RU2781420C1 - Feed additive for young cattle and birds - Google Patents

Abstract

FIELD: feed industry.

SUBSTANCE: invention relates to the feed industry, namely to the field of feed additives and can be used to stimulate the growth and development of young cattle and broiler chickens. The feed additive contains sphagnum moss, lacquered tinder mushroom Ganoderma Lucidum and sprouted grain. Sprouted grain is irrigated with isolates of Trichoderma reesei LA-531 VKPM F-184.

EFFECT: use of the invention will stimulate the growth and development of young cattle and broiler chickens.

1 cl, 3 tbl, 5 ex

Description

The invention relates to the feed industry, namely to the field of feed additives and can be used as a stimulant of metabolism, immune and central nervous systems, to increase the digestibility of feed, stimulate the growth and development of young cattle (cattle) and broiler chickens, increase body resistance under the influence of stress factors of physical, chemical (ecotoxicants) and biological (pathogenic and conditionally pathogenic microflora) nature on the body. As an enzyme preparation, a concentrated culture liquid of the micromycete Trichoderma reesei LA-531 VKPM F-184 is used.

The main condition for maintaining optimal health of cattle in the early stages of development is the provision of biologically complete nutrition. In this regard, the issue of using modern methods for the prevention and correction of digestive and metabolic processes with the use of physiologically active substances and their complexes, which increase the adaptive capabilities of the animal body, is relevant.

Known methods for the normalization of metabolic processes in farm animals, including balancing diets in terms of the content of macro- and microelements, introducing mineral supplements and their complexes into them (application RU 94004187, A23K 1/00, 1995; patents RU 2038028, A23K 1/175, 1995; 2497382 C2, A23K 1/175, pub.: 11/10/2013 Bulletin No. 31, SU 1804304 AZ A23K 1/175, 1993; Published: 10.04.2006 Bull. No. 10; RU 2278528 C2 IPC A23K 1/175, Published: 27.06.2006 Bull. No. 18). The disadvantages of the known feed additives is the lack of balance, which contributes to an increase in the body's resistance under the influence of stress factors of physical (irradiation), chemical (ecotoxicants) and biological (pathogenic and conditionally pathogenic microflora) nature on the body.

Known methods of using strains of microorganisms Trichoderma reesei in the composition of feed additives (RF patent No. 2406373, IPC A23K 1/00, Publ. 20.12.2010 Bull. No. 35), with a balanced composition to obtain a feed complex enzyme preparation to increase the nutritional value of cereals and legumes mixtures (patent RU No. 2696074, IPC C12N 1/14, C12N 9/24, C12R 1/885, Published: July 30, 2019 Bull. No. 22), to obtain a feed enzyme preparation (patent RU No. 2696036, IPC C12N 1/ 15, C12N 9/42, C12N 15/56, C12R 1/80, Published: July 30, 2019 Bull. No. 22). The disadvantages of the known methods for the production of feed additives using Trichoderma reesei micromycetes are the use of a larger number of initial components, which leads to an increase in the cost characteristics of the finished product, and these compositions of feed additives do not contribute to an increase in nonspecific resistance of the calf organism, the prevention of gastrointestinal diseases, improved digestion and increase productivity.

From the prior art it is known the use of grain mycelium of tinder fungi Ganoderma lucidum and Lentinus edodes for the prevention of cannibalism in poultry during the laying period, where they are introduced into the diet of a feed additive, which is used as grain mycelium of tinder fungi Ganoderma lucidum and Lentinus edodes in a ratio of 1:1, respectively , in the amount of 1-3% of the bird's body weight for two decades of the month with a break between them of 10 days, starting 5-10 days before. start of oviposition.

A known method of feeding the parent flock of agricultural birds, including feeding a powdered feed additive, which is a substrate mycelium of the basidial fungus Canoderma lucidum (varnished tinder fungus), obtained by hydrolysis to obtain a substrate and adding a liquid inoculum of the fungus Ganoderma lucidum to it, growing mycelium, drying and grinding for feeding in the amount of 0.1% by weight of the diet to the parent flock of birds (patent RU No. 2501292, IPC A23K 1/00, A23K 1/16, Published: 20.12.2013 Bull. No. 35).

