RU2676894C1 - Method of application of active charcoal feed additive - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture, in particular to a method for using an active charcoal feed additive. Method includes the introduction into the basic diet of young pigs with an active charcoal feed additive in the amount of 400 g per 1 ton of feed for 120 days.EFFECT: use of the invention will allow to intensify the protein-carbohydrate metabolism and increase the productivity of the animal.1 cl, 6 tbl

Description

The invention relates to agriculture, in particular to livestock, namely pig farming, and can be used in the preparation of feed rations for young pigs.

At present, in cattle breeding, the determining factor in increasing livestock productivity is a full-fledged balanced feeding, in which animals, along with the basic nutritional elements, must receive additional vital nutritional components and microelements.

Along with the problem of optimizing and improving feeding diets, there is an urgent issue of obtaining environmentally friendly livestock products, so the need for scientific research to find new feed additives to reduce the toxicants in feed of farm animals is very urgent [Ilyazov R.G., Bogdevich I.M. ., Ageets V.Yu. and other Guidelines for agricultural production in the radioactively contaminated territories of the Republic of Belarus and the Russian Federation. Minsk-M., 2005 (1)].

Modern pig breeding is a complex of complex technological processes aimed at achieving the maximum growth rate of the animal per unit time at the minimum cost of feed [Kononenko S.I. The effectiveness of the use of enzyme preparations in feed for pigs // Problems of biology of productive animals. 2009. - No. 1. - S. 86-912 (2)].

To further increase the production of pork, increase its quality and reduce costs, it is necessary to intensify the pig industry. Creation of a solid, rationally organized feed base that meets the needs of pigs in all nutrients [Kononenko SI, Gorkovenko LG A broad-spectrum enzyme preparation Ronozyme WX in feeding pigs // Political Mathematical Electronic Scientific Journal of the Kuban State Agrarian University - Krasnodar: KubSAU, 2011. - No. 04 (68). S. 230-240. (3)].

According to statistics, about 30% of the deaths and culling of animals and birds occur due to digestive diseases and metabolic disorders. The main reason is the use of poor-quality feed, affected by various toxic substances, including mycotoxins, which are widely spread recently.

Currently, various methods are used to obtain feed additives aimed at the prevention of mycotoxicosis in animals and birds. The main method of neutralizing mycotoxins is neutralization using sorbents. Its effectiveness varies significantly due to the variety of chemical structures and properties of mycotoxins, as well as the sorbents themselves. The essential parameters that determine the efficiency of mycotoxin binding are the specific complementarity of the surface of the sorbent to a particular class of mycotoxins, the surface area of the sorbent available for binding with mycotoxins, and the structure of the macro-, meso- and microporous structure of the sorbent particles. The first to use mineral sorbents in feeds, then organic sorbents. For mineral sorbents, the sorption area is crucial, therefore, mineral sorbents must be crushed. Natural mineral sorbents are subsequently crushed in crushers, ball, planetary and vibratory mills to achieve effective sorption capacity.

Known mineral polyfunctional enterosorbent based on natural silicon-containing mineral raw materials, characterized in that, as a natural silicon-containing mineral raw material, it contains schungite-containing mineral raw materials with a silica content of 15-70 wt. % [RF Patent No. 2430731 (4)].

Known sorbent based on silica-containing mineral raw materials containing sedimentary opal - cristobalite rock containing not more than 15 wt. % clay minerals of the montmorillonite group and not more than 10 wt. % minerals of the mica group [RF Patent No. 2319488 (5)].

The above-mentioned mineral sorbents and other natural fossil aluminosilicates (zeolites and bentonites), like most mineral sorbents and preparations based on them, are effective only in large dosages from 2 to 5 kg / t of feed.

A known method of obtaining a biological product "Fungistat" [RF Patent No. 2420565 (6)] designed to eliminate mycotoxins from food and feed raw materials. According to the authors, the components of the biological product “Fungistat” affect the utilization of mycotoxins in the body of an animal or human, maximize the safety of the consumption of contaminated raw materials, and neutralize the harmful effects of mycotoxins.

Known drug Mikosorb company "Alltech" [US Patent No. 6045834. Compositions and methods for removal of mycotoxins from animal feed. 2000 (7)]. The patent claims that the yeast cell wall and mineral clay, acting in synergy, provide optimal mycotoxin binding.

