RU2423870C1 - Method for industrial-scale breeding of egg and meat cross chickens - Google Patents

Abstract

FIELD: food industry. ^ SUBSTANCE: invention relates to agriculture, namely - to poultry breeding. The method for industrial-scale breeding of egg and meat cross chickens is as follows. Chickens undergo treatment in a hatcher. Then fodder is fed to one day old chickens. Then one proceeds with treatment after chickens sorting and sanitary treatment of the unit before placement of chickens therein and aerosol spraying of the cages with chickens. An active substance is added to the water and fodder given to chickens to drink and eat. The active substance is represented by "Prolam" probiotic agent with lactobacteria cells concentration 108/ml Chickens treatment with the active substance in the hatcher is performed by way of aerosol spraying during 5-7 min, the active substance taken in an amount of 12-18 ml per 1 m3 of the hatcher volume. The active substance is also added to fodder (at a ratio of 1:1) that is fed to one day old chickens after sorting, the expenditure rate being 0.8-1.2 kg per 10 thousand birds. The fodder is prepared by way of millet soaking during 1.5-2.5 h Chickens treatment is performed after sorting by way of spraying (spraying agent expenditure rate 20-25 ml per 100 birds) with subsequent drying. The unit sanitary treatment is performed 2-3 h prior to chickens delivery, the sanitary agent expenditure rate 0.8-1.2 l per 1000 m3 of the premises volume. Spraying of the cages is performed 2-3 hours after chickens have been placed therein, spraying agent expenditure rate 20-30 ml per 100 birds. The active substance is fed to chickens (mixed with fodder) in an amount of 3.8-4.2 l per 1 t of fodder or added to drinking water in an amount of 0.1-0.2 ml per bird daily during the first 14 days of breeding. ^ EFFECT: invention ensures improvement of chicken livestock preservation and fodder conversion, enhances the flock uniformity, enables production of environmentally safe poultry breeding products. ^ 5 tbl, 2 ex

Description

The invention relates to agriculture, in particular to poultry farming.

The main direction of improving the technology of industrial poultry farming is the development and implementation of the latest feeding methods and highly effective treatment and preventive measures schemes aimed at improving the safety and productivity of the livestock and providing economically sound environmentally friendly poultry products.

Traditional methods of increasing productivity, prophylaxis and treatment of poultry with antibiotics and sulfonamides affect the body's resistance, they suffer from symbiotic microflora, which provides not only a normal digestion process, but also competitive inhibition of pathogenic bacteria. In addition, in the tissues of animals and birds, antibacterial drugs accumulate in concentrations that are dangerous to humans. Therefore, probiotics and prebiotics based on live cultures of microorganisms or products of their metabolism, as well as their composition, are most often used as active substances in poultry farming.

A known method of sanitary treatment of premises, including the use of a composition containing propionic acid (US Pat. RF No. 2333637, dated 09/20/2008, class A01K 29/00). However, in the known method it is not possible to provide efficient industrial production of poultry, since the acid used, although it is a product of the vital activity of beneficial microorganisms, is most effective in combination with other organic acids and other metabolites of bacteria. In addition, the active substance, it is possible to use only for outdoor growing birds, and with cell growing its use is not possible.

A known method of incubation of poultry eggs, which includes processing the inside of the incubator with the probiotic lactomycrocycol (US Pat. RF No. 2292156, dated January 27, 2007, class A23K 1/00).

A known method of growing broilers, which includes the introduction into the diet of the drug Biosporin, containing two bacterial cultures of the same species at the rate of 800 g / t of feed (US Pat. RF No. 2292156, dated January 27, 2007, class A23K 1/00).

A known method of feeding broiler chickens, including the use of a dry powder containing a probiotic centrifuge Biosporin and glauconite as a daily additive in feed in the amount of 0.25% at a time (US Pat. RF No. 2352135, dated 04/20/2009, class A23K 1 / 00).

A known method of feeding a bird, including the use of the probiotic microcyclic, which is fed to the bird for 1 month of life at a dose of 100 g / t of feed and is drunk with water for three months at a rate of 10 g per 10 l with unlimited consumption (US Pat. RF No. 2336692 , 10.27.2008, class A01K 67/02).

