RU2505069C1 - Method of application of active carbon feed additive for increasing productivity of laying hens - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method provides adding to the compound feed contaminated with mycotoxins of sorbent, which is used as activated carbon obtained from soft-wooded broadleaved species of timber, with a particle size of from 0.1 to 2 mm in the amount of 400 g per 1 ton of feed.

EFFECT: method enables to stabilise the calcium-phosphorus metabolism in laying hens within a month, magnesium and potassium metabolism, administration of the active carbon feed additive by laying hens improves their general condition, reduces mortality and increases egg production.

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Description

The invention relates to veterinary medicine, and more particularly to feeding birds, can be used for feeding farm birds with a balanced diet, including a mineral supplement.

Currently, an important problem of veterinary medicine is the disease caused by microscopic fungi: mycoses, mycotoxicoses. The increase in the incidence of animals by “fungal diseases” is associated with the immunosuppressive effects of modern technogenic civilization on the animal organism. Environmental pollution, increased background radiation, the use of pesticides, fertilizers in agriculture, and immunosuppressants, cytostatics, corticosteroids and broad-spectrum antibiotics in veterinary medicine are factors that weaken the animal’s natural defense mechanisms and contribute to the development of diseases. Of the natural ecotoxicants - pollutants of agricultural raw materials and food products - the greatest danger to human and animal health is mycotoxins. The spread of mycotoxins is very high, they contaminate food and feed, food raw materials at all stages of their production, transportation, storage and sale. According to the FAO, every year in the world from 25% to 30% of grain products are infected with mycotoxins. There are regions where the level of infection is 100% of the grain harvest.

The traditional prevention of mycotoxicosis is to create conditions that prevent the development of fungi and the formation of mycotoxins in feed during their preparation and storage. In cases of the development of fungi on vegetative plants that are capable of producing mycotoxins in it after harvesting food, such food can be preserved or fed to the animals without subjecting it to long-term storage.

A known method for the prevention and treatment of mycotoxicosis by using the nanopreparation Mikosorbent MTox + in a concentration of 0.1 and 0.2% [Fisinin V., Egorov I., Mukhina N., Cherkay Z. Nanotechnology in the fight against mycotoxicosis in poultry farming. Poultry farming, No. 8, 2011 (1)]. As part of toxic feed for broiler chickens, the drug increases the productivity and safety of the livestock, reduces production costs, improves feed conversion and the use of nutrients and trace elements. The disadvantage of this method: the drug has adsorbing properties not only in relation to various toxins, but also in relation to vitamins, micro and macro elements, which can cause an imbalance of vitamins and minerals in animals.

Closest to the proposed method is a method for the prevention of mycotoxicosis in farm animals and poultry [patent RU No. 2361603 (2)]. The method includes adding to the mycotoxin contaminated feed of the biologically active substance choline chloride (60%) in an amount of 6.3 kg / t.

The disadvantages of this method of treatment and prevention of animal poisoning with mycotoxins are the complexity of the regimen for the use of drugs that are diverse in their pharmacological properties, the insufficient effectiveness of their use, the high cost of preparatory and medical measures.

The aim of the present invention is to develop a method of using an active coal feed additive to increase the productivity of laying hens. This goal is achieved by introducing into the rations of laying hens activated carbon obtained from soft-leaved species of wood having a particle size of 0.1 to 2 mm, in an amount of 400 g per 1 ton of feed. At the same time, activated charcoal is added to the feed daily when clinical signs of mycotoxicosis appear.

The novelty of the work also lies in the fact that in the production environment from renewable wood raw materials new types of domestic activated carbons with a more branched porous structure of directed action with the required parameters and adsorption properties were obtained, allowing them to be used both for prevention and for the treatment of mycotoxicosis. Activated charcoal is obtained from charcoal (aspen 90% and birch the rest), which has been activated by water vapor at 800-900 ° C, which corresponds to GOST 6217-74, but has reduced mechanical strength. Activated carbon is obtained at the forest chemical enterprise of the Nizhny Novgorod region.

Example. In September-October 2011, at the Veterinary Clinic of the Agrarian Institute of Moscow State University NP Ogareva conducted experimental studies on 24 laying hens aged 16 months, culled from the Avangard poultry farm in the Ruzayevsky municipal district of the Republic of Mordovia, with severe clinical signs of mycotoxicosis poisoning.

