RU2724510C1 - Phytomineral fodder additive for calves - Google Patents

Abstract

FIELD: fodder production.SUBSTANCE: invention relates to fodder production, in particular, to phytomineral fodder additive for calves. Additive contains greater celandine (Chelidonium majus L.), chamomile (Matricaria recutita L.), turmeric (Curcuma longa L.), glauconite of Bondarskoe deposit, ascorbic acid, fructose, as well as auxiliary components in form of grain flour and sugar. Initial components are taken at the specified ratio.EFFECT: use of the invention will improve digestion in animals, increase resistance to diseases, realize genetic potential of productivity.1 cl, 4 tbl, 1 ex

Description

The invention relates to the field of animal husbandry, feed production, veterinary medicine and is intended for calves in the dairy period of feeding.

Young cattle in the initial period of their life are sensitive to adverse environmental factors. The absence of a full-fledged intestinal microbiocenosis in newborn calves creates the conditions for the occurrence of gastrointestinal diseases of various etiologies, including those associated with alimentary-functional digestive disorders [1]. To prevent such disorders, phytobiotics are used. Plants have a favorable physiological effect on the animal organism - increase appetite, promote the absorption of feed and increase growth, stimulate the development of the immune system [2].

Known feed additives are the Kumelact prebiotics (based on a honey extract of pumpkin seeds with a concentrate of lactulose and malic acid) and Lactumin (based on an extract of Jerusalem artichoke with a concentrate of lactulose and succinic acid), which contribute to the prevention of dysbacteriosis in calves [1].

The known composition of the infusion prepared from the leaves of nettle, plantain and stellate grass taken in a ratio of 1: 1: 1, which is fed to calves at the rate of 5 ml / kg of weight for 21 days daily in order to increase their non-specific resistance [3].

These additives require preliminary preparation: alcohol or water extract from plants, and are not intended for prolonged prophylactic use.

The composition of the feed biostimulator is known, including the collection of dry medicinal and feed plants - common wormwood, common tansy, St. John's wort, pharmacy chamomile, common yarrow, large plantain, downy birch, bird highlander, dioecious nettle, blue alfalfa and bluefin salmon nonspecific resistance of the body of dairy calves [4].

The composition of the feed additive is known - phytobiotics, which includes a mixture of three types of medicinal plants - psyllium plantain, bird highlander and chamomile pharmacy, carbohydrate-energy complex in the form of glucose and fructose, the mineral part, consisting of trace elements of selenium and zinc in the organic form, the vitamin part - ascorbic acid, rennet - beef pepsin [5]

These additives stimulate digestion, but do not contain sorbents that can bind endo- and exotoxins (pollutant metals, products of excretion and vital activity of the intestinal microbiota).

Known feed additive for use in the diets of poultry and pigs as a plant stimulant in stressful conditions and excretion of toxic substances from the body from the body [6]. The additive contains sorbent flask (opalcristobalite breed) and plant collection, including oregano, St. John's wort, coltsfoot, plantain, tansy, celandine, clover, wormwood, yarrow, chamomile, and nettle. A significant drawback of the additive is the presence of a large number of components and the absence of tests of its effectiveness in young cattle

The objective of the invention is to expand the arsenal of means - feed phytobiotics that increase the nonspecific resistance of the calf’s body, prevent gastrointestinal diseases in them, eliminate toxic substances, improve digestion and increase productivity, as well as reduce the use of antibacterial and other chemotherapeutic drugs in treating animals, which reduces the risk of transmitting their trace amounts along the food chain to humans.

The solution to the problem is achieved by introducing a phytomineral feed additive into the diet of dairy calves, including a mixture of plants - large celandine (Chelidonium majus L.), medicinal chamomile (Matricaria recutita L.), long turmeric (Curcuma longa L.), glauconite from the Bondar deposit, ascorbic acid, fructose, as well as auxiliary components (grain flour and sugar) taken in the ratio (wt.%): large celandine - 22.0; Chamomile officinalis - 22.0; long turmeric - 3.8; ascorbic acid - 7.5; fructose - 7.5; glauconite - 12.5; sugar - 18.5; cereal flour - 6.2.

The feed additive is fed to animals in the form of boluses, which are prepared as follows. The glauconite mineral is preliminarily prepared by standing in a 3M NaCl solution for 60 minutes and washed with water through a filter, dried at a temperature of 65 ° C. Plants collected during the flowering period (celandine - stems with inflorescences, chamomile - inflorescences, turmeric - rhizome) are dried in the air, crushed on a grinder. All ingredients are mixed together, grain flour and sugar are used in the form of 10% and 50% aqueous solutions, respectively, round-shaped boluses are formed from the resulting mass.

