.I., Podvorok N.I., Kulik Yu.V., Nitovkin D.V. Ways to optimize the cost of production of milk and beef // Brochure, ed. IP "st. Rashpilevskaya, 142 ", Krasnodar, 2008, 75 pp.

4. RF patent No. 2292732.

5. USSR patent No. 1837793.

6. RF patent No. 2134042.

7. RF patent No. 2034501

8. Gulsen, I. Signals of cows // A practical guide to management in dairy farming. - 2010.

9. Medvedev A.I. Efficiency of using the same year-round system of feeding cows in highly productive dairy cattle breeding // Abstract of dissertation for the competition. student degrees cf - Ph.D. - Kinel, 2008 .-- 24 s

10. Proshina O., Loskutov N. Reproduction of the herd: a lost page // Livestock of Russia. - 2011, No. 9. S. 40-41

11. Shevchenko N.I., E.A. Kael E.A. Productivity of cows using soy and propylene glycol // Bulletin of Altai State Agrarian University. - 2012. - No. 5 (91). - S. 64-67.

12. Kundyshev, P.P. Feeding highly productive cows / P.P. Kundyshev // Pricelist. - 2010. - No. 7.

13. Pumping V. Rapeseed glycerin - sweet food // Proposition. - 2005. - No. 08-09. - S. 36.

14. Karpov V. Efficiency of complex application in cattle breeding of feed additives of natural origin / Dairy and meat cattle breeding. - 2009. No. 4. S. 15-17.

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

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

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

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

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

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

Claims (1)

A method of feeding highly productive cows, which consists in introducing a coniferous energy supplement into the animal’s main diet, characterized in that the coniferous energy supplement is added in an amount of 300 g per head for 15 days before calving and 30 after it.