RU2705781C1 - Fodder additive for agricultural poultry, having adaptogenic action - Google Patents

Abstract

FIELD: veterinary science.

SUBSTANCE: invention refers to veterinary science, namely to fodder additives possessing adaptogenic action for agricultural poultry. Fodder additive contains fumaric acid, humic acid, betaine hydrochloride and bentonite. Components are taken at the specified ratio.

EFFECT: use of the invention will reduce negative consequences of stress, increase safety and productivity of agricultural poultry.

1 cl, 3 tbl

Description

The invention relates to veterinary medicine, namely to feed additives with adaptogenic action, intended to protect poultry from stress, as well as to improve its safety and productive qualities.

Known feed additive for the prevention of stress factors in poultry and a method of feeding it, containing synthetic Aurool (Tirazol-S) and natural zeolite in the ratio of components, wt. %: natural zeolite - 99.04; synthetic aurole - 0.06. The method of feeding a feed additive is characterized in that the additive is introduced into the main diet in an amount of 5-6% by weight of feed for 7-14 days (RF patent No. 2616411 published on April 14, 2017 in Bulletin No. 11).

Known feed additive for the prevention of mycotoxicosis and gastrointestinal diseases "Zeogumit" and the method of feeding it containing zeolite and humitone-humic extract in a ratio of 7: 1 (RF patent No. 2289949 published on December 27, 2006 in bulletin No. 36).

It is known, taken as a prototype, a means for correcting the metabolism of animals and birds, increasing their productivity and safety, which contains in wt. %: fumaric acid - 2.0-3.5; montmorillonite clay - the rest (RF patent No. 2323253 published on 04/20/2008 in Bulletin No. 11).

However, the well-known feed additives do not provide high efficiency in stresses in birds, because they do not contain a sufficient range of components that have the ability to reduce the negative effects of stress - due to the mobilization of the body's own forces, in particular, the activation of vitagens and antioxidant protection.

The objective of the invention is the creation of a new feed additive for poultry with high adaptogenic and growth-stimulating effect.

The technical result of the invention is to increase the safety and productivity of poultry, due to the high ability of the feed additive to reduce the negative effects of stress and accelerate the body's adaptation to adverse factors.

The desired technical result is achieved in that the feed additive for poultry with adaptogenic action, including natural aluminosilicate and fumaric acid, according to the invention contains bentonite as a natural aluminosilicate and additionally contains humic acid and betaine hydrochloride in the following ratio of components, mass. %: fumaric acid 1.0-2.0; humic acid 0.5-1.0; betaine hydrochloride 2.0-3.0; bentonite rest.

A comparative analysis of the proposed solutions with known feed additives for poultry with adaptogenic action allows us to conclude that it meets the criterion of "NOVELTY", as a result of a patent information search, the proposed combination of essential features of the invention was not found.

A comparison of the claimed technical solution with the known ones allowed to identify signs that are not obvious to a specialist of average qualification in connection with the technical result achieved by the whole set of essential features. This allows us to conclude that the claimed technical solution meets the criterion of "INVENTIVE LEVEL".

The claimed technical solution meets the criterion of "INDUSTRIAL APPLICABILITY", as it can be used in the cultivation of poultry in the conditions of farms and in personal subsidiary plots.

The inventive feed additive for poultry with adaptogenic action is illustrated by examples.

Example 1. A feed additive for poultry with adaptogenic action, contains, mass. %: fumaric acid - 1.0; humic acid - 1.0; betaine hydrochloride 3.0; bentonite - 95.0. These components are mixed with continuous stirring for 15-20 minutes.

Example 2. A feed additive for poultry with adaptogenic action, contains, mass. %: fumaric acid - 2.0; humic acid - 0.5; betaine hydrochloride - 2.0; bentonite - 95.5. These components are mixed with continuous stirring for 15-20 minutes.

Stress in poultry begins with an incubator. A pronounced stressful effect is exerted by transportation of the bird in the housing, landing in the housing in the absence of an aligned litter, optimal temperature and ventilation. In the future, feed stresses are added, associated not only with the transition of the chicken from yolk nutrition (in the last week of incubation) to dry food, but also with an unbalanced diet on nutrient and biologically active substances. The presence of mycotoxins in feed is one of the main feed stresses [1, 2, 3].

To identify the effectiveness of the inventive feed additives for feed stress experiments were conducted on chickens cross-country ROSS 308.

Of the broiler chickens, 3 groups were formed - 2 experimental and one control, 20 individuals each. Mycotoxin-contaminated feed (T-2 toxin - 0.95 mg / kg and zearalenone - 0.038 mg / kg) was fed to the bird within the upper boundary of the MDL.

The first group of experimental chickens was introduced into the feed affected by mycotoxins the claimed feed additive (the content of the components in accordance with example 1) in an amount of 2% by weight of the feed, the second experimental group was fed a known feed additive in an amount of 3% by weight of feed, chickens of the third (control) group no additives were received. The experiment was carried out for 20 days, while preservation, body weight, and clinical condition were taken into account. Laboratory studies of blood biochemical parameters were performed at the end of the experiment in five broilers from each group.