The chemical composition of the plant part of the phytomineral supplement is represented by a complex of biologically active substances providing a high pharmacotherapeutic effect. Among them are sanguinarine (celandine), chamazulen (chamomile), curcumin, borneol (turmeric), vitamins, bitterness. The main actions of phyto mixtures are antiviral, antimicrobial, choleretic and immunomodulatory. For example, sanguinarine has a wide spectrum of antimicrobial activity, contributes to growth retardation of gram-positive, including antibiotic-resistant and gram-negative bacteria, as well as pathogenic fungi and protozoa. Also, this alkaloid stimulates the secretion of salivary glands, enhances intestinal motility, and stimulates digestion [7]. Chamazulen - the most valuable component of chamomile essential oil - provides the basic medicinal properties of the plant, has an anti-inflammatory, antimicrobial effect, inhibits the growth of pathogenic microflora in the intestine, and increases the secretion of digestive glands [8].

Turmeric is a long herbaceous perennial shrub, of which tuberous rhizomes are of particular value. One of the main active components of the plant is curcumin polyphenol, which has anti-inflammatory activity. Turmeric is used in medicine as a tool in the treatment of digestive disorders [9].

Ascorbic acid (vitamin C) is included in the supplement in order to strengthen the immune system, namely for the needs of leukocytes, which spend the supply of this vitamin in the synthesis of interferons (antiviral proteins). This vitamin is involved in redox reactions, iron fixation during hemoglobin synthesis, and enhances the action of other antioxidants, such as selenium [10].

Fructose is an integral part of oligosaccharides contained in feed, such as sucrose, raffinose and others. Fructose is slower than glucose to be absorbed in the intestine, but is well absorbed by microorganisms, as a result of which it maintains a symbiotic relationship between the animal and indigenous intestinal microbiota, ensuring their selective increase, which prevents the colonization of pathogenic microorganisms [11]. Useful lactobacilli and bifidobacteria are able to use the resulting sugars as a nutrient substrate. When using fructose, there is an improvement in the absorption of minerals in the large intestine.

Glauconite, the production of which has been developed in the Bondar district of the Tambov region, is included in the composition of the additive as an enterosorbent that helps to prevent digestion disorders and the binding of toxins.

Example.

Scientific and industrial experience on calves of a black-motley breed of the dairy period of cultivation was carried out in the conditions of the breeding plant named after Lenin Tambov district of the Tambov region. In accordance with the requirements for the selection of analogues, 2 groups of calves were formed - control and experimental (6 animals each). An experimental group of calves from 3 to 60 days old received a phytomineral supplement individually once a day. Based on the percentage of components of the proposed additives, the total weight of its daily dose was 16 g.

The first month of cultivation, the supplement was fed with milk, in the second month - in a mixture of animal feed. In feeding animals of the control group, a phytomineral supplement was not used. Clinical observations were carried out for calves, gastrointestinal diseases, feed intake, dynamics of changes in live weight and average daily gain were recorded. The experimental results were processed by the method of statistical analysis, the level of probability of error is p≤0.05.

According to the weekly accounting of feed during the study period, it was established (Table 1) that the calves of the experimental group used more bulky feed (hay, haylage) in relation to the animals of the control group by an average of 14%, and compound feed - by 10.5%, respectively.

After two months of experimental feeding, a statistically significant (p≤0.05) difference in live weight between the groups was noted, which amounted to 2.1 kg (3.1%) in favor of the experimental animals (table 2). The average daily gain in live weight over the period was also higher by 4.5% (p≤0.05).

Hematological indicators showed that the metabolism in calves of both groups proceeded in accordance with age-related characteristics (table 3).

A normally functioning digestive system provided the calves with successful assimilation of feed nutrients, in particular, proteins and amino acids, as evidenced by the level of albumin, which in the blood of animals that consumed the supplement was 8% higher (p≤0.05) relative to the control indicator. The proportion of lymphocytes in the total number of leukocytes in the blood of calves of the experimental group was 5.3% greater (p≤0.05) compared to the same indicator in the control. Lymphocytes are the main link in the body's defense systems. The amount of immunoglobulins produced by lymphocytes in the blood of animals of the experimental group was 13.7% more (p> 0.05).

Macroscopic analysis of feces in animals of both groups showed that the consistency, color and smell were almost the same, pH was slightly acidic (5.23-5.22), impurities (intestinal parasites, etc.) were absent, which implies that the secretory and absorbing function the gastrointestinal tract in calves was normal.

It is known that bifidobacteria and lactobacilli play a leading role in maintaining nonspecific resistance of the body, improving absorption processes, and synthesizing biologically active substances, including vitamins [12]. Most of these “beneficial” bacteria are located in the colon, being its main parietal and luminal microbiota. Their deficiency is one of the pathogenetic factors of long-term intestinal disorders, leading to the formation of chronic digestive disorders.

According to the results of microbiological studies presented in table 4, in the stool samples of calves of both groups revealed an equally high content of bifidobacteria and lactobacilli. And after 2 months of feeding, the content of lactobacilli in the samples of the experimental group was 10 times more (10 ⁷ versus 10 ⁶ ), enterococci - 10 times less, saprophytic staphylococci (conditionally pathogenic microorganisms) - 100 times less than in the samples of the control group (10 ³ vs 10 ⁵ ).

No other representatives of opportunistic and pathogenic bacteria were found in the experimental group, in contrast to the control group (the number of non-fermenting bacteria in the control samples exceeded 10 ³ CFU / g), which indicated a positive effect of the phytomineral supplement on the species composition of the calves intestinal microbiota.