It is known that the cell wall of plants can also be an effective enterosorbent. Pine nutshells can be used to prevent gastrointestinal diseases in young cattle. The essence of the invention consists in the use of pine nuts shells in the form of fine powder as a means of prophylactic therapy of gastrointestinal diseases of calves. The use of the tool reduces the incidence and increase the safety of young cattle [RF Patent No. 2242239 (8)].

A known method of preparing feed, comprising introducing into the main diet a granular mixture of wood processing waste with a binder, characterized in that, in order to improve the quality of the feed, zero fiber containing less than 10% pre-dried to a moisture content of 12% by weight is used as wood processing waste. lignin, less than 5% of extractive substances, less than 12% of ash substances, less than 0.1-12 mg / kg of heavy metals, molasses, salignosulfonate and / or bentonite in the amount of 8.0-20.0% by weight of cor MA and enter the mixture into the main diet in an amount of 10-25% [RF Patent No. 2027376 (9)].

Known drug "Pectosorbin" for the prevention and treatment of gastrointestinal diseases of young farm animals [RF Patent 2141329 (10)]. A preparation containing pectin (40-90% of the dry weight of the preparation) and a lignin complex (cellulose, hemicellulose, lignin, monosaccharides - 10-60%).

Feed sorbents have the ability to quickly bind a wide range of toxicants. Sorbents are stable at various pH values, thermostable during feed granulation, practically do not bind vitamins, micro and macro elements [Gulushin, S.Yu., Slaugalvis V., Golovachev D.E. “Nutox Fito Plus” - prevention of chronic mycotoxicosis and stimulation of liver function in broiler chickens // Tsenovik. - 2010. - No. 5. - S. 51-53 (11)].

Sorbents have the ability to bind toxins of pathogenic bacteria, rot products, heavy metal ions, as well as radioactive compounds [Dyakov, IP, Lyubimov SP, Perelygin VA The use of new sorbents, plasticizers in the production of urea concentrate // Livestock - 1980. - No. 1. - S. 31-33 (12)].

With the introduction of natural minerals in recommended doses, the nutritional value of feed is proportionally reduced: the level of metabolic energy - by 10-15 kcal, the content of crude protein - by 0.7-1.1%, lysine - by 0.04-0.06%. The body needs to compensate for this lack of nutrients with either an increase in feed intake or a more efficient digestion due to the specific properties of these mineral additives. Both of these work well if the productivity of the bird is average, due to poor microbiology of the feed, reduced (by 65-70%) digestibility of the dry matter of the diet, and the presence of mycotoxins in the feed. Then zeolites, alunites, bentonites and other minerals will show their truly proven effect: normalize the digestive tract, fight mycotoxins, increase the digestibility of dry matter by 10-15%. In this case, minus the loss of nutrition, productivity growth will be 5-10% [Podobed, L.I. Critically about natural sorbents // Compound feed. - No. 1. - 2011. - S. 55-56 (13)].

There is a method of increasing the meat productivity of pigs by introducing concrete clay into the diet. Concrete clay has a growth-promoting effect, accelerates metabolism, serves as a source of mineral elements for the animal organism, adsorbs and removes toxins, radioactive elements, pathogenic microorganisms from the gastrointestinal tract. The use of a mineral supplement in the ratio of 3% to the main diet for weaned piglets for 35 days stimulates an increase in live weight of animals by 20.6% [Daryin A. Natural mineral supplement in feeding piglets - Pig production - 2004 - No. 1 - P. 13-14 . (fourteen)].

The disadvantage of this method is that due to the extensive trace element composition, concrete clay must be used with caution since Having sorption properties, concrete clay together with pathogenic microorganisms can also remove the beneficial microflora of the gastrointestinal tract, which negatively affects the general condition of the body, and, consequently, the productivity of the animal.

There is a method of increasing the meat productivity of young pigs using an inorganic selenium-containing preparation - sodium selenite. Sodium selenite causes an increase in average daily growth in piglets, due to the antioxidant, anti-stress effect of the trace element selenium, which is part of the drug. Deficiency of selenium in the diet of animals causes metabolic disorders, morphological and functional state of the liver, therefore, reduces the productivity of animals. With the introduction of sodium selenite in a proportion of 0.3 mg of selenium per 1 kg of feed to weaned pigs, once a week, for 2.5 months, the live weight of animals increases by 3 kg (8.4%), and average daily growths by 55 g (17%), compared with analogues that did not receive the named feed additive. The slaughter yield of young pigs at the age of 10 months receiving sodium selenite is 69.0%, which is 1.8% more compared to the control [Boryaev G.I., Nevitov M.N. The role of selenium in biochemical processes and the immunological status of farm animals and birds // Selenium in the biosphere. Penza, 2001 - S. 154-180 (15)].

