RU2831360C1 - Method of feeding newborn calves - Google Patents

Abstract

FIELD: biotechnology; animal breeding.

SUBSTANCE: method of feeding newborn calves is proposed, characterized by the fact that the diet from the second feeding of colostrum includes the therapeutic and preventive phytobiotic fodder additive "Pharmatan P" individually at rate of 5 g per head 2 times day for 60 days daily in combination with probiotic "Vetom 1" in dose of 50 mg/kg of live weight once day for 10 days daily.

EFFECT: invention provides higher growth and development of calves and preservation of their viability.

1 cl, 3 tbl, 3 ex

Description

The invention relates to the field of animal husbandry and is intended for feeding calves during the neonatal period.

The neonatal period of calves has its own characteristics, and these characteristics are that they are born with functionally inactive systems of their body, and their gastrointestinal tract only after birth begins to be populated by indigenous microflora. In addition, in addition to all this, during this period their body is affected by various abiotic factors of the external environment, in particular, a bad microclimate, technological stresses, which create prerequisites for reducing their viability.

Livestock breeders and veterinarians are now increasingly using pro- and prebiotics, as well as phytobiotics, to correct the microbiocenosis, increase immune resistance, and stimulate the growth and development of neonatal calves.

Phytobiotics are natural additives of plant origin used in animal feeding to increase their productivity and improve the quality of food products of animal origin. According to researchers, plants included in phytobiotics have a beneficial physiological effect on the body of animals - they increase appetite, promote the absorption of feed and increase in live weight gain, stimulate the development of the immune system.

A method for increasing the productivity of calves during the milk period of rearing is known. The essence of the invention is that arabinogalactans (a water-soluble natural polysaccharide) from Siberian larch (Larix sibirica Ledeb) are introduced into the whole milk or whole milk replacer of a standard recipe in an amount of 10 grams per 1 head per day. The invention ensures an increase in the average daily gain in live weight of calves (patent RU 2350096).

A method for increasing the non-specific resistance of newborn calves is known. The method involves daily oral administration of a herbal medicine to animals, characterized in that a collection of nettle leaves, plantain and chickweed is taken in a ratio of 1:1:1, 8 g of raw material is infused in 200 ml of boiling water for 60 minutes, filtered, sediment is removed and the infusion is given to drink at a rate of 5 ml/kg of weight for 21 days (patent RU 2 600 824).

A method is known for feeding newborn calves from the age of 3 days, at the rate of 150 mg / kg of live weight, daily for 60 days with milk up to 30 days and with compound feed for the next 30 days, which includes a feed biostimulant based on a mixture of dry plants taken in the following mass ratio in %: common wormwood - 1.0; common tansy (inflorescences) - 2.0; common St. John's wort - 2.0; chamomile (inflorescences) - 2.0; common yarrow - 5.0; broadleaf plantain -5.0; silver birch (leaves) - 6.0; bird's knotweed - 7.0; stinging nettle -10.0; blue alfalfa - 30.0; common sainfoin - 30.0. (Patent RU 2 681 343 C1 2018 under IPC A61D 99/00, A23K 10/30, A61K 36/00).

A method is known for using a feed additive containing chamomile (Matricaria recutita L.), alfalfa (Medicago sativa L.), spruce resin, fructose, ascorbic acid, Vetom 1, and Sel-plex, taken in the following ratio, by weight in %: chamomile - 38; alfalfa - 25; spruce resin - 5; fructose - 15; ascorbic acid - 10; Vetom 1 - 5; "Sel-GHpex" - 2, which was introduced into the diet of dairy calves, individually once a day at 10 g/head with milk for a month (Patent RU 2 764 195 2022 according to IPC A23K10/30, A23K10/16, A23K20/20, A23K50/10, A23K50/60).

A feeding method is known (S.Yu. Gracheva, T.V. Zubova, 2019) in which the growth rate of calves was studied with different doses of dry thyme extract introduced into the diet of 14-day-old calves. The researchers found that the introduction of dry thyme extract into the diet of calves at a dose of 0.175 mg / kg contributed to the greatest increase in body weight (Bulletin of KrasSAU. 2019. 10. P. 116-122).

A method for increasing the growth rate of newborn calves is known. The method is characterized by the fact that 14-day-old calves are given a mixture of Leuzea carthamoides and Urtica dioica L. extracts once a day for 14 days 30 minutes before feeding. Leuzea carthamoides extract is used at a dose of 0.125 mg/kg of the calf's live weight, and Urtica dioica L. extract is used at a dose of 7.0 mg/kg of the calf's live weight, with the extracts pre-dissolving in boiled water at room temperature in a ratio of 1:10. The use of the invention made it possible to increase the growth rate of newborn calves (patent RU 2 746146).

A method is known for feeding 14-day-old calves with a dry extract of safflower leuzea at a dose of 0.075 mg per 1 kg of live weight of the calf once a day for 14 days to increase the growth rate and survival of newborn calves (patent RU 2 694 572).