From the prior art, a method is known for obtaining a feed product with a high protein content by enriching sunflower meal with the protein of a xylophyte fungus, including the stages of loosening the sunflower meal, sterilization of the loosened sunflower meal by steaming until its temperature is reached at least 50 ° C, inoculation of sunflower meal with the mycelium of the xylophyte fungus in under non-sterile conditions, germination of the fungus in sunflower meal under non-sterile conditions until the formation of primordia, thermal inactivation of the mycelium to ensure the destruction of foreign microflora and drying of the resulting product (patent RU No. 2562197, IPC A23K 1/14, Published: 10.09.2015 Bull. ).

The disadvantages of using the tinder fungus in the known methods of obtaining a feed product are the lack of availability of plant materials, the balance of the feed additive, which contributes to the prevention of gastrointestinal diseases.

From the prior art, the use of sphagnum for animal feed is known, described in a method for obtaining feed from feed grains, including soaking grains in water, mixing with a substrate, which is used as sapropel and sphagnum moss, the proportion of which is 0.7% of dry matter each component by weight of dry grain, then the mixture is placed on trays for sprouting (patent RU 2230461 C2, IPC A23K 1/14, A23K 1/00, Published: 20.06.2004 Bull. No. 17).

It is known to use a sphagnum substrate as a food additive for the prevention of diseases of the human gastrointestinal tract, including soaking sphagnum in water, heat treatment and cooling, while before heat treatment the sphagnum is washed with water, squeezed, crushed (Patent RU 2629253, IPC A23L 33/10 , A23L 33/21, A21D 2/36, A23L 27/10, Published: 08/28/2017 Bull. No. 25).

It is well known to use sphagnum in the method of making organic animal feed, as well as for plant nutrition based on sphagnum, which includes mixing organic materials such as sphagnum or compost with water in a certain ratio, rubbing the mixture to grind the fraction while raising the temperature to the level no higher than 130 degrees Fahrenheit for 30 minutes, filtration and cooling (US Patent No. 9260353, IPC C05F 11/02, priority date 08/27/2014, publication date 02/16/2016).

The disadvantages of the known methods of using sphagnum include the complexity of manufacturing, as well as the lack of immunomodulatory, antitumor, antiviral properties.

The closest to the claimed technical solution is the use of sphagnum for animal feed, described in the method of obtaining feed from feed grains, including soaking the grain in water, mixing with the substrate, which is used as sphagnum moss, crushed into pieces 1-3 cm long , the dose of dry moss-sphagnum is 10-20 kg per 1 ton of dry matter of the grain, the grain is mixed with the substrate, then laid out on trays with a layer of 3-4 cm for germination (Patent No. RU 2230459, IPC A23K 1/14, A23K 1/00 , Published 20.06.2004 Bull. No. 17). The disadvantage of this method is the lack of balance of food with probiotic properties, due to the lack of active enzymes that increase the nonspecific resistance of the calves, the prevention of gastrointestinal diseases while improving digestion.

The objective of the invention is to obtain a feed additive for young cattle and broiler chickens based on affordable inexpensive plant materials, which would increase the nonspecific resistance of the calf organism, prevent gastrointestinal diseases and have immunomodulatory, antitumor, antiviral, antibiotic, hepatoprotective, antioxidant, hypolipidemic , hypoglycemic, hepatoprotective properties.

A feed additive is understood as an additional substance to the basic diet of farm animals, designed to balance nutrients and increase the efficiency of use.

The problem is solved by using a feed additive in the diet of young cattle and broiler chickens, which includes a mixture of plant components in the following ratio, wt. %:

sphagnum moss 30.0-32.5 mushroom Ganoderma Lucidum 25.0-27.2; grain of wheat rest,

at the same time, during germination, wheat grain is irrigated with Trichoderma reesei LA-531 VKPM F-184 isolate, 1 × 108 CFU/g.

