RU2814266C1 - Method for increasing natural resistance of newborn calves of cattle - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture and can be used in technology of growing young cattle. During the transit period cows for 15 days before calving and 5 days after calving in addition to the main diet once a day are fed with a probiotic based on bifidus bacteria Zoonorm in amount of 100 doses orally, providing production of colostrum having probiotic properties, which is fed to newborn calves for 6 days 2 times a day in portions from 2.0 to 3.5 kg at regular intervals.

EFFECT: preservation of livestock of newborn calves is provided due to increase of animal organism resistance.

1 cl, 2 dwg, 3 tbl

Description

The invention relates to the field of agriculture and can be used in the technology of raising young cattle.

There is a known standard method for raising young cattle used on farms across the country. The newborn calf's nose and mouth are cleared of mucus, breathing is checked and wiped dry with a straw tourniquet. It is possible to place the calf for an hour in a drying box, with an infrared lamp installed at a height of 80-90 cm above the floor. No later than 1-1.5 hours, the calf is given colostrum for the first time. The traditional method of raising calves is to feed them pre-milked colostrum (“hand-feeding”). It is necessary to drink slowly, from a clean nipple drinker, which promotes better digestibility and prevents the development of unwanted gastrointestinal microflora. The temperature of colostrum should be 35-37°C, the density should be at least 1046-1075 units. The first time, 1.5 liters of freshly milked colostrum are fed, during this period the calves are fed 4...5 times a day, drinking 4...8 liters of colostrum per calf. (Eremenko O.N. Keeping and feeding calves: monograph. - Krasnodar: KubGAU, 2012. - 96 p.)

The disadvantage of the traditional method is that colostrum does not always meet the necessary quality requirements. This is especially true for highly productive cows with a milk production of 5000 kg per year. It has been established that with an increase in milk yield during the previous lactation, the content of immunoglobulins in colostrum significantly decreases. Colostrum with an immunoglobulin content of less than 60 g/l does not fully provide the protective function of the body of newborns. At the same time, the incidence of disease in calves from high-yielding mothers increases to 50-100%. (Karamaeva A.S., Bakaeva L.N., Karamaev S.V. THE INFLUENCE OF THE QUALITY OF COLOSTRUM OF MOTHERS ON THE GROWTH AND MILK PRODUCTIVITY OF REPLACEMENT YOUTH // In the collection: CURRENT ISSUES OF THE AGRICULTURAL COMPLEX OF RUSSIA AND ABROAD. 2021. P. 321 -327 .)

In addition, the time factor also plays a significant role. It is extremely important that the newborn calf receives colostrum on time, since the digestibility of immunoglobulins, responsible for the formation of immunity, decreases sharply over time. Within an hour, the digestibility of colostrum immunoglobulins decreases by 10%, and after 36 hours they are not digested at all. Without colostrum, the death rate of newborns reaches 80%. Since cows excrete colostrum only during the first day after calving, feeding a calf with freshly milked colostrum is possible only on the first day after birth.

There is a known method for preserving colostrum and obtaining a drug based on higher-quality summer colostrum, which allows, in the winter-spring period, when the quality of colostrum is much lower, to use a drug that stimulates the immunoprotective forces of newborn calves and reduces mortality. (Vorontsov E.V., Vorontsova L.A. METHOD FOR OBTAINING A BIOLOGICALLY ACTIVE PREPARATION FROM SUMMER COLOSTRUM. Patent RU 2 289 416 C1).

However, this method has a number of disadvantages. It has been established that calves of different breeds have different abilities to absorb immunoglobulins from colostrum. In the Holstein breed, a very large number of newborns have a low intensity of transfer of immunoglobulins from colostrum into the blood. Among Holstein calves, more than 23% do not absorb colostrum immunoglobulins and are thus doomed to death from infection. (Bakaeva L.N., Karamaeva A.S., Karamaev S.V. INFLUENCE OF THE INTENSITY OF TRANSITION OF IMMUNOGLOBULINS FROM COLOSTUM TO BLOOD ON THE GROWTH OF CALVES / In the collection: State and prospects for increasing the production of high-quality agricultural products. Materials of the X International Scientific and Practical Conference Novosibirsk, 2022, pp. 14-18.) Thus, feeding calves of this breed with even higher-quality colostrum may not give the expected effect.

