RU2729386C1 - Method for prolonging reproductive period of chickens of parental flock - Google Patents

Abstract

FIELD: poultry farming.

SUBSTANCE: invention relates to poultry breeding, in particular to a method for increasing egg laying of laying hens of parent stock and quality of hatching eggs. Method is characterized by that in the diet of hens an extruded mixture is added, obtained from pumpkin cake of cold pressing with addition of two biologically active additives "Ekostimul-2" and "Lavitol-arabinogalactan", one of which contains dihydroquercetin and is introduced at rate of 4.0 mg of dihydroquercetin per 1 kg of live weight a day, and the second contains arabinogalactan and is introduced at rate of 4.4 mg of arabinogalactan per 1 kg of live weight a day. Mixture is extruded at pressure 50 atm, temperature 150 °C for not more than 5 s.

EFFECT: use of the invention enables metabolic processes activation, increases productivity and improves morphological indices and chemical composition of hatching eggs.

1 cl, 11 tbl

Description

The invention relates to poultry farming, in particular, to extend the life of the parent flock through feeding.

In the general technological system of egg and poultry meat production, pedigree farms occupy a special place. Preservation of the domestic base and the available gene pool for various types of poultry necessary to ensure the rhythmic work of industrial production, especially in the event of extreme conditions and situations in the world.

Currently, the number of hatching eggs obtained on an industrial scale is insufficient for the stable operation of poultry farms, given the increase in the production of eggs and poultry meat. Commercial farms of a number of subjects of the Russian Federation continue to import hatching eggs from abroad, spending large financial resources [9].

The problem of increasing the number of hatching eggs in the country can be partially solved by extending the period of use of hens of the parent flock, slowing down their reproductive aging while maintaining the productivity and quality of eggs, using biologically active additives and drugs in poultry feeding that have the ability to activate natural factors of resistance, not causing disturbances in the composition of the normal intestinal microflora.

Herbal preparations are increasingly used in the feeding of farm animals and poultry, including flavonoids and water-soluble polysaccharides. Among them is a bioflavonoid complex from Dahurian larch with a content of the main ingredient - dihydroquercetin of at least 70%, which is an active antioxidant that exhibits immunostimulating properties, and arabinogalactan, a water-soluble polysaccharide of plant origin, obtained from Dahurian larch wood, which contains molecules of arabinose, galactose and galactose aspect of immunobiological, hepato- and gastoprotective activity. Due to its prebiotic properties, arabinogalactan maintains the normal balance of the microflora of the gastrointestinal tract [10, 11].

According to the authors, the use of flavonoids in animal husbandry and veterinary medicine is a promising area of modern science. The use of the bioflavonoid complex of larch made it possible to increase the bactericidal activity of the blood serum of the experimental groups in comparison with the control by 3.2-18.7%, phagocytic activity - by 16.6-19.5%, the level of immunoglobulins - by 4.8-9.9 %) and, as a consequence, increase the average daily gain and improve the safety of animals [1].

It has been established that the combination of antioxidants dihydroethoxyquin and selenopyran in the diets of poultry of the parent flock has a positive effect on the resistance indicators of males in experimental groups due to the normalization of lipid peroxidation processes in their body [6].

Ecostimul-2 feed additive (TU 9364-010-70692152-2010) is a bioflavonoid complex from Daurian larch with a content of the main ingredient - dihydroquercetin not less than 70%.

"Lavitol-arabinogalactan" (TU 9325-008-70692152-08) is a water-soluble polysaccharide of plant origin, obtained from the wood of Dahurian larch, containing molecules of galactose and arabinose. Possessing the properties of a prebiotic, arabinogalactan maintains the normal balance of the microflora of the gastrointestinal tract. As a source of soluble dietary fiber, arabinogalactan improves nutrition, absorption and maintenance of a healthy gastrointestinal tract. In addition, arabinogalactan contributes to the formation of short-chain fatty acids, which are essential for the normal functioning of the body. The additives under study were developed by the specialists of AMETIS JSC (Amur Region).