Sphagnum (Sphagnum L.) - has an antifungal, antiallergic, absorption, carminative and probiotic effect, which is due to the substances that make up its composition. Sphagnum contains phenolic and triterpene compounds, humic or sphagnic acids, resins, sugars, pectin elements and other substances.

Ganoderma lucidum is a fungus that decomposes cellulose with the enzyme beta-1,4-glycosidase, which is widely used in biotechnology. The mushroom contains amino acids, peptides, proteins, triterpenes, including steroids, lipids, alkaloids, glycosides, volatile essential oils, PAS, vitamins (beta-carotene, B, E, C vitamins), trace elements (manganese, molybdenum, calcium, zinc , potassium, sodium, iron, copper, sulfur, germanium). It has immunomodulatory, antitumor, antiviral, antibiotic, hepatoprotective, antioxidant, hypolipidemic, hypoglycemic, hepatoprotective properties.

Trichoderma reesei strain LA-531 VKPM F-184 soil isolate, Latvia. Producer of cellulases and hemicellulases, used to obtain feed protein on a cellulose-containing substrate (straw). Propagated on a potato-starch medium with the addition of glucose. It grows at a temperature of 28-30°C. Morphological features: Teleomorph forms a brown stroma 1.5-2.7 mm in diameter with perithecia. Perithecium 185-210 × 110-145 µm. Colonies on agar with 2% malt extract on the 4th day 5.5-7 cm in diameter. Reverse yellow-green. Conidial sporulation later, in small pads, in light yellow-green tones. Colonies on potato dextrose agar (PDA) are fast growing and release a bright yellow water-soluble pigment into the medium. There is a tendency to form two concentric rings of fluffy mycelium in the central and marginal parts of the cup. Conidia are yellow-green in mass, more actively formed in the central part of the colony. The smell of the colonies is practically not expressed. Conidiophores with a long central branch and short lateral branches, usually not additionally branched. Phialides are cylindrical or slightly swollen, 5.5-8 × 2-3.7 µm. Conidia are light green, ellipsoidal to almost spherical, 3.5-4.5 × 2.8-4 μm, smooth-walled, more elongated in isolates obtained from teleomorphic specimens - 5.5-7.5 × 2.8- 4 µm. The producer is used in the feed industry for hydrolysis processes, which contain xylan. Used strains of the fungus Trichoderma reesei is not genetically modified and belongs to microorganisms non-pathogenic for humans, according to the classification of microorganisms given in the sanitary and epidemiological rules SP 1.3.2322-08. Working with the strain does not require special precautions.

Sprouted grain increases the nutritional value of the feed additive by saccharifying starch, increasing the content of nitrogenous compounds, B vitamins and vitamin E. Sprouted wheat contains vitamins and minerals: B1 - 15%, vitamin B5 - 18.9%, vitamin B6 - 13.3% , vitamin PP - 15.4%, magnesium - 20.5%, phosphorus - 25%, iron - 11.9%, manganese - 92.9%, copper - 26.1%, selenium - 77.3%, zinc - 13.8%

The feed additive was prepared as follows.

The grain crop of wheat was soaked for 6 hours in a 4-day suspension of the fungus Trichoderma reesei LA-531 VKPM F-184. The Trichoderma reesei isolate was grown in an aqueous potato solution at 28°C. A six-hour soak promoted rapid growth of wheat and blocked the growth of other field isolates found in the crop. Wheat was grown for 5 days with a Trichoderma reesei isolate. Wheat and moss were ground with the addition of tinder fungus varnished Ganoderma Lucidum.

To obtain 100 kg of feed additive, take: 30.0-32.5 kg of sphagnum, 25.0-27.2 kg of powdered tinder fungus varnished Ganoderma Lucidum, the rest is sprouted wheat based on Trichoderma reesei isolate 1 × 10 ⁸ CFU / G. The resulting mixture is stirred until a homogeneous mass is obtained and packaged in vacuum bags, or packaged in plastic bags and frozen so that the mixture does not lose its properties.

The declared feed additive meets the requirements of GOST 26573.0-2017 “Premixes. Specifications".