The newborn calf is sterile; bacteria are absent both on the surface of the skin and in the digestive tract of the calf. However, within the first minutes after birth, a variety of microorganisms normally present in the environment usually colonize the entire surface of the calf. According to the modern concept, settlement begins during the birth process, because The mother's birth canal is inhabited by microorganisms. The microbial community of the gastrointestinal tract of newborns has not yet been formed, so the use of drugs based on lactic acid bacteria has a positive effect.

A deficiency of normal microflora negatively affects various body functions. Various factors of modern industrial livestock farming technologies, such as: limited contact of young animals with their mothers, excessive livestock density per unit area, unsanitary farms, antibiotic treatment, inadequate and unbalanced feeding rations, further lead to disruption of the intestinal microflora. One solution to this problem is to include probiotics in the diet.

Typically, the probiotic is added to colostrum, milk or their substitutes and given to the newborn at the first feeding. The known probiotic Bificin, which is a biomass of the strains Bifidobacterium longum B-12, Lactobacillus plantarum P-19, Enterococcus faecium E-18, Bacillus subtilus B-26, is effective as a preventive and therapeutic drug for diarrheal diseases in calves. The probiotic has a wide antimicrobial spectrum of action against opportunistic and pathogenic microorganisms, synthesizes biologically active substances, and increases the nonspecific resistance of the body of calves. (Borisova G.V., Kuzin A.I., Shchekoturov V.L., Berezina G.Yu. PROBIOTIC FOR CALVES BIFICIN. Patent RU 2193059).

The closest to the invention in terms of the totality of essential features is a method that involves using the liquid probiotic Lactoamilovorin with the first portion of colostrum when feeding calves, which increases the safety of young animals by 11.7% while reducing feed costs per unit of live weight gain by 8.0% (Tarakanov B .V. Veterinary toxicological assessment of the use of lactoamilovorin in feeding young farm animals / B. Tarakanov // Theory and practice of using biologically active substances in animal husbandry. Kirov, 1998. pp. 79-81).

However, this method of using a probiotic is quite labor-intensive; in addition, the microorganisms that form the basis of the probiotic do not always remain viable after being added to colostrum or milk.

An analysis of known technical solutions has shown that the technical problem in this area is the need to expand the arsenal of methods that provide increased immunobiological protection of newborn calves and their resistance.

The technical result of the invention is to ensure the safety of the livestock of newborn calves by increasing the resistance of the animal's body.

To solve this problem and achieve the claimed result in a method of increasing the natural resistance of newborn cattle calves, during the transit period, cows are fed a probiotic based on bifidobacteria Zoonorm, in addition to the main diet, once a day. in an amount of 100 doses orally, providing colostrum with probiotic properties, which is fed to newborn calves for 6 days, 2 times a day in portions from Z.0 to 3.5 kg at regular intervals.

The essential features of the invention are the use of colostrum from cows that received the probiotic “Zoonorm” during the transit period (two 15 days before calving and 5 days after calving), in addition to the main diet, for feeding newborn calves. As a result, such colostrum not only contains immunoglobulins necessary for the formation of passive immunity in newborns, but helps to reduce gastrointestinal morbidity, absence of diarrhea and increased growth rate, increased average daily gain and achievement of live weight at 3 months of age equal to 100 kg.

Examples of method implementation.

Example 1.

The research was carried out on farms in the Moscow region: NH "Snegiri" of the Istrinsky district (zeb hybrid cattle of the black-and-white breed) and "LLC Dubna Plus" of the Dmitrovsky district (Holstein cattle).