A known method of growing young egg chickens, including the use of a working solution of dairy product Narine to spray it in the main diet of chickens from the 6th day in the amount of 0.1 ml / goal per day for 10 days, then a break of 10 days, and re-spraying in the amount of 0.2 ml / goal per day for 10 days (US Pat. RF No. 2366169, dated 09/10/2009, class A01K 67/00).

A known method of growing poultry, which provides for adding to the normal diet at a concentration of 0.23-9 kg / t of probiotic, consisting of representatives of one kind of bacteria, enclosed in fatty acid microspheres (US Pat. RF No. 2093571, from 10.20.1997, cells .C12N 1/20).

A known method of feeding broiler chickens, which involves adding to the feed or water daily a probiotic of B5 / 98 microcyclic in an amount of 0.2 g per 1 kg of feed or 1 liter of water (US Pat. RF No. 2264126, dated November 20, 2005, cl. A23K 1/16).

A known method of feeding laying hens, which involves the addition of probiotic Biostim to the main diet at a concentration of 0.3-1.5 ml per 10 goals per day, depending on the age period (US Pat. RF No. 2341100, dated December 20, 2008, class A23K 1/00).

In known methods, in the process of growing a bird, the active substance is processed, which is used as a probiotic based on live cultures of microorganisms, and obtaining the claimed technical result is achieved by replacing beneficial microorganisms in the gastrointestinal tract and on the surface of the bird.

However, in these methods, probiotics are used, usually monocomponent or dicomponent, which reduces their effectiveness. Such compositions of the active substances are not able to change the established imbalance of the microbial community in the intestine or to form a normal microbial community. In addition, the use of a probiotic only in the composition of the feed can reduce the effectiveness of the use of probiotics, since microorganisms (especially lactic acid) are sensitive to negative environmental factors. In addition, maintaining a normal balance of microorganisms in the poultry organism during its rearing is possible only by forming a microbiocenosis at the early stages of development and ensuring its systematic input during rearing, and this is not provided for in these methods. This can be avoided by means of a comprehensive regimen for the use of active substances at all stages of poultry rearing.

The closest in technical essence to the method of industrial growing chickens of egg and meat crosses, used in poultry farms, includes the use of the active substance at all stages of cultivation: processing them chickens in the hatcher, feeding them daily feed chickens, processing after sorting, their evaporation with water, sanitizing the body before placing chickens in it, aerosolizing the cells with chickens and feeding it as part of the feed (Guide to working with egg crosses Chickens of the Kuban Criminal Code / comp. T.I.Pakhomov et al. Krasnodar, 2008, pp. 14-17, 57-69, 67-69. - Prototype).

The disadvantage of this method of industrial growing chickens is the lack of a system for the use of active substances, and in addition, their different nature can not only reduce the efficiency of poultry growing, and especially in the early stages of growing, but also negatively affect the main indicators of growth and development of the body, due to inhibition each other's actions. Therefore, it is possible to achieve the greatest positive effect by systemic use of the same active ingredients in nature, which may be probiotics.

Known methods for the industrial cultivation of chickens of egg and meat crosses do not allow to effectively ensure high safety and productivity of the livestock, feed conversion, uniformity of the herd, environmental safety of poultry products without reducing production and economic indicators of industrial cultivation.

The technical solution to the problem is to obtain, when rearing chickens, high safety indicators, normalizing livestock productivity, increasing feed conversion, uniformity of the herd, and environmental safety of poultry products without reducing production and economic indicators.

