RU2738272C1 - Method for increasing milking cow productivity - Google Patents

Abstract

FIELD: fodders.SUBSTANCE: invention relates to fodder production and may be used in cattle breeding during production of fodder mixtures. Method for increasing productivity of milking cows consists that in the basic ration one introduces an energy fodder additive consisting of crushed lavender cake that has been subjected to glycerin extraction in amount of 225 g per head for 30 days after calving.EFFECT: invention allows to increase milk productivity of cows in the first phase of lactation by 10, 9 %, improve physiological and biochemical status.1 cl, 7 tbl

Description

The invention relates to feed production and can be used in animal husbandry in the production of feed mixtures to increase the productivity of farm animals.

In modern conditions of animal husbandry, the determining factor in increasing the productivity of livestock is a full-fledged balanced feeding, in which animals, along with the basic elements of nutrition, should receive other vital nutritional components in accordance with the need and physiological state of animals.

Balancing the rations can be ensured not only by introducing deficient components, but also with the help of energy feed biologically active additives that increase the energy of the diet. Biologically active components provide a more complete extraction of nutrients from feed, normalize the work of the digestive system and thus allow to meet the physiological needs of the body [Karpov V., Nevinny V., Poslykhina O. The effectiveness of complex use of feed additives of natural origin in cattle breeding / Dairy and beef cattle breeding. - 2009. - No. 4. - S. 15-17 (1)].

Today, throughout the world, the use of probiotics, prebiotics, symbiotics and other biologically active additives in animal husbandry is practiced, which helps to correct microbiocenoses in the digestive system of a macroorganism and reduces the negative effect of diseases of the digestive system of animals, as well as the consequences of feeding poor-quality feed [Zaitsev S. Yu., Konopatov Yu.V. Biochemistry of animals / - SPb .: Publishing house "Lan", 2004. - 382 p. (2); Kalashnikov V.V. Rates and rations for feeding farm animals. Reference manual / - Dubrovitsy: VIZH, 2003 .-- 456 p. (3)].

Known feed additive for cattle, containing mineral salts, activated sludge, meal of medicinal plants, fodder grit from phyllophora, diammonium phosphate, ammonium sulfate, zinc and manganese carbonates, videin, table salt and feed lignin in a certain ratio of components [USSR Patent 1837793 (4)]. The disadvantage is the complex composition of the feed additive.

A known method of feeding animals and birds, including the introduction into the diet of a physiologically active agent in the form of sea buckthorn pulp, while feeding is carried out with the addition of sodium alginate or a mixture of carrageenanjamer in the ratio of 3: 1 in the amount of 0.5 wt. % share [RF Patent 2375913 (5)].

The disadvantage of this method of feeding is its low productivity due to the low nutritional value of the feed. In addition, the use of a sea buckthorn meal feed additive leads to an increase in the cost of feed.

It is known to use oregano essential oil in combination with 1,2 propylene glycol or bentonite to increase the resistance and productivity of farm animals and poultry [RF Patent 2297775 dated 04/27/2007 (6)]. In feeding cows, stevia pulp is used as a biologically active additive [RF Patent 2313951 from 01/10/2008 (7)].

The disadvantage of feed additives from these plants is that they do not cover the lack of trace elements in the diet of animals.

The purpose of the present invention is to develop a method for increasing the productivity of dairy cows by introducing into the main ration an energy feed additive for preventive purposes in the amount of 225 g per head within 30 days after calving.

In the experiment, the study was subjected to an energy feed additive [Crimean energy additive. Specifications (TU 9759-016-42400357-2019, Nizhny Novgorod 2019 (8); Technological regulations for the production of the Crimean energy supplement, Nizhny Novgorod, 2019 (9)], produced by LLC STC "Khiminvest" (Nizhny Novgorod).

The energy feed supplement consists of crushed lavender meal, which has undergone a glycerin extraction process. In appearance, it is a homogeneous viscous liquid with a characteristic lavender smell, has a pleasant taste and smell for the animal, which increases appetite.

Lavender is a perennial spicy medicinal herb, of the Lamiaceae family, contains essential oil, coumarins, tannins and other substances of versatile use. Since time immemorial, it has been used to obtain lavender oil, which is used in the perfumery, cosmetic and food industries, and medicine.