It was found that in broiler chickens who received mycotoxin-contaminated feed and the claimed feed supplement, no visible clinical symptoms of intoxication were observed, in the second experimental group some signs of mycotoxicosis began to appear on days 9-11, and in the control (starting from the 5th day of using infected feed) there was an increase in symptoms of intoxication. By the 10th day, five control chickens showed marked inhibition, they fell on their hind limbs and died on the following days. Safety in this group was the lowest, amounting to 75%, while in the 1st group this indicator was 100%, and in the 2nd group - 90%.

Adaptogenic properties of the additive were manifested by an increase in body weight of chickens against the background of feed stress. So, in the first experimental group, the average daily gain at the end of the experiment was 21.6% higher than the growth of control chickens and 2.7% higher than the growth of poultry of the second experimental group, which indicates a positive effect of the claimed feed additive on the development and growth of the bird ( Table 1).

The introduction of the inventive fodder supplement into the poultry diet was accompanied by positive changes in a number of biochemical parameters indicating the presence of adaptogenic properties (table 2).

The use of the claimed feed additive had a positive effect on protein metabolism, which was manifested by a significant increase in the first experimental group of total protein by 16.7% and urea by 17.1%, and in the second experimental group (using the well-known feed additive), respectively , 5% and 11.4% compared with control data.

Indicators of carbohydrate and fat metabolism in the group with the use of the declared feed additive also improved, which was realized in a higher concentration of glucose - by 20.2% and cholesterol - by 21.2% compared with their level in the control bird.

It was established by experiments that the use of the claimed feed additive against the background of feed stress positively affects the most important indicator of stress, which reflects the processes of lipid peroxidation of the body - malondialdehyde (MDA).

Thus, the MDA content in birds of the control group was higher than the values of broilers that received supplements by 33.3% (group 1) and 14.2% (group 2).

The effectiveness of the manifestation of adaptogenic properties of the claimed feed additives was tested in experiments on laying hens of the Lohmann-Brown cross. For the experiment, the bird was divided into three groups of 50 animals each, taking into account body weight, clinical status and level of productivity.

To simulate the production stress of rearrangement and transportation and the initiation of a stress reaction, we used shootling on a shooter apparatus with a frequency of mechanical movements of 160 per minute for two hours.

The first experimental group was fed the inventive feed additive (the content of the components in accordance with example 2) in an amount of 2% by weight of the feed, the second experimental group was fed a known feed additive in the amount of 3% by weight of the feed, hens of the third (control group) feed additives were not received. The dosage regimen of additives is 5 days before transportation, as well as on the day of its delivery.

To assess the state of the bird’s body under stress under the action of additives at the beginning of the experiment and three days after the stress load, individual serum biochemical parameters were determined, as well as the level of leukocyte migration activity (MAL), which in birds can serve as an indicator of the presence and degree of manifestation stress. The dynamics of changes in body weight (by individual weighing of the bird) was carried out before and at the end of the experiment.

At the end of the experiment, a significant decrease in MAL was established in all experimental groups. The biggest changes were observed in the hens of the control group - without the use of adaptogens. In the first experimental group, the decrease relative to the control was 24%, and in the second - 36%.

The introduction of the inventive fodder supplement into the poultry diet was accompanied by positive changes in a number of biochemical parameters, indicating the presence of adaptogenic properties (table 3).

The research results showed that the effect of the claimed additives on the poultry organism was manifested at the cellular level, by increasing the stability of cell structures. So, in the blood serum of poultry of the first experimental group, the concentration of AsAT and AlAT enzymes was significantly lower than in the control bird, with a difference in AcAT by 11.9% (P≤0.05) and in AlAT by 12.9%. In the second group (known additive), the changes were less pronounced.

A study of the dynamics of body mass of chickens under stress revealed significant changes: in the 1st group, during the transport stress, the bird lost 2.1% in weight; in the 2nd group - 4.7%; in the 3rd control group - 9.4% compared with the weight of the bird before stress.

Thus, the results of the study showed that the use of the inventive feed additive for stress (feed and transport) in birds indicates the presence of adaptogenic properties, which is confirmed by an improvement in their clinical status, normalization of the biochemical picture of blood and antioxidant status of the body, as well as an increase in growth body weight and livestock safety. The feed additive reduces the negative effects of stress and accelerates the process of adaptation of the bird to the action of adverse factors.

Claims (2)

A feed additive for poultry with adaptogenic action, including natural aluminosilicate and fumaric acid, characterized in that it contains bentonite as a natural aluminosilicate and additionally contains humic acid and betaine hydrochloride in the following ratio of starting components, wt.%: fumaric acid 1.0-2.0 humic acid 0.5-1.0 betaine hydrochloride 2.0-3.0 bentonite rest