The problem is achieved in that in a method for the industrial cultivation of chickens of egg and meat crosses, which includes processing chickens in a hatcher, feeding daily chickens feed, processing after sorting, drinking with water, sanitizing the casing before placing chickens in it, aerosolizing cells with chickens and feeding in the feed of the active substance, according to the invention, the probiotic Prolam is used as the active substance with a concentration of lactic acid bacteria cells of at least 1 0 ⁸ in ml, and the active substance is treated with chickens in the hatcher by aerosol for 5-7 minutes at the rate of 12-18 ml per 1 m ³ of the cabinet volume, then the active substance is fed with feed in a ratio of 1: 1 to daily chickens after sorting from the calculation 0.8-1.2 kg per 10 thousand goals, prepared by soaking millet for 1.5-2.5 hours, then the chickens are processed after sorting with the active substance by spraying at the rate of 20-25 ml per 100 goal. and their subsequent drying, the body is sanitized with the active substance of the body 2-3 hours before the chickens are transported at a rate of 0.8-1.2 l per 1000 m ³ of the room’s volume, and the cells and chickens are sprayed with the active substance in 2-3 hours after planting at the rate of 20-30 ml per 100 goals, then the active substance in the feed is fed in the ratio of 3.8-4.2 liters per 1 ton of feed or it is drunk with water at the rate of 0.1-0.2 ml per goal / day during the first 14 days of cultivation.

The claimed method for the industrial cultivation of chickens of egg and meat crosses is distinguished by the active substance, its systemic use, processing time and concentration of the active substance, schemes and objects of processing and increased efficiency of use. The active substance used is the Probiotic Prolam feed additive. It is used in poultry and is a liquid suspension of microorganisms Lactobacillus delbrueckii subsp. bulgaricus (B-4625), Lactobacillus acidophilus 43c (S-3235), Lactococcus lactis subsp. lactis 57 ₄ (B-3145), Lactococcus lactis subsp. lactis 170 ₄ -5 (B-3192) and Bifidobacterium animalis August ₃ (AC-1248) cells with a titer of at least 10 ⁸ in 1 cm ^3.

These differences allow us to conclude that the proposed technical solution meets the criterion of "novelty."

The features distinguishing the claimed technical solution from the prototype are aimed at achieving the task and have not been identified in the study of patent and scientific and technical literature in this and related fields of science and technology and, therefore, meet the criterion of "inventive step".

A method of industrial growing chickens of egg and meat crosses is implemented as follows.

In the process of growing chickens, the Prolam feed additive is systemically used, which is a liquid with sediment on the bottom or with suspended chalk particles of brown color with shades of different intensities, with the smell of a nutrient medium, packaged in 5.2 liters in an airtight container made of polymer materials. The feed additive Prolam should contain in its composition cells of lactic acid bacteria with a concentration of at least 10 ⁸ in ml. If the concentration of lactic acid bacteria in the supplement is less than 10 ⁸ cells per ml., Then the number of bacteria in this volume is not enough to effectively colonize the intestines of the bird when using Prolam. Use Prol with an unexpired shelf life and stored in the conditions recommended by the instruction for use.

Egg incubation begins in such a way that the selection of chickens and work with them takes place in the morning (6-8 hours). An hour before the selection of the hatched young poultry in the hatcher cabinet of the incubator, aerosol treatment of the bird with Prolam is performed with an exposure of 5-7 minutes, for this period ventilation is turned off. For spraying, SAG devices or other typical aerosol generating devices available on the farm are used. The consumption of the drug is selected experimentally depending on the volume of the hatcher and its uniform filling with aerosol. The optimal flow rate of Prolam is 12-18 ml per 1 m ³ of cabinet volume. After treatment, it is ventilated again. The selection of chickens is carried out according to the technological instructions of the economy.

If the time for aerosol treatment of young animals in the hatcher is less than 5 minutes, this will not ensure uniform distribution of Prolam throughout the volume and there will be zones free of its bacterial components. If the processing time is more than 7 minutes, then the distribution efficiency of bacteria will not increase, and the time of one technological cycle will also increase. In order for saturation of the entire output cabinet volume to occur with sufficient efficiency, the optimal processing time should be 6 minutes.

If the dose rate of Prolam during aerosol treatment is less than 12 ml per 1 m ³ of the cabinet volume, then the microorganisms contained in this volume are not enough for their uniform distribution throughout the cabinet volume. If the dose rate of Prolam during aerosol treatment is more than 18 ml per 1 m ³ of the cabinet volume, then this increases the consumption of the drug, not providing an increase in its biological effect on chickens, and in addition, the cost of processing increases. Therefore, the optimal flow rate of Prolam is 15 ml per 1 m ³ of cabinet volume.