According to the studies of other authors and the recommendations of the developers, dihydroquercetin, which is a part of the feed additive, clearly manifests its antioxidant, hepato- and capillary-protective, immunomodulating and radioprotective properties [3, 4, 5, 7, 8].

Pumpkin seed cake is a source of essential amino acids (including lysine - up to 3.28% of the protein level), macro- and microelements, including selenium (up to 3 mg / kg), rich in carotenoids and vitamin E. Pumpkin seed cake in its composition contains: wt%: crude protein - 22-37, crude fat - 21.15, crude fiber - 11.18 [2, p. 221].

Processing raw materials in an extruder effectively increases their nutritional value and digestibility. Heating the raw material to high temperatures causes dextrinization of starch, that is, the formation of readily soluble carbohydrates, and the presence of moisture in combination with high temperatures contributes to its gelatinization.

At the exit from the extruder, the temperature and pressure indicators drop sharply, which leads to an increase in the final product in volume. A rupture of the walls of fat cells occurs, as a result of which the energy value of the product increases. The stability of fats is increased due to the fact that enzymes such as lipase, which cause oil rancidity, are destroyed during the extrusion process, and lecithin and tocopherols, which are natural stabilizers, remain fully active.

It is known to use dihydroquercetin in compound feed for laying hens at a dose of 3.6 mg per 1 kg of live weight per day in combination with arabinogalactan at a dose of 3.6 mg per 1 kg of live weight per day, which led to an increase in egg production by 6.01% , reducing the cost of feed for 10 eggs and 1 kg of egg mass by 6.73 and 7.33%, reducing the accumulation of fat in the liver by 10.45%, slowing down the processes of lipid peroxidation, preventing fatty degeneration of the liver of birds [3].

It is known to use dihydroquercetin at a dose of 3.6 mg per 1 kg of live weight per day, arabinogalactan at a dose of 3.6 mg per 1 kg of live weight per day in the diet of hens of a parental herd of the Hisex brown cross, in combination with pumpkin cake in an amount of 5% from the mass of the diet. Due to the higher productivity of hens of the 1st and 2nd experimental groups, feed costs per 10 eggs decreased in comparison with the control by 0.63 and 1.27%. The quality of hatching eggs has increased - their usefulness, morphological and biochemical composition [4, prototype].

The technical result is an increase in bioavailability and assimilation of nutrients in the diet, activation of metabolic processes in the body of hens of the parent flock, increased productivity, improved morphological parameters and chemical composition of eggs.

This is achieved by the fact that in addition to the general economic ration, cold-pressed pumpkin cake in the amount of 5% of the diet weight, biologically active additives based on Daurian larch “Ecostimul-2” and “Lavitol-arabinogalactan” were introduced into the diet of the hens of the parental herd of the “Hisex brown” cross. »In terms of dihydroquercetin at a dose of 4.0 mg per 1 kg of live weight per day, arabinogalactan at a dose of 4.4 mg per 1 kg of live weight per day, followed by extrusion processing of the resulting mixture at a pressure of 50 atm., A temperature of 150 ° С within no more than 5 s.

An example of the implementation of the method.

A production check of the proposed feeding method was carried out in the conditions of a pedigree reproducer of the II order JV "Svetly" JSC "Agrofirma" Vostok "of the Volgograd region. The object of research was a bird of the parent flock of the Hisex brown cross. The bird was 21 weeks old, the experiment lasted 39 weeks.

The experiment was carried out on 210 birds, 70 birds in each group (control, I experimental, II experimental). Poultry of the control group received general economic ration (OP), experimental I - RR + 7.0 mg / kg of live weight "Lavitol-arabinogalactan" + 5% of cold-pressed pumpkin cake subjected to extrusion; Experimental II - RR + 4.0 mg / kg of live weight of the feed additive "Ecostimul-2" in terms of pure dihydroquercetin + 4.4 mg / kg of live weight "Lavitol-arabinogalactan" + 5% of cold-pressed pumpkin cake, extruded. The levels of adding additives to compound feed for hens of the parent flock were selected taking into account the results obtained from the use of dihydroquercetin and arabinogalactan in feeding broilers and industrial chickens by specialists from VNITIP (2017) (Table 1).