The use of the above methods is not always convenient, since it is necessary to prepare infusions and decoctions directly on the farm, where the conditions, as a rule, do not always meet the requirements of technological and veterinary-sanitary standards. At the same time, these dosage forms are characterized by a short shelf life. It is difficult to give animals medicinal decoctions and infusions to drink due to a specific smell or bitter taste. In addition, some of the plants used are difficult to collect.

From the analysis of known technical solutions it is clear that the feeding methods use raw materials from different groups of plants. However, the relevance of creating new methods of feeding calves during the neonatal period remains.

The prototype was a technical solution that used a therapeutic and prophylactic phytobiotic feed additive based on sweet chestnut extract ("Farmatan P"), which is included in the diet of newborn calves from the second feeding, individually, at the rate of 10 g per 1 head 1 time per day for 10 days daily (Bulletin of the Chuvashia State Agrarian University. 2023.4. Pp. 105-108).

The disadvantages of the known method are the irrational use of the phytobiotic feed additive, since the calf receives a single daily dose, and calves of this period are fed 2 times a day. Consequently, during the second feeding, the mucous membrane of the gastrointestinal tract does not receive stimulation by the biologically active components of the extract and, as a result, there is no increase in the absorption of nutrients in the feed. In calves of this period of life, the immune system begins to show its functional activity after 2 months and therefore their body needs support not only up to 10 days, but also in subsequent periods of life.

From the analysis of known similar technical solutions, it was revealed that the technical problem in this area is the need to create methods for feeding calves during the neonatal period that regulate the intensity of metabolic processes in the body of newborn calves, ensuring the growth and development of calves, as well as maintaining their viability.

The technical result of the proposed invention is to ensure the growth and development of calves by increasing the non-specific resistance of the organism.

To solve the specified problem and obtain the stated technical result, the Method of feeding newborn calves is characterized by the fact that the therapeutic and prophylactic phytobiotic feed additive "Farmatan P" is included in the diet from the second feeding of colostrum individually, at the rate of 5 g per head 2 times a day for 60 days daily in combination with the probiotic "Vetom 1" at a dose of 50 mg / kg of live weight 1 time per day for 10 days daily

The additive used in the method will activate enterocytes of the small intestine mucosa at each feeding, thereby increasing its absorption capacity. By extending the time of feeding the feed additive to 60 days, we support the development of the calf's immune system, since the full operation of this system begins after the second month of life.

The therapeutic and prophylactic phytobiotic feed additive "Farmatan P" is a brown powder and its advantage is that it dissolves well in colostrum or milk. It includes active substances (organic acids, their salts, saponins, terpenes, micro- and macroelements, essential oils, etc.), the main ones of which are ellagitannins (hydrolyzable tannins), with a content of 75% in the extract. Ellagitannins - (hydrolyzable tannins) help improve the condition of the mucous membrane of the gastrointestinal tract, as a result of which the absorption of nutrients in the feed increases. The use of the additive helps improve digestion processes, resulting in increased productivity, average daily weight gain, and the safety of farm animals and birds.

The biotechnological medicinal product (spore probiotic) "Ve-tom 1" is a finely dispersed powder, highly soluble in water, includes spore-forming bacteria of the species Bacillus subtilis DSM 32424 containing 1×10 ⁶ CFU in 1 gram. The probiotic is antagonistically active against pathogenic and opportunistic microflora. Passing through the gastrointestinal tract, Bacillus subtilis bacteria secrete antibiotic-like substances, enzymes, and other biologically active substances in the intestines of animals, under the influence of which a normal microbiocenosis of the gastrointestinal tract and the digestion process are formed, thereby improving the absorption and metabolism of feed nutrients. "Vetom 1" stimulates cellular and humoral factors of immunity, increases the resistance of animals and birds to infection by viral and bacterial agents.

The use of this feeding method for newborn calves will improve digestion in animals, increase resistance to diseases, and realize their genetic potential for productivity.

Based on this, it follows that the claimed method meets the criterion of “inventive step” and can be widely used in dairy cattle breeding, and therefore meets the criterion of “industrial applicability”.

Examples of specific implementation of the method. Example 1.

The research and production experiment on newborn calves of the black-and-white breed was conducted in the conditions of the LLC "Farm "Dobrynya" in the Gagarinsky district of the Smolensk region. According to the principle of analogues (by live weight, breed, sex), 2 groups of newborn calves (n = 6) were formed, where one group was the control, the other - the experimental one. Feeding of calves of the control group provides for the inclusion in the diet of newborn calves from the second feeding, individually, at the rate of 10 g per head 1 time per day for 10 days daily, the experimental group - from the second feeding, inclusion in the diet individually, at the rate of 5 g per 1 head 2 times a day for 60 days daily in combination with the probiotic "Vetom 1" at a dose of 50 mg / kg of live weight 1 time per day for 10 days daily.