Tests have shown that a change in the above components in the direction of reduction leads to a weakening of biological activity (antibacterial, decorporating, antioxidant, immunostimulating effects, the body's resistance to factors of a physical, chemical and biological nature, and an increase in components is impractical due to overexpenditure of components and only use in this range provides the best results.

The developed feed additive can be recommended for use as a tonic, detoxifying, antioxidant, anti-infectious (anti-rabies, anti-collibacteriosis, antibacterial), immunomodulatory. metabolizing, stimulator of growth and development of young animals, neutralization of mycotoxins.

A comparative analysis of the proposed solution with known feed additives for young cattle and birds allows us to conclude that it meets the criterion of "novelty", since as a result of the patent information search, the proposed set of essential features of the invention was not found.

Comparison of the claimed technical solution with those known from the field of technology made it possible to identify features that are not obvious to a specialist in connection with the technical result achieved by the entire set of essential features. This allows us to conclude that the proposed technical solution meets the criterion of "inventive step".

The claimed technical solution meets the criterion of "industrial applicability", since the claimed feed additive can be used in feed production (livestock) for young cattle and birds.

The implementation of the stated purpose and confirmation of the possibility of achieving a technical result is illustrated by the following examples.

Example 1. Checking the antibacterial activity of the claimed feed additive.

To test the antibacterial activity, a liquid form of preparations was prepared by water extraction with serial dilutions of 1:2, 1:4, 1:6, 1:8, 1:12, 1:32, 1:64, 1:128, 1:256 , 1:512. The prepared concentration was added at 1.0 mg in test tubes containing microbial cells of a virulent strain of the causative agent of escherichiosis E. coli

"KV-1" with a concentration of microbial cells 5×10 ⁸ mc/ml and the mixture was thermostated for 24 hours at a temperature of 36°C, carrying out control seeding of samples after 1, 2, 4, 8, 16, 20, 24 hours. The crops were examined daily for 10 days, recording the growth of colonies. It has been established that the death of the test culture occurs within 60 minutes when the preparation is diluted 1:32. The increase in the antibacterial activity of the proposed drug due to the summation of the microbiocidal effects of the fungus had a bactericidal effect for a longer exposure -16-24 hours. Based on the data obtained, it was shown that the proposed substrate has a higher antibacterial activity.

Example 2. The effectiveness of the application of the proposed feed additive for the growth, development and safety of young animals.

The experiments were carried out on the farm "LLC Biryuli" of the Vysokogorsky district of the Republic of Tatarstan on calves 4 months old, live weight (100-110 kg, divided into three groups of 10 heads each. Calves of group 1 received a normal diet with the addition of feed grains mixed with the substrate, which was used moss-sphagnum, crushed into scraps 1-3 cm long, the dose of dry moss-sphagnum is 10-20 kg per 1 ton of dry matter of grain. times a day for 30 days Calves of the 3rd group (control) under the same conditions received a normal diet without feed additives (control group).

The results of testing the proposed feed additive are presented in table 1.

The analysis of table 1 shows that the introduction of the proposed feed additive into the diet of young cattle has a positive effect on the level of safety of the young stock (from 80.0 to 98.7%), leads to a decrease in the incidence (from 30 to 5%), contributes to average daily weight gain by 24% compared to the control group.

The study of biochemical parameters of blood when testing various feeds and feed additives is of great importance, since changes in metabolic processes are primarily reflected in changes in blood composition. Hematological blood parameters characterizing the metabolism and functional state of the body as a whole are shown in Table 2.

From the data of table 2 it can be seen that on the 30th day of introducing the claimed feed additive into the diet of young animals, it had a positive effect on the level of hemoglobin and erythrocytes in the blood, the blood picture as a whole improved markedly, the content of erythrocytes and hemoglobin increased by 10.5% and 9.1% , respectively, and the percentage of T- and B-lymphocytes increased T-lymphocytes by more than 12%, and B-lymphocytes by more than 28.5%, which indicates more intensive processes occurring in the body of animals.

It is known that the main causes of the death of livestock, in particular young cattle, are various viral, bacterial infections, based on the above data, it can be concluded that the use of the claimed feed additive reduces the infectious incidence of animals due to non-specific stimulation of protective mechanisms in the form of activation of bactericidal, lysozyme activity of whey and an increase in the functional and metabolic activity of phagocytes against the background of the use of the proposed feed additive, the antibacterial potential of which is much higher.

