RU2351125C2 - Method of weighing egg yolk without breaking shell - Google Patents

Abstract

FIELD: stockbreeding.

SUBSTANCE: present invention pertains to poultry keeping. The method involves measurement of the index form, egg mass and determination of the mass of the yolk. The mass of the yolk is determined without breaking the shell using the formula: Y=0.146X₁-0.08X₂+14.12, where Y is the mass of the yolk, X₁ is the mass of the egg and X₂ is the index form.

EFFECT: method increases accuracy of weighing egg yolk without breaking the shell.

2 tbl, 1 ex

Description

The invention relates to the field of poultry, namely to selection of birds.

Currently, the following criteria are used as a criterion for selecting eggs according to their quality: egg mass and shape, asymmetry index, density, elastic deformation and shell thickness, pore counting, protein and yolk indices, number of Howe units, ratio of components, protein refraction coefficients and yolk, concentration of hydrogen ions, density of yolk and protein, determination of carotenoids, vitamins A and B.

There is a method for a qualitative assessment of eggs during selection for incubation: according to A. Sergeeva (Advanced scientific and industrial experience in poultry // Express information, No. 2, M. - 1974, p.12-13), the hatching eggs must have the correct shape with a diameter ratio of 1.34-1.40 and a Hau index of 65-75%.

The disadvantages include:

1) other quality indicators of eggs affecting the hatching of chickens are not taken into account;

2) low accuracy in assessing the quality of hatching eggs.

As a prototype, a method for evaluating the yolk value of eggs in eggs and meat chickens without violating the integrity of the shell by the relationship of the relative size of the yolk and egg length (r = 0.69 ± 0.05) by the author Toritsina E.S. (abstract of the dissertation for the degree of candidate of biological sciences "The biological role of the yolk of eggs in increasing the genetic potential of chickens on economically useful traits, St. Petersburg - Pushkin, - 2005, p. 18).

The disadvantages include:

1) the yolk mass is not accurately determined;

2) an increase in only the large diameter leads to the formation of elongated eggs, and such eggs are more difficult to incubate;

3) the eggs are too elongated or rounded in shape and have reduced hatchability.

The technical solution to the problem is to increase the accuracy of determining the mass of the yolk of eggs without violating the integrity of the shell.

The technical solution to the problem is achieved by the fact that in a method for assessing the quality of breeding chicken eggs, including measuring the shape index, egg mass and determining the yolk mass, according to which the quality of the breeding eggs is judged, according to the invention, the yolk mass is determined without violating the integrity of the shell, according to the formula: = 0.146X ₁ -0.08X ₂ +14.12, where Y is the mass of the yolk, X ₁ is the mass of eggs, X ₂ is the shape index.

The claimed technical solution differs from the prototype in that it increases by 60% the accuracy of the mass of the yolk without violating the integrity of the shell.

According to scientific, technical and patent information, the claimed combination of features has not been identified, which allows us to conclude about the inventive step of the claimed technical solution.

Industrial applicability of the method lies in the fact that it can be used in breeding poultry to improve the quality of food and hatching eggs in an industrial environment.

Breeding of poultry for high egg production and egg mass led to a change in the quality of the eggs themselves. The quality of eggs is determined not only by the quality indicators of the yolk and protein, but also by their ratio in the egg.

According to Shcherbatov V.I., Sidorenko L.I., Pakhomova T.I., Dzholova M.N. (Morphology of eggs of hens of the cross UK-Kuban 123 // Journal of Poultry, No. 11, 2005 - p. 18-19) in modern crosses of egg hens, the protein-yolk ratio has changed in the direction of decreasing the proportion of yolk in the egg. It was determined that the proportion of yolk in eggs is steadily decreasing as their weight increases, and it was the smallest in the largest (19.45%). The relative mass of the yolk is higher in small eggs - 23.24%. Therefore, the proportion of yolk in the eggs is negatively correlated with their mass. The protein mass increases almost linearly with an increase in egg mass. In eggs that weighed 54.5 g on average, the protein weight was 35.3 g, and in 69 grams it was already 45.9 g. Thus, the weight of the eggs is largely determined by the protein weight (r = 0.6) . The absolute shell mass in all observation periods was constant (6.4–6.9 g) and almost independent of the size of the egg.

According to Kochish I.I., Petrash M.G., Smirnova S.B. (textbook Poultry. - M .: KolosS, 2003, p. 54) the optimal ratio of protein: yolk in the eggs of poultry should be 2: 1. In modern breeds and crosses, this ratio is 2.5-2.7: 1. The change in the ratio of protein: yolk negatively affected the embryonic vitality of chickens, the hatching of chickens during incubation, and their safety during rearing.

The mass of the yolk and its volume are the main factors that determine the mass of eggs carried by chickens. Breeding chickens to increase only the mass of eggs without taking into account absolute indicators and the ratio of parts in them inevitably leads to a decrease in breeding and commercial qualities of eggs.

At the same time, selection for large yolkiness of eggs is complicated by the fact that it is impossible to determine the mass of the yolk without breaking the eggs. Thus, we were faced with the task, based on the measurements of eggs and their mass, to develop a method for selecting eggs from chickens that are consistent with the selection goals.

