RU2753364C1 - Method for stimulating growth and development of quail in early ontogenesis - Google Patents

Abstract

FIELD: poultry farming.SUBSTANCE: invention relates to poultry farming, in particular to a method for stimulating the growth and development of quail in early ontogenesis. The method is characterized by the fact that an aqueous solution of colamine, succinic acid, serine and pyridoxine hydrochloride in concentrations of 0.1%, 0.1%, 0.2%, 0.2%, 0.001% is applied to the surface of the hatching egg shell from a spray bottle 3-4 hours before incubation respectively. The preparations are preliminarily dissolved in distilled water at 18-22°С.EFFECT: use of the invention will stimulate the growth and development of quail in early ontogeny.1 cl, 5 tbl, 4 ex

Description

This invention relates to agriculture - poultry farming, namely, quail farming (pre-incubation application of a solution containing colamine, batch, succinic acid and pyridoxine hydrochloride).

It should be noted that for the quail breeds of the meat and egg direction, the growth and development rate of individuals is of great importance.

At the same time, the organism of such quail breeds faces a difficult task: to ensure a high level of egg production without significant loss of live weight by the end of the growing cycle before being sent for slaughter. That is why stimulation already in the embryonic period of development with biologically active substances is necessary, since it was previously proved that in this case, individuals hatched from eggs treated with biologically active substances are ahead of their peers in the control batch, both in weight and in the quality of development (Lugovaya I. .S., 2018).

Known processing of hatching eggs with solutions of colamine, succinic acid, serine and pyridoxine hydrochloride in order to stimulate the embryonic development of chickens (Azarnova T.O., 2020). Succinic acid and its salts have an adaptogenic ability and have antihypoxic, antioxidant and neurotropic effects, normalize energy, plastic metabolism and the general physiological state of the body (Evlevsky A.A., 2013). Colamine inhibits the oxidation of fats, vitamin A and other compounds with unsaturated carbon bonds, takes an active part in redox processes in the body of animals, optimizes phosphorus and protein metabolism and, therefore, is a growth stimulant (Shipunova N.N., 2014). In turn, the series is a glycogenic amino acid, which is part of the phospholipids of cell membranes and active centers of many enzymes (Garaeva S.N., 2009). Vitamin B6 (pyridoxine hydrochloride) is a water-soluble vitamin, the active form of which is phosphorylated derivatives - pyridoxal phosphate and pyridoxamine phosphate. Pyridoxal phosphate is part of many enzymes that are involved in various metabolic processes. So, for example, it is a coenzyme of decarboxylases, transaminases, kenureninase, tryptophan synthase, cysteinonase. With the participation of vitamin B6, the reaction of the formation of 5-aminolevulinic acid (heme synthesis) and the synthesis of arachidonic acid proceed, it also contributes to a more efficient use of glucose. In medicine and veterinary medicine, vitamin B6 is used in the form of pyridoxine hydrochloride. In the process of metabolism, it is absorbed in the small intestine and turns into active forms. The products of its metabolism are excreted by the kidneys and are not toxic (Loginova N.Yu., 2017). It should be noted that pyridoxine is able to influence the exchange of amino acids, playing a key role in transamination, decarboxylation, and oversulfurization. Together with serine, it participates in the synthesis of sphingolipids. It also takes part in the formation of biogenic amines vital for the body, such as, for example, colamine. Pyridoxine is able to interact with succinic acid, with the formation of oxypyridines, the spectrum of antioxidant and antihypoxant action of which is quite wide (Loginova N.Yu., 2017). Thus, the addition of a previously studied composition consisting of colamine, succinic acid and serine with vitamin B6 expands the spectrum of antioxidant, hematoprotective, metabolism-stimulating antihypoxic action of the previously proposed biologically active substances, providing the prerequisites for a better formation of tissues, organs, and the whole organism.

It should be noted that this composition of the studied metabolites has never been used to stimulate the growth and development of quail breeds of meat and egg productivity in early ontogeny.