The following clinical signs were found in the entire livestock of laying hens: an oppressed and drowsy state; foci of necrosis were found on the mucous membrane of the mouth, tongue, pharynx, and at the base of the beak; , in some places, areas of alopecia, on the surface of the body of dermatosis, a decrease or absence of egg production, a small egg, a thin shell.

An autopsy of a dead bird revealed inflammatory changes in the internal organs: intestines, liver, air sacs, bronchi and ovary, as well as hemorrhages on the intestinal mucosa and subcutaneous tissue.

In the study of feed and its ingredients, the following mycotoxins were discovered - aflatoxin B ₁ and zearalenone F ₂ both in qualitative and quantitative methods. The concentration of aflatoxin in various feed ingredients and in mixed feed varies from 0.5 to 22 μg / kg and is a biological hazard for chickens.

The data obtained from a study of the clinical status of laying hens and eggs obtained from them, a laboratory study of feed, and an autopsy of dead birds indicate mycotoxicosis of birds.

To assess the effectiveness of activated carbon supplements, 4 groups of birds were formed with 6 animals each.

Activated charcoal in a dose of 200 grams per 1 ton of feed was added to the poultry of the 1st experimental group, the amount of the additive was 400 grams per 1 ton of feed for the bird of the second experimental group, and 800 g per 1 ton of feed in the third.

Group 4 laying hens served as control. The control group of birds did not receive activated charcoal supplement with food.

Laying hens of all groups were kept in similar conditions of the Veterinary Clinic of the Agrarian Institute of the Mordovian State University named after N.P. Ogareva, and also received food for poultry of the appropriate age and egg production, supplied from Avangard LLC, Ruzaevsky municipal district of the Republic of Mordovia.

The effectiveness of the use of activated carbon supplements for mycotoxicosis was evaluated by the change in the laying hens of clinical and hematological parameters, egg production. According to the results of the control slaughter, the state of internal organs and systems was evaluated.

When assessing the clinical status of birds using activated carbon supplements, indicators such as general condition, coordination of movement, plumage, condition of the skin and visible mucous membranes, and food intake were detected in the physiological norm by the 14th day of the experiment in all experimental groups, and in the control on the 25th day. The best food eatability is set in the second group.

Egg production of chickens was evaluated for 1 month. So, in the first group it was 8% more, in the second - 30%, in the third - 5% more than in the control group. The average egg mass in the experimental group was 54 g, 67 g, 58 g in groups 1, 2, and 3, respectively. In the control group, this indicator was 56 g. The change in the average egg mass is due to protein. So, the mass of protein in the first group is 36 g, in the second - 49 g, in the third - 40 g. In the control group - 38 g. The mass of yolk in the total mass of eggs of all groups is about 18 g.

Hemoglobin content, erythrocyte and leukocyte concentration, and a leukogram were derived from hematological parameters. Hematological parameters in laying hens are presented in table 1.

Table 1 Indicator Groups of animals Experienced 1 Experienced 2 Experienced 3 Control Hemoglobin, g /% Before the start of the experiment 7.8 7.8 8.1 8.0 30 days after the start of the experiment 8.8 10.1 8.1 8.3 Red blood cells, mln / μl Before the start of the experiment 1.92 1.83 1.90 1.91 30 days after the start of the experiment 2.78 3.9 3.0 2.9 White blood cells, thousand / μl Before the start of the experiment 65.3 69.1 70.5 70.0 30 days after the start of the experiment 30,0 32,7 33,4 41.0 Pseudoeosinophils,% Before the start of the experiment 40 40 43 41 30 days after the start of the experiment 31 25 27 31 Basophils,%
Before the start of the experiment one one - one 30 days after the start of the experiment - - - one Lymphocytes,% Before the start of the experiment 51 53 51 53 30 days after the start of the experiment 59 60 60 62 Monocytes,% Before the start of the experiment 5 5 3 2 30 days after the start of the experiment 6 8 7 2 Eosinophils,% Before the start of the experiment 3 5 3 3 30 days after the start of the experiment four 7 6 four

The research results allow us to conclude that the change in clinical and hematological parameters within the physiological norm occurs faster in hens of the second experimental group when activated carbon supplements are introduced into the diets at a dose of 400 g per 1 ton of finished feed.

Biochemical studies of chicken serum were performed at Moscow State University. N.P. Ogareva on the basis of the Testing Laboratory of the Agrarian Institute in the Sector (No. 3) for monitoring the physiological state of animals using the Humalyzer 2000 semi-automatic biochemical analyzer using proprietary Human methods.