The toxic properties of the trace element selenium and the small interval between its toxic and prophylactic doses are well known. Selenium and its compounds in their biological activity belong to the class of extremely toxic compounds. [Talanov G.A., Khmelevsky B.N. Directory. Sanitation feed. M .: Agropromizdat, 1991, - 303 p. (16)]. In addition, sodium selenite, as an oxidizing agent, can react with feed components, thereby impairing their nutritional value. All of the above reduces the effectiveness of this method of increasing the meat productivity of animals.

Known methods of feeding pigs that affect the process of growth of body weight [Braude R. Influence of feeding techniques on the performance of pigs // Agriculture abroad. Livestock, 1968, No. 8, 9 (17); Dontsul N. Efficiency of fattening pigs to different live weight // Pig production, 1967, 7 (18); Mironenko A.I. Pig productivity under different feeding conditions // Inform. Leaflet of the Krasnodar TSNTI, 1976, No. 210 (19)].

The disadvantage of the described methods is that they do not disclose the reasons that affect the growth of body weight. It is known that growth in ontogenesis does not occur evenly, but with a constant cyclicality of the periods during which the decrease and increase in the intensity of the increase in body mass occurs, the complete characterization of feed factors, etc. is not given.

A large reserve for the production of feed additives is non-timber logging waste and products derived from them.

Balancing rations can be achieved not only through the introduction of scarce components, but also with the help of feed additives that increase the digestibility of feed. Biologically active preparations provide a more complete extraction of nutrients from feed, normalize the digestive system and, thus, ensure the physiological needs of the body.

In view of the foregoing, the work on the use of active coal feed additives of NTTs Himinvest LLC in animal feed for livestock is effective due to the high quality requirements for animal feed and feed mixtures.

Active coal feed additive is made from finely fractionated active charcoal. In appearance it is a black grain without mechanical impurities. It is used as a sorbent of toxins in feed for cattle, pigs, poultry - it is first used in feed for fish. The drug has a high adsorption capacity against mycotoxins and other harmful substances: it contains significant amounts of macro- and microelements in an accessible form for pets. The additive is fully compatible with all components of the feed, thermostable at a temperature of 120 ° C. Active coal feed additive has a selective adsorption effect, which allows you to maintain the activity of vitamins, minerals and other ingredients in the feed and intestines [Active coal feed additive. Technical conditions Nizhny Novgorod, 2014 (20)].

The aim of the present invention is to develop a method of using an active coal feed additive for feeding young pigs to intensify protein-carbohydrate metabolism and increase animal productivity.

A method of using an active coal feed additive, comprising introducing an active coal feed additive into the main diet of the feed, characterized in that the active coal feed additive is administered to young pigs in an amount of 400 g per 1 ton of feed for 120 days.

Production experience in studying the effect of feed additives on weaned pigs of large white breed was carried out at the Kirovsky pig farm of the Kirov region of North Ossetia-Alania. Piglet groups were formed according to the principle of analogs, with gender, live weight, and physiological state taken into account (A.I. Ovsyannikov, 1976; P.I. Viktorov, V.K. Menkin, 1991; L.N. Gamko, I. . V. Malyavko, 1998).

The groups were formed from weaned piglets aged 2-4 months, each group contained 14 goals of piglets, the experiment was carried out according to the following scheme (Table 1).

Feeding was carried out in accordance with the norms recommended by VIZH (A.P. Kalashnikov, V.I. Fisinin, V.V. Shcheglov et al., 2003).

The entire stock of weaned piglets was in identical conditions of keeping and feeding, the microclimate parameters corresponded to zoohygienic standards.

During the studies, the growth rate of animals was recorded by individual weighing and calculating the gross and daily average gains for the period of the experiment; feed intake in the group by deducting from the quantity of the given feed their residues weekly and feed costs per 1 kg of growth; - the safety of the stock of weaned piglets.

The results of the analysis of live weight are shown in table 2.

Note: ** P <0.01; *** P <0.001

As a result of control weighing at the age of 120 days, the live weight of weaned piglets in the second group was slightly higher than the control (1.3%). In all other experimental groups, the live weight of piglets in the third group increased by 5.3%, in the fourth - by 5.0%.

Based on live weight data, the absolute and average daily gain was calculated. The data are shown in table 3.

The highest value of gross and daily average growth was recorded in group 3 and exceeded the control by 8.4%.

The cost of nutrients per 1 kg of gain in live weight are presented in table 4.