It was found that the productivity of chickens throughout the reference period (21-60 weeks) was high and corresponded to the breed standard, however, in the experimental groups, the egg production of laying hens exceeded the control (Table 2).

It should be noted that by the end of the second week of feeding the studied additives, egg production in the experimental groups exceeded the control by 1.03 and 6.54%. A similar pattern was observed throughout the entire experiment. During the reference period, the greatest number of eggs was obtained in the II experimental group - 18144, and in the I - 18028 pieces, which is higher than in the control by 508 and 392 eggs, or by 2.88 and 2.22%, respectively.

The studied blood parameters of the hens of the parent flock varied within the physiological norm (Table 3).

The concentration of erythrocytes in the blood of chickens from the experimental groups exceeded the control group by 17.95 and 25.21%, and hemoglobin increased by 8.06% and 9.69%, which indicates the saturation of blood with oxygen and more active oxygenation of cells and tissues of the body of chickens. ... In this case, the level of leukocytes, increased against the background of taking supplements, indicated an increase in general immunity, but the difference was not significant. The hematocrit index (HST) in the blood of chickens from the experimental groups significantly exceeded the control by 1.70 and 2.80%. The average volume of erythrocytes (MCV) and the average concentration of cellular hemoglobin (MCHC) in the blood of chickens in the experimental groups also exceeded the control, respectively, in experimental group I - by 1.82 and 1.51%, and in experimental group II - by 1.90 and 2, 22% respectively.

Biochemical blood parameters obtained during the experiment showed that in the body of chickens receiving a new feed additive with the diet, protein metabolism proceeds more intensively.

Thus, the content of total protein in experimental group I increased by 1.21, in experimental group II - by 2.45%, the level of the albumin fraction - by 4.21 and 6.23%, respectively. The content of the globulin fraction was at the control level.

The glucose content in the experimental groups exceeded the control by 9.01 and 15.44%, respectively. The level of total cholesterol decreased in experimental group I by 18.17%, in experimental group II - by 24.44% relative to control.

The indicators of the concentration of iron in the blood serum of the hens of the I experimental group were higher than the control by 8.73, in the II experimental - by 11.90%, magnesium - by 9.68 and 14.52%, calcium - 10.30 and 15.30% , phosphorus - by 6.98 and 9.30%, respectively.

At 30 weeks of age, the chickens were incubated eggs obtained from the experimental groups. Morphological analysis of eggs is presented in table 5.

Morphological analysis of the obtained incubation eggs showed that the weight of the eggs of the experimental groups exceeded the control by 1.22 and 1.78%. The increase in the weight of eggs was mainly due to the weight of the yolk, which increased by 1.52 and 1.99% relative to the indicators of the control group. In the experimental groups, the ratio of the mass of protein to the mass of yolk decreased to 1.91 versus 1.92 in the control, i.e. approached the level of normative indicators.

Also, an analysis of the quality of egg white was carried out by the protein index and the number of HOW units. The protein index in the experimental groups was significantly higher than the control by 0.51 and 0.67 units, and the number of CAU units - by 1.55 and 1.86%, respectively.

The thickness of the eggshell of laying hens in the experimental groups exceeded the control by 1.10 and 2.76%.

It was found that the introduction of new feed additives into the diet of laying hens, the acid number of the yolk significantly decreased by 8.71 and 17.65%, which indicates the possibility of a longer period of preservation of high incubation qualities in eggs.

Studies of the vitamin composition of eggs (yolk, white) showed that the content of carotenoids in the yolk of eggs obtained from hens of the experimental groups exceeded the control by 7.18 and 10.45%, vitamin A - by 16.26 and 19.82%, vitamin B ₁ - by 9.39 and 11.39%, vitamin В ₂ - by 9.46 and 11.40%, and the concentration of vitamin E decreased by 6.53 and 3.10%.

Such a significant increase in vitamins in the hatching eggs of hens from the experimental groups can be explained by the fact that the biologically active substances contained in the tested additives activated metabolic processes, including the synthesis and assimilation of vitamins due to the fact that the additives enter the poultry body in the form of an extrudate.

The chemical composition of the hatching eggs is shown in Table 7.