Data on changes in mineral metabolism in laying hens when they use activated charcoal feed additives are summarized in table 2.

table 2 Change in mineral metabolism in laying hens when they use activated charcoal feed additives Study Dates Group Mineral Metabolism Phosphorus, ml mol / L Magnesium, ml mol / l Calcium, ml mol / l Potassium, ml mol / l Calcium / Phosphorus, ml mol / L Before experience 2.5 ± 0.2 1.7 ± 0.09 6.6 ± 0.5 9.1 ± 1.02 2.7 ± 0.2 15 days one 4.2 ± 0.3 2.0 ± 0.1 9.3 ± 0.6 14.3 ± 1.9 2.2 ± 0.2 2 3.2 ± 0.2 1.9 ± 0.1 6.9 ± 0.5 14.2 ± 1.9 2.0 ± 0.1 3 3.0 ± 0.4 1.7 ± 0.1 6.8 ± 1.0 18.8 ± 2.3 2.5 ± 0.4 control 3.5 ± 0.5 1.8 ± 0.1 7.2 ± 1.0 16.5 ± 1.7 2.2 ± 0.4 30 days one 1.6 ± 0.06 1.2 ± 0.05 4.6 ± 0.5 5.5 ± 0.5 2.8 ± 0.3 2 1.6 ± 0.1 1.3 ± 0.02 5.6 ± 0.2 6.2 ± 1.0 3.6 ± 0.4 3 1.6 ± 0.05 1.1 ± 0.04 6.4 ± 0.5 5.2 ± 0.05 3.9 ± 0.3 control 1.2 ± 0.07 1.1 ± 0.06 4.2 ± 0.6 4.3 ± 0.07 3.2 ± 0.5

From the data presented in table 2, it can be seen that the amount of phosphorus in the blood serum of experimental chickens of the 1st group changed as follows - before the use of the drug, this indicator was slightly higher (p> 0.05) than the norm (the norm is 1.1-2.4 mlmol / l), on the 15th day after the use of the drug at a dose of 200 g / t of feed, it was significantly higher compared with the data before the use of the drug and above the norm, and on the 30th day of the experiment it was significantly reduced. Compared with the control birds, the phosphorus level in the 1st group on the 15th day and 30th day was significantly higher. Therefore, the use of activated coal feed additives at a dose of 200 g / t of feed led to a marked increase in the level of phosphorus in the blood serum of experimental birds.

The level of phosphorus in the blood serum of laying hens when using an activated coal feed additive at a dose of 400 g / t of feed (2nd group) changed in this way - on day 15 it was significantly higher than the initial level, and on day 30 it decreased, but remained in limits of normal values. The data indicate a modification in the amount of phosphorus in the blood serum when using activated carbon feed additives at a dose of 400 g / t feed.

Changes in the level of phosphorus in the blood of laying hens when they use activated charcoal feed additives at a dose of 800 g / t of feed (3rd group of experiments) were of the following nature - on day 15 of the experiment it did not differ significantly from control birds, and on day 30 significantly above control, staying within normal limits.

Thus, the use of activated coal feed additives in different doses in experimental birds led to a pronounced increase in the level of phosphorus in the blood serum, which is especially pronounced in birds when they use the drug at a dose of 200 and 400 g / t of feed.

When analyzing changes in the amount of calcium in the blood serum of experimental chickens, the following was noted - its level in all laying hens was higher than normal values (normal 2.3-3.3 ml mol / l), ranged from 5.6 ± 0.26 to 9.3 ± 0.6 ml mol / L. According to some researchers, in chickens during egg laying, the concentration of calcium in the blood serum rises to a higher level.

On the 15th day of the experiment, in the blood serum of laying hens treated with activated coal feed supplement at a dose of 200 g / t of feed, a significant increase in calcium concentration was noted compared to the initial level, and by the 30th day its level decreased.

When assessing the concentration of calcium in birds of the 2nd group 15 and 30 days after the application of activated charcoal feed additive at a dose of 400 g / t of feed, no significant changes were detected, the values fluctuated in a small range. Therefore, this dose of the drug does not cause significant changes in calcium metabolism in the body of laying hens.

When assessing the metabolism of calcium in the body of hens of laying hens of the 3rd group (receiving activated carbon feed additive at a dose of 800 g / t of feed), no significant changes were detected, except for its higher level after 30 days, compared with control birds.