In the control group, two calves during the first week after birth showed signs of impaired gastrointestinal function (GIT), which was accompanied by diarrhea. The duration of illness of each calf averaged four days. The reason for its occurrence was feeding calves with low-quality milk. The disease was manifested by loss of appetite, frequent bowel movements and a liquid consistency of feces. Animals most of the time were in a lying position. In the experimental group of calves, on the contrary, there were no cases of gastrointestinal diseases during the entire experimental period. The conservation of calves in both groups was 100%.

The proposed composition of the components of the phytomineral feed additive is novel, since it has not previously been used in livestock practice. An easy-to-prepare feed supplement intended for long-term feeding, consisting of biologically active substances of plant origin, vitamin for strengthening the immune system, carbohydrate for energy nutrition of the symbiotic microflora of the digestive tract of animals and natural mineral glauconite as an enterosorbent, is proposed for calves of the milk growing period. A feed supplement provides prophylaxis of gastrointestinal diseases and increases calf productivity. The described physiological and biochemical changes in the body of animals of the experimental group (the recommended phytomineral feed supplement) confirm the conclusion about their increased resistance to diseases in comparison with the calves of the control group (traditional diet).

The applicant is not aware of technical solutions in which a feed additive with the same composition and in the same amounts of components would be used with the same effect, therefore, he considers that the composition claimed by him meets the criterion of “inventive step”.

The inventive composition of the feed additive can be widely used in dairy cattle breeding, and therefore meets the criterion of "industrial applicability".

The use of phytomineral feed additives can improve digestion in animals, increase resistance to diseases, realize the genetic potential of productivity.

Sources of information taken into account:

1. Balyshev, A.V. Microbial landscape of calves using new lactulose-containing biologically active additives / A.V. Balyshev // Political Mathematical Network Electronic Scientific Journal of the Kuban State Agrarian University. - 2011. - No. 69. - S. 315-319.

2. Avakayants, B. Medicinal plants in veterinary medicine / B. Avakayants. - M .: AQUARIUM LTD, 2001 .-- 336 p.

3. RF patent No. 2600824 A method for increasing the nonspecific resistance of the body of newborn calves A61K 36/185; A61K 36/36; A61K 36/68; A61P 37/00; application: 2015143969/15, 10/13/2015; published: 10/30/2016. Bull. No. 30.

4. RF patent No. 2681343. A way to increase the nonspecific resistance of the body of calves of the milk period of feeding A23K 10/30; A61K 36/00; A61K 127/00; A61K 133/00; A61K 135/00; application: 2018100674, 01/10/2018; published: 03/06/2019. Bull. Number 7.

5. RF patent No. 2692609. Phytoenzyme feed additive for calves A23K 10/30; A61K 36/00; A61K 127/00; A61K 133/00; A61K 135/00; application: 2018121861, 06/13/2018; published: 06/25/2019. Bull. Number 18.

6. RF patent No. 2355187. Feed additive for poultry and animals A23K 1/14; A23K 1/16; application: 2007136086/13, 09/28/2007; published: 05/20/2009. Bull. No. 14.

7. The variability of the composition of alkaloids of large celandine (Chelidonium majus L.) from different places of growth / G.N. Buzuk, M.Ya. Lovkova, N.S. Sabirova, A.A. Bulatov // Pharmacy. 1991. V. 40, No. 5. - S. 37-40.

8. Complex extraction of glycans and flavonoids from plant materials / B. B. Tikhonov, A.I. Sidorov, E.M. Sulman, E.V. Ozhimkova // Bulletin of TvSU. Series "Biology and Ecology". - 2011. - T. 128. - Issue. 19. - S. 57-63.

9. Thavorn K., Mamdani M.M., Straus S.E. Efficacy of turmeric in the treatment of digestive disorders: a systematic review and meta-analysis protocol // Systematic Reviews. - 2014 .-- Vol. 3 .-- P. 71.

10. Mashkovsky, M.D. Medicines: In 2 vol. 14th ed., Revised., Rev. and add. - M .: New Wave Publishing House LLC, 2002. - 540 p.

11. Hidaka, N. Fruktooligosaccharides enzymatic preparation and biofunctions / H. Hidaka, H. Hirayama, K. Yamada // J. Carbohjdrate Chem. - 1991. - Vol. 10. - P. 509-522.

12. Kryukov H.A., Semenyuta A.T., Shegidevich E.A. Microbial landscape and immunological reactivity of calves reared in industrial technology // Transactions of VIEV. - 1984.- T. 60.- S. 81-84.

Claims (2)

Phytomineral feed supplement for calves, characterized in that it contains large celandine (Chelidonium majus L.), medicinal chamomile (Matricaria recutita L.), long turmeric (Curcuma longa L.), glauconite from the Bondar deposit, ascorbic acid, fructose and auxiliary components in the form of grain flour and sugar, and the starting components are taken in the ratio, wt. %: Celandine is big 22.0 Chamomile officinalis 22.0 Turmeric is long 3.8 Glauconite 12.5 Vitamin C 7.5 Fructose 7.5 Cereal flour 6.2 Sugar 18.5