RU2507739C1 - Method of early assessment of laying hens in breeding - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, particularly the breeding of poultry. The method of early assessment of laying hens comprises selection of eggs by weight, shape index and shell defects before loading for incubation. At that the embryos are additionally evaluated by the intensity of the embryonic development in the period of incubation by determining on the 18-19 hour of incubation of the diameter of the embryo and determining at the 63-64 hour of incubation of the diameter of the yolk sac vascular field. At that the embryos are selected which diameter of the yolk sac vascular field is not less than 20 mm, and the difference between the diameters of vascular field and the embryo is in a range of 10-15 mm. The method enables to improve hatchability, safety of chickens up to 16 weeks of age, egg-laying capacity of hens for 45 weeks of life, and to accelerate the onset of puberty of hens at 4.0-5.0 days.

EFFECT: highly significant proportion of genotypic variability in the intensity of embryonic development in the offspring phenotype and correlation with economically useful signs.

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Description

The invention relates to agriculture, in particular to breeding poultry.

Currently, in poultry breeding, assessment and selection by productive traits is shifted to an earlier date. In the search for indicators to evaluate the bird at an early age with a prediction of its subsequent productivity, the process of embryonic development seems interesting, since it is during this period that all biological systems responsible for subsequent productivity are laid down, and the ability of the embryo to develop outside the mother’s body allows an assessment in the early stages of ontogenesis.

A known method for assessing the development of chicken embryoshell eggs in the first day of incubation, proposed by Professor Orlov MV (Orlov M.V. Biological control in incubation. - M., Rosselkhozizdat, 1966. - 164 p.). The author evaluated chicken embryos by the time of blastodisc appearance by ovoscopy in the first hours after the start of incubation. At the same time, it was noted that the embryos in which the blastodisc was visible earlier continued to develop more intensively, and the hatchability of such eggs was higher. In the experiments of Nakhlupina N.S. (Productive qualities of white leggorn chickens depending on their embryonic development // Materials of the 12th conf. Of young scientists VNITIP. - M., 1970. - P. 52-56) it was found that the incubation quality of eggs in which embryos developed intensively, were higher, and hatched chickens had higher safety and productivity, compared with slowly developing.

However, these methods of assessment were laborious and often took eggs on the 1st, 2nd, 11th, 20th day of incubation in order to score the intensity of embryonic development. At the same time, the facts were not taken into account that the process of germ cell division begins in the chicken oviduct and when laying in the incubator there are large variations in the degree of embryo development.

The basis of our proposed method is tasked to: determine the genetic potential of the egg productivity of chickens in early embryonic development when using birds for breeding purposes.

The problem is achieved by the method of early assessment of egg chickens during selection, including selection of eggs by weight, shape index and shell defects before laying in the incubation, characterized in that the embryos are additionally evaluated by the intensity of embryonic development during the incubation period by determining the diameter for 18-19 hours of incubation embryos and determination for 63-64 hours of incubation of the diameter of the vascular field of the yolk sac, then embryos are selected for which the diameter of the vascular field of the yolk sac is not less than 20 mm, and the difference between the diameter mi of the vascular field and embryo is in the range of 10-15 mm.

The technical result consists in increasing the genetic potential of the egg productivity of breeding chickens, namely in increasing egg production. Evaluation and selection of individuals with a more valuable genetic potential for egg productivity in early embryonic development allows to increase the productive and reproductive qualities of chickens, more efficiently use egg places in modern incubators and production facilities intended for breeding poultry, which helps to reduce the cost of incubating and raising young stock.

An example of a specific application.

The studies were performed on chickens of the white leggorn breed of the maternal line SP 9, the maternal form of cross SP 789 in the VNITIP EPH.

For the experiment, 10 breeding nests were selected by random sampling at a sexual ratio of ♂1: ♀9. The nests were staffed in terms of productivity according to the breeding plan provided for in the farm. The productivity indicators of chickens selected for research are presented in table. one.

Table 1 Productivity of chickens selected in nests Indicator M ± m δ Cv% Live weight of chickens at 16 weeks of age, kg 1.28 ± 0.01 0.1 7.8 Puberty, days * 139.8 ± 0.86 8.2 5.9 Egg production per surviving layer over 45 weeks of life, pcs. 158.1 ± 1.00 9.5 6.0 Egg weight at the 30-week-old age of hens, g 61.4 ± 0.22 2.1 3.4

During the reproduction period, the hatching egg obtained from the experimental bird was selected by weight, shape index, and shell defects before laying in the incubation (Guidance on biological control when incubating eggs of farm birds (Methodological recommendations) / L.F.Dyadichkina, N.S. Pozdnyakova , O.V. Glavatskikh, etc. - Sergiev Posad, 2010 .-- 84 p.). The embryo development intensity was taken into account according to the scheme: at 18-19 hours of incubation, the embryo diameter was measured; at 63-64 hours of incubation, the diameter of the vascular field of the yolk sac was measured. The measurements were carried out using a caliper with an accuracy of 0.1 mm without opening the shell. Based on the data obtained, the difference between the diameters of the vascular field of the yolk sac and the embryo was calculated for each embryo, which served as the main sign of selection into groups.