This method, taken by us as a prototype, consists in the fact that colamine, succinic acid, serum and pyridoxine chloride were used to process the eggs of beef cross hens. The hatch rate of chickens was 2.47% higher and amounted to 91.67% (versus 89.20% in the control). Moreover, the constituents of this composition have never been used to treat hatching quail eggs.

The purpose of the invention is to stimulate embryonic growth and development of quails in early ontogenesis without further loss of their productive qualities by pre-incubation treatment of eggs before laying them for incubation with an aqueous solution of the composition: pyridoxine hydrochloride, serine, succinic acid and colamine, taken in optimal concentrations.

The method is carried out as follows.

An aqueous solution of biologically active substances - colamine, succinic acid, serine and pyridoxine hydrochloride in concentrations: 0.1% 0.1% ", 0.2 %, 0.001%, respectively. They are preliminarily dissolved and mixed in distilled water at a temperature of 18-22 ° C. The stated concentrations were found in a series of previous experiments and were optimal for this type of poultry.

All studies were carried out according to generally accepted methods.

Example 1. Eggs of Manchurian quails were obtained from one parent flock, sorted by 270 pieces in each batch, observing the same weight, laying time and shelf life. A solution of preparations was applied to the surface of the shell from a spray bottle according to the above scheme. As a control, eggs of the same batch were selected according to the principle of analogues, which were processed according to the technology adopted in the farm.

The composition of the studied biologically active substances had a positive effect on the development of embryos at all stages of embryogenesis (table 1).

It follows from Table 1 that the hatching of chickens in the experimental batch exceeds the control by 5.93%, and the hatchability of eggs by 2.82%. against the background of the normative values of the indicator due to the implementation of a wide range of unique, including antioxidant and metabolism-stimulating properties of the composition used (Lugovaya I.S., 2019). Data of L.V. Kulikov (2002) suggest that it is very difficult to make meaningful differences between experience and control in this case. He also proved that high viability of embryos is always associated with higher rates and quality of development, both of embryos and individuals in further ontogenesis, which was confirmed in the following table.

Example 2. The obtained young growth of the experimental and control groups was evaluated according to the subjective-objective criteria "Pasgar" and "Optistar". The results are shown in Table 2.

As can be seen from the table, in the experimental group there is a superiority in the quality of young animals according to the criteria "Pasgar" by 1.2 and "Optistart" by 0.8 points in comparison with the control. It should be noted that when assessing young stock according to these quality scales from the highest value equal to 10, the quails lose points for deviations in development.

It should be noted that the “neck muscle tone” and “behavioral reflex” in the experimental group were more pronounced (turning the chicks from back to legs took less than two seconds than in the controller, umbilical ring defects were less common in the experimental animals.

The foregoing, according to T.O. Azarnova (2020) indicates that the action of the declared biologically active substances helps to optimize the conditions and quality of embryo development. This is also confirmed by the data in Table 3. Example 3. The live weight of the obtained quails of daily and 45 days of age was determined (Table 3).

As can be seen from the table, in the quails of the experimental group, the live weight at one day of age exceeds the control by 8.13%, which indicates a higher growth rate of the former. According to A.P. Ageechkin. (2010) the weight of one day old calves correlates with the further weight and productivity of an individual. So, in further ontogenesis (45 days before slaughter), the mass of quails in the experimental group exceeded the control by 1.4 times (p <0.05), which confirms the above, as well as the statement about the positive effect of biologically active substances on the growth rate of meat and egg quails. ...

Example 4. In the process of growing, the obtained quails were measured in order to determine the further meat productivity of tables 4, 5).

As can be seen from the table, the chest girth in quails of the experimental group is significantly greater by 12%, which, according to A.P. Ageechkin, (2010) indicates a high meat productivity of these individuals. In addition, their pelvic width was significantly greater by 6% than in the control. On the basis of the presented results, the most significant indices for production were calculated (Table 5).