From the above data, there is a decrease in feed costs per 1 kg of live weight gain in the third group by 9.0% compared with the control.

The problem of diseases and mortality of young animals is well known. Critical for newborn piglets are the first 2 months of life. During this period, the formation of the norm of the body's immune response to all kinds of infections occurs. Various medication complexes (including antibiotics) are used for treatment, but drugs usually do not eliminate the cause of the disease at the metabolic level, but fight the effect (pathogens).

As a result, piglets recovered after intensive treatment remain weakened for a long time, gain weight poorly and suffer from colds. Therefore, as an alternative to antibiotics, it is necessary to look for natural feed additives that positively affect the immunity of young animals.

Throughout the study period, the safety of weaned piglets was monitored (Table 5).

At the end of the experiment, the absolute safety of piglets was noted in the third group.

The results of calculating the economic efficiency of the use of the studied feed additives are given in table 6.

Based on the economic efficiency of feeding the studied feed additives to piglets, the highest profitability was recorded in the third group - 31.07% with a net income per head of 981.16.

The use of an active coal feed additive in the diets of weaned pigs made it possible to increase the average daily gain in live weight of young animals by 8.4%, the safety of the livestock by 14.3%, the profitability level by 14.2%, and reduce the cost of feed nutrients by 9.0%.

As a result of the scientific and economic experiment, the high efficiency of using AUKD in the amount of 400 g per 1 ton of feed was established. The studied additive has physical and technical properties that are convenient for inclusion in the composition of animal feed and feed mixtures, can improve the efficiency of their use. The presence of macro- and microelements in the composition of the feed additive has a positive effect on the physiological state of pigs, which also leads to increased digestibility of feed nutrients.

It should be noted that the proposed adsorbent is environmentally friendly, since the initial product for its production is wood waste.

Information sources

1. Ilyazov R.G., Bogdevich I.M., Ageyev V.Yu. and other Guidelines for agricultural production in the radioactively contaminated territories of the Republic of Belarus and the Russian Federation. Minsk-M., 2005.

2. Kononenko S.I. The effectiveness of the use of enzyme preparations in feed for pigs // Problems of biology of productive animals. 2009. - No. 1. - S. 86-912.

3. Kononenko S.I., Gorkovenko L.G. A broad-spectrum enzyme preparation Ronozyme WX in feeding pigs // Political Mathematical Electronic Scientific Journal of the Kuban State Agrarian University - Krasnodar: KubSAU, 2011. - No. 04 (68). S. 230-240.

4. RF patent No. 2430731.

5. RF patent No. 2319488.

6. RF patent No. 2420565.

7. US patent No. 6045834. Compositions and methods for removal of mycotoxins from animal feed. 2000.

8. RF patent No. 2242239.

9. RF patent No. 2027376.

10. RF patent 2141329.

11. Gulushin, S.Yu., Slaugalvis V., Golovachev D.E. “Nutox Fito Plus” - prevention of chronic mycotoxicosis and stimulation of liver function in broiler chickens // Tsenovik. - 2010. - No. 5. - S. 51-53.

12. Dyakov, I.P., Lyubimov SP., Perelygin V.A. The use of new sorbents, plasticizers in the production of urea concentrate // Livestock - 1980. - No. 1. - S. 31-33.

13. Podobed, L.I. Critically about natural sorbents // Compound feed. - No. 1. - 2011 .-- S. 55-56.

14. Daryin A. Natural mineral supplement in feeding piglets - Pig production - 2004 - No. 1 - P. 13-14.

15. Boryaev G.I., Nevitov M.N. The role of selenium in biochemical processes and the immunological status of farm animals and birds // Selenium in the biosphere. Penza, 2001 - S. 154-180.

16. Talanov G.A., Khmelevsky B.N. Directory. Sanitation feed. M .: Agropromizdat, 1991, - 303 p.

17. Braude R. Influence of feeding technique on pig productivity // Agriculture Abroad. Livestock, 1968, No. 8, 9.

18. Dontsul N. The effectiveness of fattening pigs to different live weight // Pig production, 1967, 7.

19. Mironenko A.I. Pig productivity under different feeding conditions // Inform. Leaflet of Krasnodar TsSTI, 1976, No. 210.

20. Active coal feed additive. Technical conditions Nizhny Novgorod, 2014

Claims (1)

A method of using an active coal feed additive, comprising introducing an active coal feed additive into the main diet of the feed, characterized in that the active coal feed additive is administered to young pigs in an amount of 400 g per 1 ton of feed for 120 days.