It was noted that in eggs obtained from laying hens of the experimental groups, there was an increase in the protein content in the protein part of the eggs by 0.22 and 0.31%, and in the yolk by 1.1 and 1.22%.

The fat content in the protein was at the level of the control group, and in the yolk it exceeded the control by 0.02 and 0.09%.

The amino acid content in the eggs of the experimental groups was within the physiological norm (Table 8).

Thus, in experimental group I, where the bird received an extruded mixture of arabinogalactan in combination with cold-pressed pumpkin seed cake, there is an increase in a number of amino acids relative to the control: arginine by 16.48, alanine - by 16.33, isoleucine - by 5.08, lysine - by 10.94 and proline - by 17.39%. In experimental group II, where the poultry received an extruded mixture of arabinogalactan in combination with dihydroquercetin and cold-pressed pumpkin seed meal, a more significant increase in the content of a number of amino acids was observed in relation to the control: aspartic acid by 27.78, arginine by 27.47, alanine - by 19.39, isoleucine - by 10.17, leucine - by 13.92, lysine - by 17.19 and proline - by 26.03%.

It should be noted that in the experimental groups there was a tendency to an increase in sulfur-containing amino acids (cystine, methionine), as well as glycine and threonine. Along with an increase in the level of the listed amino acids, a slight decrease in glutamic acid, histidine, tyrosine, and valine was observed in the eggs of the experimental groups.

The amount of amino acids in the eggs of the experimental groups significantly exceeded the control by 7.58 and 12.46%. The data obtained indicate that the additives under study activated metabolic processes in the body of chickens of the parent flock and positively influenced the quality indicators of hatching eggs, in particular, their amino acid composition.

The content of chemical elements in the hatching eggs was within the physiological norm (table 9).

In the course of the research, it was found that as a result of feeding the studied supplements in the diets of hens of the parent flock, the concentration of calcium in the hatching eggs of the experimental groups increased in relation to the control by 8.01 and 16.26%, phosphorus - by 3.95 and 7.23%.

The obtained results of the analysis made it possible to establish that the content of heavy metals, such as arsenic, cadmium, mercury, decreased or was at the level of permissible values, and the level of chromium decreased by 2 times. As a result, it can be concluded that the studied additives of arabinogalactan and dihydroquercetin normalized mineral metabolism in the body of chickens and positively influenced the quality of hatching eggs.

Before incubation, the eggs were selected by their appearance and by transillumination on an ovoscope. During external examination of eggs, their weight, shape, condition and quality of the shell were taken into account.

The data obtained as a result of incubation showed that in all experimental groups the hatching of chickens was high and corresponded to the standards characterizing the cross (table 10).

The results of incubation made it possible to establish a positive effect of the studied additives on the hatchability of eggs, which in the II experimental group exceeded the control by 4.04% and was 84.29 versus 82.38 in the control. In experimental group I, the excess was 2.32%. A higher hatchability of eggs in the experimental groups was obtained due to an increase in egg fertilization and a decrease in the number of embryo deaths in the first 7 days of incubation.

This indicates biologically complete feeding of the hens of the parent flock. At the end of the experiment (age 58 weeks), we re-incubated the eggs, which showed good results, which confirmed the effect of the studied additives on the quality of hatching eggs (table 11).

As a rule, as the bird ages, the number of fertilized eggs decreases and, accordingly, the hatchability of eggs decreases. The data obtained indicate that in the control group the number of unfertilized eggs exceeded the experimental ones by 0.95 and 1.67% and amounted to 32 eggs, versus 28 and 25 in the experimental groups. The number of frozen embryos in the first seven days of incubation (this indicator is directly related to feeding the hens of the parent flock) was lower than in the control by 0.48 and 0.24%. This, most likely, can be explained by the fact that the birds of the experimental groups received dihydroquercetin and arabinogalactan as part of the premixes, which contributed to the preservation of high quality indicators of hatching eggs.

