RU2760982C1 - Method for increasing viability of turkeys during main critical stages of development - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture, particularly, to a method for increasing viability of turkeys in the embryonic and postembryonic stages of development. The method is characterised by the fact that water solutions of colamine, succinic acid, serine and pyridoxine hydrochloride at concentrations of 0.1%, 0.1%, 0.2%, 0.5%, respectively, obtained by dissolving in distilled water at a temperature of 18 to 22°C, are applied to the surface of the shell of hatchery eggs from a pulveriser 3 to 4 hours prior to incubation.EFFECT: use of the invention allows increasing viability of turkeys.1 cl, 3 tbl, 2 ex

Description

This invention relates to the field of agriculture, namely, turkey breeding (pre-incubation application of a solution containing colamine, serine, succinic acid and pyridoxine hydrochloride).

It is known to treat incubation eggs with solutions of colamine, succinic acid, serine and peridoxin hydrochloride in order to stimulate the embryonic development of hens, egg crosses (1). Succinic acid and its salts have an adaptogenic ability and have antihypoxic, antistress, antioxidant and neurotropic effects, normalize energy and plastic metabolism and the general physiological state of the body (2). 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 (3). In turn, serine is a glycogenic amino acid that is part of the phospholipids of cell membranes and active centers of many enzymes (4). 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 a part of many enzymes that take multiple roles in 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 δ-aminolevulinic acid (synthesis of the theme) and the synthesis of arachidonic acid occur, and 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. Its metabolic products are excreted by the kidneys and are not toxic (5). It should be noted that pyridoxine affects the exchange of amino acids, taking part in transamination, decarboxylation, and oversulfurization. So, enzymes, which include phosphopyridoxal, promote the transfer of sulfur from methionine to the batch and the formation of cysteine. Together with serine, it participates in the synthesis of sphingolipids. It also takes part in the formation and transformation of various vital biogenic amines, such as, for example, colamine, GABA, serotonin and a number of others. Pyridoxine is able to interact with succinic acid, with the formation of hydroxypyridines, the spectrum of antioxidant and antihypoxant action of which is quite wide (5). 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 effects of the previously proposed biologically active substances, providing the prerequisites for a better formation of tissues, organs, the whole organism, as well as further viability.

As is known, and this is indicated by many authors, turkeys are among the most stress-sensitive birds, while the mortality rate of individuals in the main critical periods of embryogenesis and early postembryogenesis is especially high (Ageechkin A.P., 2010). In this regard, the normative conclusion for turkey farms in the Russian Federation is only 75%, while in the poultry industry it is more than 80-85% (Bessarabov B.F., 2015), while the consumption of turkey meat by society has only recently increased by 5-7% (Zimnyakov E.N., 2017). This increases the importance of finding ways to increase the viability of this particular type of poultry.

This method, which we took as a prototype, consists in the fact that colamine, succinic acid, serine 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). At the same time, the constituents of this composition have never been used to treat hatching eggs of turkeys in order to increase their viability in ontogenesis.

The purpose of the invention is to increase the embryonic and postembryonic viability of turkeys in the main critical periods of development 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%, 0.5%, respectively, is applied to the surface of the shell 3-4 hours before incubation from a spray bottle. they are dissolved and mixed in distilled water at 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 turkeys of the Hybrid Converter cross were obtained from one parent flock, sorted by 208 pieces in each batch, observing the same weight, laying time and shelf life. A solution of the studied BAS 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 the table that the hatching of chickens in the pilot batch exceeds the control by 6.73%, and the hatchability of eggs by 4.43%, which is due to a decrease in most incubation waste, in particular such as: "infertile" by 1.5 times, obviously, by reducing the "false fetus"; “Frozen” by 1.25 times, “suffocated” by 1.8 times, respectively, compared with the control. Data from Tagirov M.T. (2012) confirm that the first days of incubation in birds are a critical period due to the development of hypoxia in embryos due to the absence of formed chorioallantois. Thanks to the components of the composition of biologically active substances, which are antigopoxants and antioxidants, it was possible to reduce the "number of false infertility." Vitamin B6 according to N.Yu. Loginova. (2017) also prevents the development of muscle cell hypoxia (5,6), which in turn largely caused such a significant difference between experience and control in the categories of "suffocated" and "weak".

It should be noted that according to M.T. (2009) and Farkhutdinova P.P. (2006), hypoxia determines the likelihood of functioning of only a small number of mitochondrial respiratory chains, which, under conditions of oxygen deficiency, are even more susceptible to the effects of negative environmental factors that cause disruption of synthesis and unjustified energy losses, intensification of free radical reactions, with a rapid depletion of antioxidant reserves. Meanwhile, the presented substances, possessing multifaceted antioxidant properties, prevent excessive intensification of the declared negative processes, and at the same time lipid peroxidation, reducing the likelihood of destruction and creating the prerequisites for a more complete formation of cell membrane structures (7, 8).

Example 2. In the obtained turkey poults, the main products of lipid peroxidation were determined (table 2). According to Fisinin V.I. (2012) hyperintensification of free radical oxidation with the subsequent formation of LPO play a key role in reducing the mechanisms of physiological adaptation, which leads to a weakening of the body and an increase in susceptibility to infectious diseases. It is the first days of life after hatching of a bird that are the most crucial stage in the formation and implementation of physiological adaptation mechanisms that affect the subsequent viability of individuals (9).

Note. Here: * p <0.05; ** p <0.01; *** p <0.001; SDS - isolated double bonds, DC - diene conjugates, TK - triene conjugates, ODA - oxodienic conjugates, OR - Schiff bases, AOA - antioxidant activity.

It is known that LPO products presented in Table 2 are toxic to cells, reducing the efficiency of formation and implementation of physiological adaptation mechanisms (9).

As can be seen, in the experimental group, lipid peroxidation indices were significantly lower: IDS by 1.47 times (p <0.01), DC by 1.67 times (p <0.01), MC by 1.46 times (p <0 , 05), APC by 1.48 times (p <0.01), OR by 1.3 times relative to control, which is a prerequisite for a better formation of tissues and organs in individuals, and at the same time a better functionality of the latter in ontogenesis.

At the same time, AOA in the experimental group was 1.4 times lower (p <0.01), which is probably due to the absence of the need to increase it at a given time in the body due to the absence of a number of stresses that we often observe in conditions of other poultry farms at hatching and / or immediately after (but before the collection of young stock for research), for example, delay in the incubator, increased stocking density, etc.

The above data determine the long-term effect of the aftereffect of the studied composition of biologically active substances, expressed in an increase in viability not only in the embryonic (table 1), but also postembryonic (table 2) periods of development.

This is confirmed by the positive dynamics of the safety of the livestock in the main critical periods of the postembryonic development of turkeys (Ageechkin A.P., 2010), presented in Table 3.

It follows from the table that the most difficult stage of the development of physiological adaptation, coinciding with the first days of rearing, in the experimental group of turkeys passed with a smaller number of deaths (9). In general, during the growing period, the safety increased by 1% relative to the control.

Thus, the use of this composition before the incubation of turkey eggs promotes better physiological adaptation of experimental individuals, increasing their viability in ontogenesis.

Literature

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Claims (1)

A method for increasing the viability of turkeys in the embryonic and postembryonic periods of development, characterized by the fact that aqueous solutions of colamine, succinic acid, serine and pyridoxine hydrochloride in concentrations of 0.1%, 0 1%, 0.2%, 0.5%, respectively, obtained by dissolving in distilled water at a temperature of 18-22 ° C.