It follows from the table that the value of the declared indices in the experienced quails is higher than in the control ones. Thus, in the experimental group, the broad-bodied index increased by 1.37%, which directly determines the future productivity, determining the level of egg production of an individual (Ageechkin A.P., 2010). In turn, the "downsizing" index significantly increased by 15.02%, which indicates a higher level of meat productivity of quails in the experimental group. The results obtained agree with the literature data (Kulikov L.V., 2002).

It should be noted that the beginning of oviposition occurred in the control quails on the 43rd day of life, while in the experimental ones, on the 42nd day. At the same time, the weight of the first laid eggs in both groups was approximately equal, and the subsequent productivity of individuals tended to increase in the experiment, but did not differ significantly from the control. Thus, the proposed method of processing hatching eggs with a composition of biologically active substances determines a higher quality of formation of individuals, greater meat productivity, in the absence of a decrease in egg production - an important link in meat and egg quailing.

Literature:

1. Azarnova T.O., Lugovaya I.S., Kochish I.I., Naydensky M.S., Lugovoy M.M., Antipov A.A. / A method for optimizing the histogenesis of the gastrointestinal tract in chick embryos of the meat direction of productivity using biologically active substances before incubation, increasing and synchronizing the hatching of chickens through the prevention of oxidative stress in chick embryos // patent No. 2711748 dated 01.21.

2. Evglevsky, A.A. Biological role and metabolic activity of succinic acid / A.A. Evglevsky, G.F. Ryzhkova, E.P. Evglevskaya, N.V. Vanin, I.I. Mikhailova, A.V. Denisova, N.F. Eryzhenskaya // Bulletin of the Kursk State Agricultural Academy. - 2013. - No. 9. - S. 67-69.

3. Shipunova, N.N. The influence of monoethanolamine on the main substrates of animal glycolysis / N.N. Shipunova, N.A. Lushnikov // Chief zootechnician. - 2014. - No. 5. - S. 56-59.

4. Garaeva, S.N. Amino acids in a living organism / S.N. Garaeva, G.V. Redkozubova, G.V. Postolati. - Publishing house of the Academy of Sciences of Moldova, 2009. - 552 p.

5. Loginova, N.Yu. Vitamin B6: General aspects of metabolism / N.Yu. Loginova // In the collection: Fundamental and applied scientific research: topical issues, achievements and innovations collection of articles by the winners of the V International scientific and practical conference: in 4 parts. - 2017 .-- S. 226-229.

6. Lugovaya, I.S. Prevention of stress-induced disorders in chick embryos with transovarial use of natural metabolites: dissertation. … Candidate of biological sciences: 06.02.05; 03.01.04 / Lugovaya Inessa Sergeevna; [Place of protection: Mosk. state acad. veterinarian of medicine and biotechnology named after K.I. Scriabin. Cafe. int. non-infection, animal diseases]. - Moscow, 2018 .-- 180 p.

7. Lugovaya, I.S. Optimization of the histogenesis of the gastrointestinal tract organs in chicken embryos during aerosol treatment of hatching eggs with biologically active substances / I.S. Lugovaya, T.O. Azarnova, I.I. Kochish, M.S. Naydensky, A.A. Antipov // Bulletin of Russian agricultural science. - 2019. - No. 5. - S. 73-76.

8. Ageechkin, A.P. Industrial poultry farming / A.P. Ageechkin, F.F. Alekseev, A.V. Aralov et al. Ed. IN AND. Fisinin. - Sergiev Posad: GNU VNITIP Russian Agricultural Academy, 2010 .-- 599 p.

9. Kulikov L.V. Workshop on poultry farming: Textbook. allowance. - M .: Publishing house of RUDN, 2002 .-- 234 p.

Claims (1)

A method for stimulating the growth and development of quails in early ontogenesis, characterized by the fact that an aqueous solution of colamine, succinic acid, serine and pyridoxine hydrochloride in concentrations of 0.1%, 0.1 %, 0.2%, 0.001%, respectively, and the preparations are preliminarily dissolved in distilled water at 18-22 ° C.