Two groups of animals took part in each experiment: a control group, which received a standard diet, and an experimental group, which received the probiotic “Zoonorm” in addition to the main diet. Each group included from 3 to 5 animals. The drug "Zoonorm" contains a lyophilized microbial mass of living antagonistically active bacteria of the Bifidobacterium bifidum strain No. 1, sorbed on particles of crushed activated carbon and lactose filler. One dose of the drug contains 10 million colony-forming units of bifidobacteria (1×10 ⁷ CFU).

Expectant mother cows from the experimental group were given the probiotic “Zoonorm” orally 15 days before calving and 5 days after calving, 100 doses once a day. The resulting colostrum was fed to newborn calves for 6 days, 2 times a day, in portions of 2.0 to 3.5 kg at regular intervals.

In order to compare the state of the gastrointestinal tract of the mother and calf with and without probiotics, mother-newborn calf pairs were formed.

The use of a probiotic in feeding cows during the transit period led to an improvement in the quality of colostrum, namely an increase in its dry matter content and its density. It has been established that the dry matter content and density of colostrum changes not only in milk yield, but also depends on the introduction of probiotics into the diet of cows. The dry matter content in the colostrum of cows in the experimental group was higher than in the control group. In the experimental group, at the third milking, it was 16.8% higher than this indicator in the control group of animals (Table 1).

Dry matter content and density of colostrum and milk in the first three milkings after calving (Table 1).

From the obtained results of milk density it follows that the colostrum of cows in the experimental group contained more immunoglobulins compared to the colostrum of the control group of cows. At the first milking, the approximate amount of immunoglobulins was 147 g/l, at the second - 65.5 g/l, at the third - 33.1 g/l. Whereas in the control this indicator was, respectively, more than 121.3 g/l, 47.8 g/l, 6.7 g/l. It should be noted that in the compared groups the amount of immunoglobulins in colostrum decreases from the first to the third milking.

Under the influence of the probiotic, the content of the gamma globulin fraction increases. Considering that it is this fraction that plays the leading role in the nonspecific immune defense of the body, we can say that the drug in optimal doses increases the resistance of the animal’s body.

Example 2.

The research was carried out on the farm of the Moscow region, Istrinsky district of the Snegiri national agricultural enterprise. The farm breeds zebu-like hybrid cattle of the black-and-white breed.

Two groups of animals took part in the experiment: a control group, which received a standard diet, and an experimental group, which received the probiotic “Zoonorm” in addition to the main diet. Each group included from 3 to 5 animals. The drug "Zoonorm" contains a lyophilized microbial mass of living antagonistically active bacteria Bifidobacterium bifidum strain No. 1, sorbed on particles of crushed activated carbon, and lactose. One dose of the drug contains 10 million colony-forming units of bifidobacteria (1×10 ⁷ CFU). Expectant mother cows from the experimental group were given Zoonorm orally 15 days before calving and 5 days after calving, 100 doses once a day. Mother-newborn calf pairs were formed to compare the state of the gastrointestinal tract of mother and calf with and without probiotics. The resulting colostrum was fed to newborn calves for 6 days, 2 times a day, in portions of 2.0 to 3.5 kg at regular intervals.

The content of bifidobacteria in the chyme, colostrum and milk of cows of the experimental and control groups was studied; methods of RT-PCR (gene indication) and inoculation on Blaurock's nutrient medium were used (see Fig. 1. Redistribution of bifidobacteria between different fractions of the contents of the chyme and colostrum of cows of the experimental and control groups ( abbreviations: PF - food particles, DEF - dense endogenous fraction).

The results showed that at the beginning of observations (a month before calving), before taking the probiotic, bifidobacteria were present in the chyme of cows in both the experimental and control groups. One month before calving, the number of bifidobacteria in the chyme of animals of the control group was higher than that of animals of the experimental group. Moreover, the bulk of them were associated with PEF and a smaller part - with IF. Five days before calving, at the time of starting to take the probiotic, the number of bifidobacteria in the cows of the experimental and control groups did not differ as much as in the previous period. Moreover, in animals of the control group the number generally decreased, and in cows from the experimental group an increase in number was observed, in addition, a redistribution of bifidobacteria was observed between the fractions of the chyme contents.