By biometric analysis of the data according to the generally accepted technique (Merkuryeva E.K., Shangin-Berezovsky G.N. Genetics with the basics of biometrics. - M., 1983. - 400 p.) The offspring of the experimental bird was divided into 3 groups according to development intensity: the first group with intensive development included embryos above the average by 0.55 (M + 0.5δ); the second with average values ± 0.4δ (M ± 0.4δ) and the third group with slow development below the average by 0.5δ (M-0.5δ) (Table 2).

table 2 The intensity of the embryonic development of the experimental bird Indicator Embryonic Development Groups For all examined 1 intense 2 medium 3 slow M ± m Cv% M ± m Cv% M ± m Cv% M ± m Cv% The diameter of the embryo at 18-19 hours of incubation, mm 7.4 ± 0.09 25.5 8.5 ± 0.07 19.9 8.7 ± 0.10 23.7 8.2 ± 0.05 23.5 The diameter of the vascular field of the yolk sac at 63-64 hours of incubation, mm 23.4 ± 0.11 9.0 21.1 ± 0.08 8.8 17.5 ± 0.13 14.7 20.7 ± 0.08 15.1 The difference between the diameters of the vascular field of the yolk sac and the embryo, mm 16.0 ± 0.08 9.7 12.6 ± 0.04 7.3 8.9 ± 0.09 20.1 12.5 ± 0.08 24.4

As can be seen from Table 2, the diameter of the embryo in the first group was significantly (at p <0.05) less than in the second and third by 1.15 and 1.26 mm, respectively.

The embryos of the first group had a significantly (at p <0.001) larger diameter of the vascular field compared with the second by 2.3 mm and compared with the third by 5.9 mm, if we compare the values of this indicator with all the studied embryos, the difference was 2, 7 mm.

The difference in diameters of the embryo of the chicken embryo was significantly (at p <0.001) greater in the first group than in the second and third by 3.4 mm and 7.1 mm, respectively. The difference between this indicator between the embryos of the first group and all studied was 3.5 mm.

Indicators of hatchability and preservation of the studied livestock up to 16 weeks of age by groups of embryonic development are shown in table 3.

Table 3 Reproductive qualities of eggs in groups of embryonic development Indicator Embryonic Development Groups For all examined 1 - intensive 2 - medium 3 - slow Conclusion,% 74.8 ± 1.96 72.6 ± 1.63 63.8 ± 2.19 70.8 ± 1.10 The safety of chickens up to 16 weeks of age,% 91.5 ± 1.46 89.1 ± 1.35 85.4 ± 2.01 88.9 ± 0.90

As follows from the data in Table 3, the hatchability (%) of chickens was significantly (at p <0.001) higher in the first and second groups compared with the third by 11.0% and 8.8%, respectively. The safety of chickens up to 16 weeks of age was higher in the first and second groups by 6.1% and 3.7% compared with the third (significantly at p <0.001).

After reaching 16 weeks of age, the chickens were evaluated on the exterior and put on a control test for productivity in accordance with the groups of embryonic development (table 4).

Table 4 Chickens productivity by embryonic development groups Indicator Embryonic Development Groups For all examined 1 - intensive 2 - medium 3 - slow M ± m Cv% M ± m Cv% M ± m Cv% M ± m Cv% Live weight of chickens at 16 weeks of age, kg 1.21 ± 0.02 7.3 1.21 ± 0.04 6.0 1.24 ± 0.06 8.2 1.22 ± 0.05 7.2 Puberty, days * 135.0 ± 1.37 8.1 136.0 ± 0.78 6.2 140.1 ± 1.30 9.1 136.3 ± 1.50 7.7 Egg production per surviving layer over 45 weeks of life, pcs. 162.8 ± 2.10 7.8 163.0 ± 1.80 6.4 153.2 ± 4.30 8.1 159.7 ± 3.20 8.3 Egg weight at the 30-week-old age of hens, g 62.5 ± 0.33 4.0 62.1 ± 0.31 3,1 62.0 ± 0.22 4.3 62.2 ± 0.21 4.3 * - age of reaching 50% egg production

From the data of Table 4 it can be seen that the live weight of chickens in the first and second groups was the same (1.21 kg), in the third group, the live weight was slightly higher than in the first two, but this difference was not significant. From the results it follows that the live weight of chickens in the third group was less uniform compared to the first and second.