Studies have established that the biologically active substances that make up the feed additive "Ecostimul-2", the drug "Lavitol-arabinogalactan" and cold-pressed pumpkin cake, subjected to extrusion, in the diets of chickens of the parental herd of the cross "Hisex Brown" activated metabolic processes in their bodies , which made it possible to increase productivity, improve morphological parameters and chemical composition of eggs, both the protein part and the yolk. However, it should be noted that the combined use of extrudate from dihydroquercetin, arabinogalactan and cold-pressed pumpkin cake at the rate of 4.0 mg + 4.4 mg per 1 kg of live weight per day and 5% of cake by weight had a more significant effect on the body of chickens of the parent flock. diet (II experimental group).

Sources of information taken into account in the examination:

1. Avdonina, O.O. The influence of a new biologically active additive on the natural resistance of broiler chickens / O.O. Avdonina, M.V. Pchelinov, S.V. Naumova // Scientific Notes of the Kazan State Academy of Veterinary Medicine. N.E. Bauman, 2013 .-- S. 20-24.

2. Gorlov, I.F. Biological value of basic food products of animal and plant origin. - Volgograd, 2000 .-- 264 p.

3. Egorov, I.A. The use of dihydroquercetin and arabinogalactan in compound feed for laying hens / I.A. Egorov, E.N. Andrianova, E.N. Grigorieva, A.V. Ksenofontov // Poultry and poultry products. - 2018. - No. 1. - S. 12-15.

4. Gorlov, I.F. Biologically active additives from Daurian larch in the diets of chickens of the parental herd of the cross "Hisex brown" / I.F. Gorlov, Z.B. Komarova, O.E. Krotova et al. // Poultry and poultry products. - 2019. - No. 2 - P. 37-40.

5. Mehansho, H. Arabinogalactan fiber composition containing milk or soy proteins / H. Mehansho, R.V. Nunes, A.L. Durr, R.I. Mellican, S.E. Manchuso // PCT Int. Appl. WO 2002026054 A2. 2002. / CA 2002. V. 136.262300.

6. Omarov, M.O. Research of the new generation antioxidant dihydroquercetin in broiler chicken diets / M.O. Omarov, O.A. Slesarev, S.O. Osmanova // Collection of scientific papers of the North Caucasian Research Institute of Livestock, 2016. - V. 5. - No. 2. - S. 96-101.

7. Ostrenko, K.S. The role of antioxidants in compound feed for roosters of parental herd / K.S. Ostrenko, V.A. Galochkin, G.I. Boryaev, V.P. Galochkina // Poultry. - 2018. - No. 8. - S. 23-25.

8. Riha, W. Low-calorie beverages containing high-intensity sweeteners and arabinogalactan / W. Riha, M. Jager // U.S. Pat. Appl. Publ. US 20020004092 A1. 2002. / CA 2002. V. 136: 53045.

9. Torshkov, A.A. Quality indicators of broiler meat when using bioflavonoids // Modern problems of science and education. - 2011. - No. 2; URL: www.science-education.ru/96-4601 (date of access: 09.08.2011).

10. Fisinin, V.I. Creation of highly productive breeds and crosses of animals and birds / V.I. Fisinin // Bulletin of the Russian Academy of Sciences. - 2017. - T. 87. - No. 4. - S. 333-336.

11. Fomichev, Yu.P. Dihydroquercetin and arabinogalactan - natural bioregulators in human and animal life, application in agriculture and food industry: monograph / Yu.P. Fomichev, L.A. Nikanov, V.I. Dorozhkin and others - Moscow, ed. House "Scientific Library". - 2017 .-- 702 p.

Claims (1)

A method of increasing the egg production of laying hens of the parent flock and the quality of hatching eggs, including the introduction of a protein-carbohydrate complex and biologically active additives into the diet of chickens, characterized in that cold-pressed pumpkin cake is used as a protein-carbohydrate complex, and as biologically active additives "Ecostimul-2" and "Lavitol-arabinogalactan", one of which contains dihydroquercetin and is administered at the rate of 4.0 mg of dihydroquercetin per 1 kg of live weight per day, and the second contains arabinogalactan and is administered at the rate of 4.4 mg of arabinogalactan per 1 kg live weight per day, followed by extrusion processing of the resulting mixture at a pressure of 50 atm., a temperature of 150 ° C, for no more than 5 seconds.