Thus, the use of activated chicken feed additives in various doses in laying hens does not lead to a significant violation of calcium metabolism, a dosage of 400 g / t of feed leads to its stabilization.

It is known that phosphorus metabolism in the body is closely related to calcium metabolism. In the processes of absorption from the intestines and ossification, the exchange of calcium and phosphorus is parallel, in the blood serum and renal excretion they are antagonistic. It is believed that the ratio between calcium and phosphorus, equal to 1: 1-1.5, is the best for their joint assimilation. When assessing the ratio between calcium and phosphorus in these studies, it was found that in all chickens for all periods of the study, this ratio is higher than 2 (norm 1-2). The highest values of this indicator were observed in chickens treated with activated carbon feed additive at a dose of 800 g / t feed.

An activated coal feed additive at a dose of 400 g / t leads to stabilization of calcium-phosphorus metabolism in laying hens for a month.

Magnesium (Mg ²⁺ ) is one of the main macroelements and is fourth in terms of content in the body after sodium, potassium and calcium. Judging by the data in Table 2, changes in the level of magnesium in the body of laying hens treated with activated charcoal feed additive are stable in nature and there are no significant differences from control birds. The highest values of this indicator were observed in chickens treated with activated carbon feed additive in doses of 200 and 400 g / t of feed.

Magnesium is an intracellular chemical element. Magnesium ions are involved in carbohydrate and phosphorus metabolism. Magnesium has a vasodilator and antispastic effect. It stimulates intestinal motility and increases bile secretion, relieves stress. Therefore, the use of activated charcoal feed additives does not lead to a decrease in this macroelement in the body of laying hens. It was also established that the level of magnesium in blood serum is stabilized by the 30th day of the experiment within its normal values.

Potassium, like sodium, plays a large role in the formation of buffer systems that prevent shifts in the reaction of the medium and ensure their constancy. Potassium belongs to the main intracellular cations, being a necessary component of the intracellular environment of all living organisms. The lack of potassium intake from food can lead to dystrophy even with a normal protein content in the diet. Violation of potassium metabolism is manifested in chronic diseases of the kidneys and cardiovascular system, in diseases of the gastrointestinal tract, in diseases of the endocrine glands and other pathologies.

In these studies, the use of activated charcoal feed additives leads to a significant increase in potassium concentration on the 15th day of the experiment, which is especially pronounced when using the drug at a dose of 800 g / t feed, which is significantly higher than the norm and the initial level (table 2).

The lowest potassium concentration was observed in laying hens of the control group on the 30th day of the experiment. Consequently, the use of activated charcoal feed additives does not lead to the removal of potassium from the body of laying hens, and stabilizes potassium metabolism for 30 days.

Activated coal feed additive at a dose of 200 and 400 g / t by the 30th day from the start of its use leads to stabilization of magnesium and potassium metabolism in laying hens.

Thus, an activated coal feed additive, when introduced into the diet of laying hens in an amount of 400 g per 1 ton of finished feed, exhibits a pronounced therapeutic and prophylactic effect in chronic mycotoxicosis.

The use of activated coal feed additives in various doses in experimental birds led to a marked increase in the level of phosphorus in the blood serum, which is especially pronounced in birds when they use active coal feed additives at a dose of 200 and 400 g / t of feed.

An activated charcoal feed additive at a dose of 400 g / t leads to stabilization of calcium-phosphorus metabolism in laying hens for a month and stabilization of magnesium and potassium metabolism in laying hens.

The technical and economic advantages of the proposed method are cheaper, greener and more effective therapeutic and preventive measures for mycotoxicosis of laying hens. When using active coal feed additives, laying hens improve their general condition, decrease mortality and increase egg productivity.

Information sources

1. Fisinin V., Egorov I., Mukhina N., Cherkay Z. Nanotechnology in the fight against mycotoxicosis in poultry farming. Poultry farming, No. 8, 2011.

2. RF patent No. 2361603 dated 03/11/2008 "Method for the prevention of mycotoxicosis in farm animals and poultry" (prototype).

Claims (1)

A method of using an active coal feed additive to increase the productivity of laying hens, including adding sorbent to the mycotoxin-contaminated feed, characterized in that activated carbon obtained from softwood species having a particle size of from 0.1 to 2 mm is used as a sorbent 400 g per 1 ton of feed.