Thus, under the influence of the claimed feed additive, both cellular (increased phagocytic activity of neutrophils) and humoral (bactericidal, lysozyme activity, blood serum) immunity are activated and the immunoregulatory index (T / B) increases, reflecting the microbiocidal potential of antibacterial (anti-infectious) cells body protection.

Therefore, the inclusion in the diet of the claimed feed additive in the feed in the amount of 250 grams twice a day ensures 100% safety of young animals, increases the weight gain, reduces their incidence of gastrointestinal and respiratory diseases, which is confirmed by hematological parameters of the immunological status of the blood of calves.

Example 3. Verification of the adaptogenic activity of the drug

As a model of the stress situation of animals, the transport stress of calves subject to regrouping to other technological positions (transfer to a fattening group located at a distance of 25 km from the place where the summer complex was kept) was used. To test the effectiveness, 30 two-month-old calves were selected, which, according to the principle of analogues, were divided into three groups of ten animals each.

The calves of the first group for 10 days asked the claimed feed additive at a dose of 250 g 2 times a day (morning and evening) to the main diet; the animals of the second group were given a normal diet with the addition of fodder grain mixed with a substrate, which was used as sphagnum moss, crushed into 1-3 cm long trimmings, the dose of dry sphagnum moss was 10-20 kg per 1 ton of dry matter of grain.

The calves of the third group received the main diet. Before transportation, clinical and hematological studies of blood samples were performed.

The calves were transported on a Kamaz truck with an awning semi-trailer in the summer at a temperature of plus 22±2°C and a relative humidity of 84±4%.

The effectiveness of the application of the claimed feed additive was taken into account according to the state of health of the calves after transportation, clinical, physiological and immunological parameters.

Observations of animals on the way showed: anxiety, nervous tension, frequent acts of urination and defecation. Upon arrival, all animals were weighed and blood samples were taken from each animal for laboratory testing.

After transportation, the calves noted a deviation in the state of the clinical and physiological status: a symptom complex of general fatigue, impaired coordination of movements, muscle tremors, frequent urination and defecation, and a decrease in live weight by 5.5%.

In animals of the first group, the restoration of the normal state of health and clinical and physiological parameters occurred after 7-8 hours, in the second - after 10-11 hours, in the third - after 18-20 hours.

The results of studying the state of immunity in terms of the content of T- and B-lymphocytes, the phagocytic activity of neutrophils and the phagocytic index showed that the inventive feed additive has immunostimulating and immunomodulating properties. The immunostimulating effect was accompanied by an increase in the number of antibody-synthesizing B-lymphocytes by 8.2%, an increase in their blasto transforming activity in the RBTL test by 18.8%; and against this background, there was an increase in the synthesis of immunoglobulins by 13.9% compared with the control. The immunomodulatory effect of the tested feed additive was characterized by a change in the ratio of the immunoregulatory index T _x /T _c =2.01. The phagocytic index in the calves of the first group was 6.9 versus 5.8; and phagocytic activity - 79% versus 75% in control. The state of immunity in calves treated with fodder grain and moss-sphagnum corresponded to that of a weak degree of stress reaction, accompanied by a decrease in the number of T-lymphocytes by 3.9%, B-lymphocytes - by 3.1% with a shift in the immunoregulatory index to the right (T _x /T _c = 2.79 versus 2.01 in the first group receiving the feed additive.

Example 4. The stimulating effect of the proposed feed additive on the growth and safety of young chickens

The stimulating effect on the energy of growth and the safety of young chickens was carried out in the research and production association "Kyrlay" of the Pestrechinsky district of the Republic of Tatarstan. Broiler chickens were selected at the age of four days. The selected young chickens were divided into three groups: group 1, where sphagnum moss was added to the main diet, group 2, where the inventive feed additive was added to the main diet, and a control group with a normal diet (group 3). All chickens were kept under similar conditions, optimal in terms of temperature, illumination, and ventilation.