After processing, a visual assessment of the culling of chickens, paying attention to their activity and mobility, morphology. Young animals with deviations are placed separately and used for industrial purposes or sold to the population. Sorting and evaluation of chickens is carried out on a conveyor belt according to external signs or on a sorting table in a warm, well-ventilated room at an air temperature of 24-30 ° C. Sorted chickens are placed in a shipping container, the bottom of which is lined with wrapping (non-glossy) paper. The landing density should be about 30 cm per 1 goal. Before sale, chickens must be kept in a dry, clean, well-ventilated area with an air temperature of 26-30 ° C and a humidity of 60-65%. The time spent in the hatchery should not exceed 8 hours. During this period, after the implementation of routine veterinary measures, the millet soaked in Prolam is fed by spreading it on top of the chickens and on the bottom of the sorting box. In this case, pre-millet is soaked in Prolam based on a weight of 1 to 1. The soaking time is 1.5-2.5 hours, and then the non-absorbed part of the liquid is drained. Thus, the prepared food is fed to chickens at the rate of 0.8-1.2 kg per 10 thousand goals. During sludge and transportation, the chickens peck at millet and thereby add beneficial microorganisms of Prolam and their metabolites to the gastrointestinal tract.

If the soaking time of millet in Prolam is less than 1.5 hours, then an insufficient amount of Prolam will be impregnated into the grain, and therefore, together with the grain it will get less into the gastrointestinal tract of the chicken. If millet soaked in Prolam will be more than 2.5 hours, the grain mass will lose flowability, which will negatively affect the uniformity of its distribution to chickens and along the bottom of the sorting box. Thus, the optimal time for soaking the grain in the Prolam preparation to ensure maximum efficiency from its use is 2.0 hours.

If the mass of millet soaked in Prolam is 10 thousand goals. less than 0.8 kg, the amount of lactic acid bacteria in the feed will be insufficient to ensure increased safety and other declared positive qualities. If the mass of millet soaked in Prolam is 10 thousand goals. If it is more than 1.2 kg, then this will not increase the effect of the application, but will increase the cost of raising chickens. Thus, to ensure the maximum effect, the optimal consumption of soaked millet in Prolam per 10 thousand goals is 1.0 kg.

During sludge in the “chicken”, before transporting, the chickens in the crates are treated with Prolam using a spray (technologically this is like vaccinating infectious bronchitis). Droplets of the drug, hanging on the fluff, chickens peck from each other and thereby probiotics enter the intestines. Its consumption is 20-25 ml per 100 heads of chickens. After processing, chickens must be dry before transporting. It is important that the treatment of chickens with Probiotic Prolam does not coincide with vaccinations, but that it should be done after the bird dries from the vaccines.

If the dose of Prolam consumption during aerosol treatment of chickens before transportation is less than 20 ml per 100 goals, then the microorganisms contained in this volume are not enough for their uniform distribution over the entire surface of the chickens. If the dose of Prolam consumption during aerosol treatment of chickens before transportation is more than 25 ml per 100 goals, then this increases the consumption of the drug, not providing an increase in its biological effect on chickens, and in addition, the cost of processing increases. Therefore, the optimal consumption of Prolam is 22.5 ml per 100 goals. birds.

Before planting chickens in the housing, the health of the equipment is checked. Preliminary carry out the sanitary treatment of the housing, where the chickens are placed. Preparation is carried out in accordance with current instructions. Rinse the case with hot water, wipe the surfaces with a rag soaked in a solution of detergents and disinfectants. The water system is treated with disinfectants. Next, the housing is disinfected with a formaldehyde solution.

At the final stage of preparation of the housing for the supply of poultry 2-3 hours before the supply of chickens, the air of the room is saturated with microorganisms that are part of the Prolam preparation. Such processing is carried out using the SAG-1, SAG-10 deinstallations. It is also possible to use other designs that allow efficient spraying of liquids. Processing is carried out at the rate of 0.8-1.2 l Prolam per 1000 m ^{3 the} volume of the building.