The sexual maturity of chickens in the first and second groups was 5.0 and 4.0 days less than in the third (significantly at p <0.05). Early puberty of chickens affected their egg production, for example, in the first and second groups the egg production was almost the same (162.8 and 163.0 eggs), in the third group it was significantly (at p <0.05) lower by 9, 6 and 9.8 eggs (6.3% and 6.4%), respectively, groups, and compared with all tested for 6.5 eggs. The egg mass across all groups was almost the same, the difference was within the error range.

At the end of the control test, offspring were assigned to the studied chickens, which were also evaluated by the intensity of embryonic development of the proposed method. By the method of analysis of variance was determined the proportion of influence (g) ² ) the intensity of the embryonic development of the studied chickens on the indicators of embryonic development of offspring. The data are given in table. 5

Table 5 The share of influence (q) of the intensity of embryonic development of the studied chickens on the indicators of embryonic development of offspring,% Blastodisk diameter at 18-19 hours of incubation The diameter of the vascular field of the yolk sac at 63-64 hours of incubation The difference in diameter of the embryo of the chicken embryo 19.4 *** 27.1 *** 25.2 *** *** p <0.001

The results of analysis of variance showed (Table 5) that the intensity of embryonic development of the studied chickens has a highly reliable effect on the indicators of embryonic development of offspring. Genotypic variability makes it possible to select highly productive individuals using family selection methods.

To determine the relationship between the intensity of embryonic development and economically useful traits of the studied chickens, correlation coefficients were calculated between the difference in the diameters of the embryo of a chicken embryo and such indicators as live weight, puberty, egg production, egg weight and the number of conditioned chickens. The data are presented in table. 6.

Table 6 Coefficients of correlation of embryonic development and economically useful traits of chickens Indicator r ± m _r t _r Live weight of chickens at 16 weeks of age, kg -0.074 ± 0.1064 -0.696 Puberty, days * -0.258 ± 0.1030 -2,505 Egg production per surviving layer over 45 weeks of life, pcs. 0.278 ± 0.1024 2,715 Egg weight at the 30-week-old age of hens, g 0.012 ± 0.1065 0.113 The number of conditioned chickens 0.161 ± 0.1052 1,530 * - age of reaching 50% egg production

The dependence of the intensity of embryonic development and live weight of chickens at 16 weeks of age was weak and negative (-0.074), which indicates the presence of feedback between these characters. A significant (at p <0.05) inverse relationship was traced with such an indicator as puberty (-0.258), that is, the more intensive the process of embryonic development, the earlier the puberty of chickens came. The egg production of chickens had a significant (at p <0.01) direct positive correlation with the intensity of embryonic development (0.278). The correlation of the difference in the diameters of the embryo of the chicken embryo with the egg mass at the 30-week-old age of the hens was not significant - 0.012, but it was direct and positive. The final criterion for assessing the reproductive qualities of chickens is the number of conditioned chickens obtained, according to which the correlation coefficient was calculated, it was 0.161, that is, the more intensively the chickens developed in the embryonic period, the more descendants were subsequently received from them.

An analysis of the correlation coefficients showed that the intensity of embryonic development can indirectly judge the breeding value of adult hens.

The test results of the proposed method for early assessment of egg chickens during selection showed the advantage of selecting egg chickens in terms of intensity of embryonic development. The selection of chicken embryos with intensive and medium development allows to increase the hatchability of eggs by 8.8-11.0%, the safety of chickens up to 16 weeks of age by 3.7-6.1%, egg production of hens over 45 weeks of life by 6.3- 6.4% compared with slowly developing embryos, and also accelerate the onset of puberty of chickens by 4.0-5.0 days. At the same time, a highly reliable proportion of genotypic variability of the intensity of embryonic development in the phenotype of the offspring and a correlation with economically useful traits were established.

Claims (1)

A method for early assessment of egg chickens during selection, including the selection of eggs by weight, shape index and shell defects before laying in the incubation, characterized in that the embryos are additionally evaluated by the intensity of embryonic development during the incubation period by determining the embryo diameter at 18-19 hours of incubation and determining for 63-64 hours of incubation of the diameter of the vascular field of the yolk sac, then embryos are selected for which the diameter of the vascular field of the yolk sac is at least 20 mm, and the difference between the diameters of the vascular field and the embryo is found lasts in the range of 10-15 mm.