When lavender oil is obtained by its extraction from the leaves and stems of lavender, a significant amount of biologically active substances remains in the waste (0.01-0.03% chlorophyll and carotene, 0.3-0.6% coumarin, etc.) [Gavrikova, L Feed additive from lavender processing waste / Source: Agrarian Expert magazine [Electronic resource] http://webpticeprom.ru/ru/articles-birdseed.html?pageID=1321425264 (10)].

Glycerin is a syrup-like liquid that mixes well with many compounds and is not harmful to the environment, since it decomposes quickly and does not pose a threat to soil and groundwater in case of spilling, which is why it is widely used in animal feeding as an energy supplement [Podkuvka V. Glycerin from rapeseed - sweet food // Proposition. - 2005. - No. 08-09. - S. 36. (11)].

In order to solve the set tasks in a farm, A.V. Derenchenko, Yeisk District, Krasnodar Territory, studies were carried out on two groups of lactating black-and-white Holsteinized cows in the first phase of lactation, 6 heads in each group, similar in breed, milk productivity for 305 days of the previous lactation, the average daily milk yield and fat in milk, age, live weight, the number of calving (2nd), as well as the date of fruitful insemination [Ovsyannikov A.I. Basics of experimental work in animal husbandry / Study guide. - M .: Kolos, 1976 .-- 304 p. (12)]. The experimental animals were kept under the same conditions.

The first group of animals was the control. The cows in this group consumed the main diet without added energy feed additives. The second group of cows a month after calving received an energy feed additive (EKD) in the amount of 225 g per head.

The mechanism of action of the feed additive is as follows: glycerin 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 production of energy in the animal's body - it increases the blood glucose content, normalizes the energy balance.

The main constituent of lavender oil is esters of L-linalool alcohol and acids (acetic, butyric, valeric and nylon). In addition, it contains caryophyllene, geraniol, lavender, borneol, etc. The flowers also contain tannins, bitterness and resins, ursolic acid, coumarin, and herniarin. All these compounds also remain in lavender processed products.

The equalization period after the selection of animals after calving was carried out for 14 days, the accounting period was 30 days.

In the organization of high-grade feeding of highly productive animals, the key position is taken by the diet. The appropriate set of feed, high quality concentrates, as well as juicy and roughage harvested at the optimal time, and the optimal ratio - all this creates conditions for maintaining the normal physiological state of cows and receiving high milk yield from them throughout lactation, and ultimately, productive longevity of cows. The cows were fed according to the scheme adopted in the farm (Table 2).

Animal diets have been developed in accordance with the requirements of modern detailed feeding norms for lactating cows, taking into account the actual productivity and physiological condition.

The feed additive was distributed to the experimental animals along with the concentrates during milking.

Feeding a fodder energy supplement had a positive effect on the actual consumption of dry matter by cows (Table 3).

Stress of any etiology, especially after calving, can contribute to reduced feed intake. The use of an energetic feed additive in the second group of cows made it possible to stimulate feed consumption at the physiological level - by 3.4%.

Accounting for milk productivity was carried out according to the data of the control milking of cows in the experimental period (Table 4).

In the first month of lactation, in the most critical period of insufficient feed energy consumption, 21.22 kg of milk on average per day were received from cows of the control group. This indicator in animals of the second group was higher by 10.5%. Indicators on the percentage of fat and protein in the milk of cows 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 the increase in the gross milk yield in the first month of lactation, the amount of milk fat in the milk of cows of the second group increased by 11.0%, as well as milk protein by 10.8%. When adjusting milk yield for 4% milk, feeding with EKD made it possible to increase milk yield in the second group of animals by 10.8%.

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

Due to the inclusion of the EKD, the use of feed nutrients was more complete, due to the activation of the secret function of the stomachs of cows (Table 5).

It was revealed that the consumption of nutrients per 1 kg of milk feed mixture by cows during the experiment decreased, in comparison with the control, in the second group of animals by 2.2%.

At the end of the experimental period, the biochemical parameters of the blood of cows were analyzed and the physiological and biochemical status of the animals under the influence of EKD was assessed (Table 6).

It was found that when feeding with ECD, the content of total protein in the blood serum of cows after the first month of lactation tended to increase in the second group by 0.5%. At the same time, the indicators of protein content in the serum of animals of both groups were within the normal range (70-90 g / l).

Protein fractions - albumin and globulins - were also contained in blood serum within the physiological norm in all experimental animals without any special differences. Therefore, the animals did not have inflammatory processes, significant metabolic disorders and hepatosis.