The optimal processing time for the hull before delivery of the chickens for rearing is 2.5 hours. Since if the case is treated with Prolam less than 2 hours before the bird is transported, the case does not have time to ventilate and the humidity in the room will be higher than the norm. If the treatment with Prolam is carried out more than 3 hours before the delivery of chickens, the microorganisms that make up Prolam will completely settle on the surface of the equipment and the air will not be saturated with useful bacterial components.

If the dose rate of Prolam during aerosol treatment of the case is less than 0.8 l per 1000 m ³ , then the microorganisms contained in this volume are not enough for their uniform distribution throughout the entire volume of the building. If the dose rate of Prolam during aerosol treatment of the body is more than 1.2 liters per 1000 m ³ , then this increases the consumption of the drug, not providing an increase in its biological effect on chickens, and in addition, the cost of processing increases. Therefore, the optimal flow rate of Prolam for processing the volume of the building is 1.0 l per 1000 m ³ .

Immediately before the bird is landing, all the outlet and inlet shutters of the ventilation openings are closed and the fans are turned off. The house is heated to a temperature of 32-33 ° C. The day before planting, birds feed feed into the feeders. Part of the cell (at least 2/3) is covered with paper. Placement of chickens is made taking into account live weight, and their seedlings begin with the cages farthest from the entrance to the room.

Spraying using a bird spray with Prolam is carried out 2-3 hours after planting chickens in the housing at the rate of 20-30 ml per 100 goal. Treatment with the drug does not exclude vaccination, which is carried out according to the approved vaccination schedule at the enterprise. The timing of vaccination depends on the epizootic condition on the farm, as well as the level of immunity in the bird. As a rule, vaccination is carried out by drinking a vaccine with drinking water.

If the treatment of poultry with Prolam is carried out less than 2 hours after the chickens are planted in the casing, the bird does not adapt to new conditions, and this will lead to its stress, which will affect the processing efficiency and lead to a decrease in the productivity and preservation of the livestock. If the aerosol treatment of cells and poultry with Prolam is carried out more than 3 hours after planting the chickens in the casing, then the requirement of the earliest saturation of beneficial microorganisms into the gastrointestinal tract of the bird is violated and, as a result, the processing efficiency is reduced. Therefore, it is most effective to treat the poultry 2.5 hours after planting the chickens in the housing for growing.

If the dose of Prolam during aerosol treatment of chickens and cells is less than 20 ml per 100 goals, then the microorganisms contained in this volume are not enough for their uniform distribution over the entire surface of the chickens and cells. If the dose of Prolam consumption during aerosol treatment of chickens and cells is more than 30 ml per 100 goals, then this increases the consumption of the drug, not providing an increase in its biological effect on chickens, and in addition, the cost of processing increases. Therefore, the optimal consumption of Prolam for processing cells with the bird after landing in the housing for growing is 25 ml per 100 goals. birds.

In order to maintain the composition of normal microflora in the intestine of the bird, it is possible to use various technological methods: feeding Prolam as part of the feed or it is drunk with water at the rate of the first 14 days of cultivation.

From the first day of planting, chickens with water are drunk. I will sell for 14 days at the rate of 0.1-0.2 ml per 1 head per day. If the Prolam chickens are fed less than 14 days from the first day, the efficiency of colonization of the gastrointestinal tract by the microorganisms that make up Prolam will be low. If chickens are fed Prolam for more than 14 days, starting from the first day, then the efficiency of colonization of the gastrointestinal tract by bacteria does not increase, and the drug consumption will be greater, which will affect the cost of raising a bird. Thus, for the effective colonization of the gastrointestinal tract by bacteria from Prolam, it is optimal to drink it with water during the first 14 days of raising chickens.