The results of assessing the condition of the livestock are shown in Table 3.

Dynamic monitoring of the safety and weight gain of the chicken population showed that the appointment of the claimed additive contributed to an increase in safety by the end of the experiment up to 98.5% compared to the control of 91.6% and an increase in the average daily weight gain by 14.6% compared to the control, which indicates about the positive effect of the proposed feed additive on the level of development of the immune system, as the main component of the body's resistance to infectious diseases and resistance to environmental factors, the integral criterion of which is the livestock safety indicator, and productivity, the indicators of which are live weight gain.

Example 5. Checking the sorption activity of the proposed feed additive in relation to mycotoxins.

Feed intake of the main mycotoxin, T-2 toxin, was used as a model of mycotoxicosis. The studies were carried out on 30 white rats divided into three groups of 10 animals each. Animals of the first group received the main diet and T-2 toxin at a dose of 0.13 mg/kg (1/10 LD ₅₀ ), the second group received T-2 toxin at a dose of 0.13 mg/kg (1/10 LD ₅₀ ), feed grain and moss; the third group - T-2 toxin 0.13 mg/kg (1/10 LD ₅₀ ), and the claimed feed additive. 20 days after the start of feeding with mycotoxin-containing feed, animals of all groups were killed, samples were taken from organs and tissues to study the content of mycotoxins in the body. The results of the indication of T-2 toxin by mass spectrometry of the extract of organs and tissues of experimental and control rats on the background of the use of the usual diet were: laboratory animals of the first group, treated with T-2 toxin and the main diet, the content of T-2 in the body was 5.5%, animals of the second groups that received T-2 toxin and feed grains and moss, the content of T-2 was 4.9% of the visible amount of the toxin, in the third group that received T-2 toxin and the claimed feed additive, the toxin content was 2.2%.

Based on the data obtained, it can be concluded that the introduction of a feed additive into the diet of young cattle and poultry significantly increases the sorption activity of toxins, improves immunity, normalizes digestion, weight gain and reduces the mortality of young cattle and poultry.

Thus, a feed additive for young cattle and birds has been developed, which, due to a certain ratio of components and the introduction of the Ganoderma Lucidum fungus and a suspension of the micromycete Trichoderma reesei LA-531 VKPM F-184 into its composition, contribute to an increase in the nonspecific resistance of the calf organism, prevention of gastrointestinal diseases and endows it with immunomodulating, antitumor, antiviral, antibiotic, hepatoprotective, antioxidant, hypolipidemic, hypolikemic, hepatoprotective properties.

The invention also makes it possible to obtain economic efficiency from the production of the claimed feed additive. The economic effect of the introduction of feed additives consists of improving the efficiency of feeding, increasing weight gain, keeping the livestock of young animals, preventing diseases of an infectious and non-infectious nature, occurring in the form of gastrointestinal disorders, damage to the respiratory system, as well as in conditions of changing environmental situation in certain regions of the country.

The proposed feed additive was tested in livestock complexes and farms of the Republic of Tatarstan, which showed an increase in the average daily gain by 24.5% for young cattle and for poultry - by 14.6%, the safety of young cattle was up to 98.7%) and poultry - up to 98.5%

Therefore, the claimed feed additive for young cattle and poultry is highly effective and can be used as a stimulant of metabolism, immune and central nervous systems, to increase the digestibility of feed, stimulate the growth and development of young cattle and birds, in order to increase the body's resistance.

The claimed feed additive can be obtained on an industrial scale and recommended for widespread use in feed production (livestock). The introduction of the proposed feed additive in livestock farms of the Republic of Tatarstan continued.

Claims (3)

Feed additive for young cattle and broiler chickens, including sprouted wheat grain, sphagnum moss, characterized in that it additionally contains the tinder fungus varnished Ganoderma Lucidum, in the following ratio, wt.%: sphagnum moss 30.0-32.5 mushroom Ganoderma Lucidum 25.0-27.2 germinated wheat grain rest, at the same time, during germination, wheat grain is irrigated with Trichoderma reesei LA-531 VKPM F-184 isolate, 1×108 CFU/g.