Preventive effect of "Farmatan P" and "Vetom 1" on the manifestation of diseases with signs of gastrointestinal dysfunction

Analyzing the obtained results, it can be noted that during 60 days in the control group, 2 calves showed signs of gastrointestinal dysfunction, which were manifested by increased frequency of defecation and liquid consistency of feces during 4 days. The survival rate was 100%. In the experimental group, we observed these symptoms only in 1 calf during 1 day, the survival rate was 100%.

The results allow us to state that the new feeding method really has a preventive effect on the manifestation of diseases, as it dealt with signs of gastrointestinal dysfunction 3 days faster.

Example 2

The influence of different feeding methods and schemes on some morpho-biochemical indices of peripheral blood of calves was studied. For this purpose, on the 61st day after birth, in the morning hours before feeding, blood was taken from the tail vein of calves in the experimental and control groups for examination.

The results of the study are reflected in Table 2.

The obtained results of blood analysis on the 61st day of life reflect the characteristics of the morpho-biochemical aspects of calf development in the neonatal period. In addition, they reflect the impact of our interventions in metabolic processes aimed at stimulating growth, development and strengthening the viability of calves.

The analysis of the obtained data shows significant differences in the indices between the groups, which are reflected in the table. The calves in the experimental group showed an increase of 10.3% (P<0.05) in the content of erythrocytes in the peripheral blood, 6.8% (P<0.05) in hemoglobin, and 12.3% in the hematocrit level compared to the calves in the control group. These results indicate more active metabolic processes in the organism of the calves in the experimental group.

When analyzing the data on the leukocyte content, it should be noted that in calves of the experimental group this indicator is 6.1% higher (P<0.05) compared to the control group, which indicates a higher level of protection of their body from infectious environmental factors.

Having studied the content of total protein and its fractions in the blood serum of calves, we can draw a conclusion about the level of protein metabolism. The calves of the experimental group had a significantly higher content of total protein by 10.2% (P < 0.05), albumin was higher by 13.4%) (P < 0.05), which indicates an increase in protein metabolism in the body of calves of the experimental group and this is confirmed by the ratio of albumin-globulin fractions in their body, and an increase in the protein fraction of γ - globulin by 13.8% (P ≤ 0.05) indicates high adaptive processes in their body.

The level of energy supply (glucose) in the calves of the experimental group was significantly higher, in particular by 22.8% (P≤0.01). This is a positive circumstance, since the increased glucose content indicates a higher level of energy supply to the body.

When analyzing the AST and ALT indicators, which reflect the functional activity of the liver, the parameters were within the reference values. But in the calves of the experimental group, the level of these enzymes exceeds the level in the control group by 6.8% and 3.1%, respectively. These results allow us to conclude that the use of the new feeding method does not have a negative effect on liver function. This is also confirmed by the high content of albumin in the blood, given that albumins are synthesized in the liver.

The indicators of total calcium and inorganic phosphorus presented in the table showed that in the control group their ratio was 1.9:1, while in the experimental group this ratio was 2.0:1, which corresponds to the standard indicator for mineral metabolism in the body of animals of this age.

Example 3

During the scientific and production experiment, the live weight of calves at birth, average daily and absolute live weight gain, and relative gain were taken into account.

According to the principle of analogues (by live weight, breed, sex), 2 groups of newborn calves (n=6) were formed, with one group being the control group and the other being the experimental group. The results are shown in Table 3.

It should be noted that at birth the live weight of the calves in the control group was 31.5±0.3 kg, and in the experimental group - 31.3±0.5 kg (the difference in live weight between the groups was about 1%).

The highest average daily gains in live body weight were observed in the calves of the experimental group. Their average daily gain on the 30th day was 686.0±18.0 g, which significantly exceeded the value of the control group by 113.0 g, or 19.7% (p<0.05).

After 60 days, the average daily gain in live weight of calves was 676.0±24 g, which was significantly higher than the value of the control group calves by 95.0 g, or 16.3% (p<0.01). The absolute gain over 60 days in the experimental group was 40.6 kg, which is 5.7 kg more than the control group or 16.3%). It is worth noting that the relative gain was 29.7%, which is 18.9% more than the gain in the control group.

The obtained results show that the proposed method of feeding newborn calves activates the intensity of metabolic processes in the body, which is maintained even in subsequent physiological periods of growth and development of calves.

Conclusions. Compared with existing methods of feeding newborn calves, the proposed method allows activating the intensity of metabolic processes in the body, which affects the growth and development of calves, as well as maintaining their viability.

Claims (1)

A method of feeding newborn calves, characterized by the fact that the therapeutic and prophylactic phytobiotic feed additive "Farmatan P" is included in the diet from the second feeding of colostrum individually at the rate of 5 g per head 2 times a day for 60 days daily in combination with the probiotic "Vetom 1" at a dose of 50 mg/kg of live weight 1 time per day for 10 days daily.