If the daily consumption of Prolam is less than 0.1 ml per head, then the number of bacteria in this volume is not enough to effectively colonize the intestines of the bird. If the daily consumption of Prolam is more than 0.2 ml per head, then this will lead to an overrun of the drug, which will affect the cost of growing the bird and will not increase its effectiveness. Therefore, the optimal dosage of consumption of Prolam in the first two weeks of cultivation is 0.15 ml per head per day.

It is also possible to use Prolam feeding as part of compound feed. Mixing from feed is carried out fractional, to ensure uniform distribution of Prolam throughout the feed, and mixing is carried out at a rate of 3.8-4.2 liters per 1 ton of feed. This operation is carried out on the day of feeding the feed.

If you add less than 3.8 liters of Prolam per 1 ton of feed, then the microorganisms contained in this volume are not enough to evenly distribute them throughout the feed, and in addition, the colonization of the beneficial microorganisms of the Prolam of the gastrointestinal tract is reduced. If you add more than 4.2 liters of Prolam per 1 ton of feed, this increases the consumption of the drug, increases the moisture content of the feed, does not increase its biological effect on chickens, and in addition, the cost of processing increases. Therefore, the optimal dosage for introducing Prolam is 4 liters per 1 ton of feed.

During the entire period of poultry rearing, regardless of the method of using Prolam (with water or with feed), the probiotic feed additive Bacell is introduced at the rate of 2 kg per 1 ton of feed.

Thus, the probiotic feed additive Prolam is used as the active ingredient at all stages of chickens growing for the earliest possible population of beneficial microorganisms in the gastrointestinal tract of the bird and the further formation of normal microflora in the digestive organs, which ensures the claimed technical result.

The effectiveness of the method of industrial growing chickens of egg and meat crosses is illustrated by an example.

Example 1. Chickens of egg crosses. Production tests of the method for the industrial cultivation of egg cross chickens were performed on UK-Kuban-7 cross-country chickens in the Labinsky plant of the Krasnodar Territory from May 27, 2009 to August 25, 2009.

For the test, a bird was selected in two buildings with the same growing and feeding conditions (Table 1)

Table 1 Production Testing Conditions Indicator Group control experienced Case number 1-2 four Date of bird landing 05/27/2009 06/19/2009 Livestock 24000 27000

In the control group, a traditional chicken rearing scheme was used, in which there was no use of Prolam. In the experimental group, Prolam was used according to the scheme proposed in the application for an invention with the option of introducing Prolam with feed. In both poultry buildings, the conditions of feeding and feeding, except for those specified in the experiment, were the same. The experimental results are shown in table 2.

According to experts, despite the insignificant mathematical difference between the safety values in the experimental and control groups, which amounted to 0.34%, these differences in industrial poultry farming are significant when they are obtained experimental data on a large number of livestock, when birds of modern highly productive crosses and a high background safety value are used in the control group (99.6%). In addition, when growing egg cross-country chickens, it is important to adhere to the standard live weight of the bird, which is ensured by the use of Prolam, since a significant excess of the standard values leads to a further decrease in the egg productivity of the bird.

table 2 The dynamics of growth and preservation of poultry in a production experiment Age weeks Standard weight, g Group control experienced Mass g Preservation,% Mass g Preservation,% one 75 79 99.9 76 one hundred 2 130 140 - 140 - 3 200 217 - 215 - four 280 305 99.7 302 99.97 5 375 411 - 406 - 6 480 525 - 522 - 7 590 640 99.67 626 99.94 8 690 748 99.6 727 99.94

At 40 days of age, weighing of the internal organs of chickens was performed. Data as a percentage of the weight of the chickens are summarized in table 3.

Table 3  The proportion of the weight of internal organs to the total mass of chickens on the 40th day of growing,% Indicator Group control experienced Heart 0.5 0.44 Liver 2.6 2.26 Glandular stomach 0.56 0.5 Muscle stomach 3.6 3,1 Spleen 0.27 0.2

Thus, from the results obtained in production tests on egg chickens of the cross-country “UK-Kuban-7”, it can be seen that in the proposed method for the industrial cultivation of egg cross chickens using the probiotic feed additive Prolam, the normalization of live weight of the bird is ensured, the preservation is improved, in the period up to 40 days of age, the tension of the gastrointestinal tract, cardiovascular system and immune organs is relieved, as evidenced by the relatively lower weight of the stomachs, liver, heart Spleen.