The glucose level in cows in the first phase of lactation drops sharply. In the first month of lactation in cows of the control group, this indicator was lower than normal, and in the experimental group, a significant increase in glucose was noted, and within the physiological norm, compared with the control, by 11.3% (P <0.05), which indicates absence of glycogenolysis disorders, liver diseases, decrease in glucocorticoid secretion, increased glycolysis when feeding the studied feed additive.

Urea is the main end product of nitrogen metabolism in animals. The synthesis of urea in the body of ruminants occurs in the liver and rumen wall. The concentration of urea in the blood of the experimental cows was within the physiological norm. An increase in blood urea in animals may indicate stress. In the experimental group of cows, there was some tendency towards a decrease in the level of urea.

Blood cholesterol levels are determined by fat metabolism, which in turn depends on diet, liver, kidney, thyroid, and other endocrine organs. An increase in cholesterol is noted in liver diseases. In the experimental group of animals, a decrease in the level of cholesterol was observed in comparison with the control, however, against the background of normative indicators. So, after the first month of lactation in the second group, this indicator was lower than the control one by 19.2% (P <0.001), which indicates a better fat metabolism in the body of cows.

Intracellular enzymes aspartate aminotransferase (ACT) and alanine aminotransferase (ALT) in cows of both experimental groups were within normal limits, but there were some differences between the groups.

ACT and ALT are usually released when tissue is damaged, especially liver damage. The control group had the highest levels of ACT and ALT compared to the experimental group.

Alkaline phosphatase is a lysosomal enzyme that is synthesized in increased amounts in hepatocytes during stagnation of bile, in osteoblasts in violation of bone mineralization. With the participation of alkaline phosphatase, resorption of fats and carbohydrates occurs in the mucous membrane of the small intestine. In the kidneys, it takes part in the resorption of glucose from the nephron. An increase in this enzyme in the blood serum indicates a dysfunction of the liver and mineral metabolism. In both groups of animals, normal serum alkaline phosphatase levels were observed.

The amount of macro- and microelements was normal in all groups of animals and characterized a good mineral metabolism.

The calculation of the economic efficiency of using a coniferous energy supplement in the diet of fresh cows is presented in Table 7.

When calculating the economic efficiency of using the additive under study, 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 225 g per head within 30 days after calving, increased by 3.3%. As a result of the experiment, 929.05 rubles were obtained in the second group of animals. additional profit per head.

Thus, the data obtained allow us to state that feeding dairy cows with an energy feed additive in an amount of 225 g per head within 30 days after increases the milk productivity of cows in the first phase of lactation by 10.9%, improves the physiological and biochemical status and increases by 3.3 %. the level of profitability of milk production

Sources of information accepted in the examination of the application:

1. Karpov V., Nevinny V., Poslykhina O. Efficiency of complex application of feed additives of natural origin in cattle breeding / Dairy and beef cattle breeding. - 2009. - No. 4. - S. 15-17.

2. Zaitsev S.Yu., Konopatov Yu.V. Biochemistry of animals / - SPb .: Publishing house "Lan", 2004. - 382 p.

3. Kalashnikov V.V. Rates and rations for feeding farm animals. Reference manual / - Dubrovitsy: VIZH, 2003 .-- 456 p.

4. USSR patent 1837793.

5. RF patent 2375913.

6. RF patent 2297775.

7. RF patent 2313951.

8. Crimean energy supplement. Specifications (TU 9759-016-42400357-2019, N. Novgorod 2019.

9. Technological regulations for the production of the Crimean energy supplement, N. Novgorod, 2019.

10. Gavrikova, L. Feed additive from lavender processing waste / Source: magazine "Agrarian expert" [Electronic resource] http://webpticeprom.ru/ru/articles-birdseed.html?pageID=1321425264.

11. Podkuvka V. Glycerin from rapeseed - sweet feed // Proposition. - 2005. - No. 08-09. - S. 36.

12. Ovsyannikov A.I. Basics of experimental work in animal husbandry / Study guide. - M .: Kolos, 1976 .-- 304 p.

Claims (1)

A method for increasing the productivity of dairy cows, characterized in that an energy feed supplement is introduced into the main diet, consisting of crushed lavender meal, which has undergone the glycerin extraction process, in an amount of 225 g per head within 30 days after calving.