Analysis of colostrum obtained on the first day after calving showed the presence of bifidobacteria in it, and in animals in the control group their number was significantly lower than in cows receiving the probiotic. Moreover, the presence of bifidobacteria in colostrum, and then in the milk of cows receiving a probiotic, was confirmed not only by RT-PCR, but also by the traditional method of inoculation on Blaurok's nutrient medium. The number in colostrum was 4.0⋅10 ⁴ - 1.1⋅10 ⁵ CFU/ml, in milk - 2.0⋅10 ⁵ CFU/ml.

Thus, the colostrum of cows treated with Zoonorm contains a sufficient amount of bifidobacteria to form a stable microbial community of the calf’s gastrointestinal tract.

Fecal streptococci (enterococci) belong to the normal microflora of the gastrointestinal tract. However, today an alarming trend has been noted: a sharp increase in the pathogenic properties of enterococci against the background of an increase in their enzymatic activity and resistance to antibiotics. It has been proven that they can cause gastroenteritis, mastitis, pneumonia, septicemia and other diseases, which leads to a reconsideration of the complete safety of these microorganisms.

The distribution of enterococci and streptococci in the studied samples of calf chyme was as follows: if in the control sample (RF) it was 1.13%, then in the samples obtained from calves in whose diet the probiotics “Zoonorm” and “Bifidum-SHZh” were introduced, their number was compared control was lower and amounted to 0.1-0.36%. In biomaterials from the gastrointestinal tract of cows, this pattern was repeated, while the content of Enterococcus in samples obtained from animals in the control group was significantly higher, but with the introduction of probiotics into the diet of cows and calves, the percentage of Enterococcus in all fractions of the biomaterial decreased. (see Fig. 2 Distribution of entrococci and streptococci in the studied biomaterials of the gastrointestinal tract of cows and calves (RF - soluble fraction; PR - food particles; DEF - dense endogenous fraction).

Thus, the suppressive effect of colostrum enriched with bifidobacteria due to the receipt of a probiotic by cows before calving on pathogenic and opportunistic bacteria in the gastrointestinal tract of young animals receiving this colostrum has been shown.

Example 3.

Data obtained as a result of experiments on the basis of Dubna Plus LLC, Moscow region, on Holstein animals, showed (Table 2) that the average daily gain when using a probiotic was an average of 214 grams, compared to the average daily gain in calves without the use of a probiotic (37%).

Indicators of average daily gain in calves using probiotics (Table 2).

When analyzing the protein picture of the blood, the following results were obtained. The concentration of total protein during the entire observation period was in the range of 55.40-56.80 g/l.

The indicators of albumin and alpha-globulin fractions in the groups were approximately the same. The level of beta-globulin fraction in calves of the experimental group was lower by 8.2 abs. %, while the level of gamma globulins in serum was higher by 18.8 abs. %.

The increase in the amount of albumin and gamma globulins in the experimental group is associated with the use of probiotics to mother cows, which helps maintain homeostasis of the enteral and internal environment of the body and optimize immunological reactions.

Compared to the prototype, the invention will ensure the survival and growth rate of newborn calves, the safety of their livestock by increasing the resistance of the animal body and strengthening the defenses of the cow and calf.

Claims (1)

A method of increasing the natural resistance of newborn cattle calves, characterized by the fact that during the transit period, cows are fed a probiotic based on bifidobacteria Zoonorm in the amount of 100 doses orally, in addition to the main diet, once a day for 15 days before calving and 5 days after calving, providing obtaining colostrum with probiotic properties, which is fed to newborn calves for 6 days, 2 times a day in portions of 2.0 to 3.5 kg at regular intervals.