Example 2. Chicken meat cross. Production tests of the method for the industrial cultivation of meat cross chickens were carried out on the parental forms of the cross-country SK-Rus 6 in OJSC Breeding Poultry Plant Rus in Korenovsk, Krasnodar Territory from May 12, 2009 to August 24, 2009

For the test, a bird was selected in two buildings with the same growing and feeding conditions (Table 4)

Table 4 Production Testing Conditions Indicator Group control experienced Case number twenty 19 Date of bird landing 05/19/2009 06/12/2009 Livestock 28510 29760

In the control group, a traditional chicken rearing scheme was used, in which there was no use of Prolam. In the experimental group, Prolam was used according to the scheme proposed in the application for an invention with the option of introducing Prolam by evaporation with water. In both poultry buildings, the conditions of feeding and feeding, except for those specified in the experiment, were the same. The experimental results are shown in table 5.

Thus, from the results obtained in production tests on meat chickens of cross-country "SK-Rus 6" it can be seen that in the proposed method for the industrial cultivation of chickens for meat crosses using the probiotic feed additive Prolam, the preservation is improved, the productivity is increased and, in general, the efficiency of growing is provided meat breeding chickens.

Table 5 The dynamics of growth and preservation of poultry in a production experiment Age weeks Standard weight, g Group control experienced Mass g Preservation,% Mass g Preservation,% one 120 177 99.7 212 99.73 2 220 373 - 425 - 3 340 630 98.7 680 99.1 four 470 810 - 840 - 5 620 943 - 1040 - 6 750 1280 98.3 1350 98.7

According to experts, in spite of the insignificant mathematical difference between the safety values in the experimental and control groups, which amounted to 0.4%, these differences in industrial poultry farming are significant when they receive experimental data on a large number of livestock, when using birds of modern highly productive crosses and a high background safety value in the control group (98.3%).

As can be seen from the above examples (see table 2, 3, 5) on a large number of poultry (see table 1, 4), the industrial cultivation of chickens meat and egg crosses according to the proposed method using probiotic feed additives Prolam exceeds the efficiency of poultry growing, since the microorganisms that make up the probiotic create a favorable microflora of the gastrointestinal tract and supply the body of animals and birds with biologically active substances that increase productivity and safety, feed convertibility, and improve the process life and increases non-specific immune status. In addition, Prolama microorganisms, fighting for a nutrient substrate, are antagonists to certain pathogenic microorganisms, thus preventing the occurrence of dysbiosis and other gastrointestinal diseases.

Claims (1)

A method for the industrial cultivation of egg and meat cross chickens, including treating chickens in a hatcher, feeding daily chickens feed, processing after sorting, drinking with water, sanitizing the housing before putting the chickens in it, aerosolizing the cells with chickens and feeding the current feed substances, characterized in that as the active substance use the Probiotic "Prolam" with a concentration of lactic acid bacteria cells of at least 10 ⁸ in ml, and the treatment with the active substance Using chickens in the hatcher, aerosol is performed for 5-7 minutes at a rate of 12-18 ml per 1 m ³ of the cabinet volume, then the active substance is fed with feed in a ratio of 1: 1 to daily chickens after sorting at the rate of 0.8-1.2 kg 10 thousand goals., prepared by soaking millet for 1.5-2.5 hours, then the chickens are treated after sorting with the active substance by spraying at the rate of 20-25 ml per 100 goals. and their subsequent drying, the body is sanitized with the active substance 2-3 hours before the chickens are transported at a rate of 0.8-1.2 l per 1000 m ³ of the room’s volume, and the cells and chickens are sprayed with the active substance 2-3 hours after planting at the rate of 20-30 ml per 100 goals., Then feed the active substance in the composition of the feed in the ratio of 3.8-4.2 liters per 1 ton of feed or drink it with water at the rate of 0.1-0.2 ml per goal ./day during the first 14 days of cultivation.