Table 1 presents the dynamics of morphological indicators of eggs.

As can be seen from the data in table 1, between the mass of eggs and the mass of the yolk a positive relationship was established with the coefficient r = 0.42. That is, with an increase in the mass of eggs, the mass of the yolk will increase, and conversely, with a decrease in the mass of the egg, the mass of the yolk will also decrease. A negative relationship was established between the egg mass and the shape index with a coefficient value of r = -0.58. That is, with an increase in egg mass, the shape index will decrease and, conversely, with a decrease in egg mass, the egg shape index will increase.

Table 1. Dynamics of morphological indicators of eggs. The mass of eggs, g Index of the form,% Mm D mm Mass of yolk Shell% g % 57.6 75 56 42 16 27.8 11.6 60.1 75.5 57 42.5 16 26.6 11,4 63.6 75 58.1 43.6 17.1 26.8 11.1 66.8 75 59.1 44.3 17.1 25.6 11.1 69.6 74.7 60,2 44.9 17.8 25.5 10.8 72.1 73.5 61.6 45,2 17.8 24.7 10.5 75.6 73,4 61.7 45.8 18.7 24.7 10.6 77.8 73,4 64 46 18.7 24 10.7 average 74,4 59.7 44.3 17.4 25.7 11.0

The studies and the data obtained on the relationship of egg parameters gave us reason to develop the equation of multiple linear regression Y = 0.146X ₁ -0.08X ₂ +14.12, where Y is the mass of yolk, X ₁ is the mass of eggs, X ₂ is the shape index.

An example implementation of the method.

The implementation of the method is as follows: as the material for research, eggs obtained from hens of the cross of the Criminal Code Kuban 456 in the amount of 1500 pieces were used. After the eggs are laid by the chickens, they are collected and calibrated by mass using an SPU-123 portable electronic scale, accurate to 0.01 g. A special instrument, the IM-1 indexer, was used to determine the shape index of the eggs. The test egg is placed on the working platform - in the device’s bath, pressing simultaneously to both fixed stops so that the diametrical planes of the egg pass through the touch points, that is, the axis of the egg should be parallel to one of the fixed stops and perpendicular to the other. Holding the egg with one hand in contact with the fixed stops, the fingers of the other hand squeeze the handles until the moving stops touch the surface of the egg and record the arrow on the index scale with an accuracy of 1%.

Then, to determine the mass of the yolk without violating the integrity of the shell, a ratio was used that ensures the relationship between the mass of the egg, the shape index and the mass of the yolk: Y = 0.146X ₁ -0.08X ₂ +14.12, where Y is the mass of the yolk, X ₁ is the mass eggs, X ₂ - form index.

After calculating the mass of the yolk according to this ratio, to confirm the calculation, the egg was broken and the mass of the yolk was weighed. The data obtained are presented in table 2.

Table 2. Morphological analysis of eggs of hens crosses UK Kuban 456 Practical data Estimated data egg mass (g) form index (%) weight of yolk (g) Yolk mass (g) according to the formula: Y = 0.146X ₁ -0.08X ₂ +14.12 difference g mistake, % one 2 3 four 5 6 62,2 77 16.7 17.04 +0.34 2.0 72,4 80 18.3 18.3 0 0 72.5 78 18.3 18.46 +0.16 0.87 62.8 79 16,4 16.97 +0.73 1.16 64.5 75 15.4 17.54 +2.14 3.32 61.3 81 16.1 16.59 +0.49 0.8 73.6 75 19.9 18.86 -1.04 1.4 60,4 80 17.5 16.62 -2.18 3.6 64.5 81 15.9 17.06 +1.16 1.8 72.7 82 18.0 18.17 +0.17 0.23

one 2 3 four 5 6 68.5 76 16.3 18.04 +1.74 2.54 67.7 80 18.6 17.6 -1.0 1.48 68.9 73 16,4 18.34 +1.94 2.81 64,2 81 18.6 17.01 -1.59 2.48 66.6 70 18.7 18.24 -0.46 0.69 63.1 77 17.3 17.17 -0.13 0.21 67.9 79 18.5 17.71 -0.79 1.16 58.5 85 16.7 15.86 -0.84 1.43 76.0 77 18.6 19.06 +0.46 0.6 67.0 74 16.8 17.98 +1.18 1.76 72.6 76 17.4 18.64 +1.24 1.71 69.9 80 19.9 17.93 -1.97 2.82 65.6 73 19.1 17.86 -1.24 1.89 60.6 73 18.5 17.13 -1.37 2.26 64.7 76 16,2 17.49 +1.29 1.99 63.6 80 17.7 17.0 -0.7 1,1 69.3 76 16.8 18.16 +1.36 1.96 64.5 79 18.3 17.23 -1.07 1,66 69.0 78 19.0 17.95 -1.05 1,52 64.8 78 19.0 17.34 -1.66 2,56 66,2 76 17.1 17.7 +0.6 0.9 69.5 74 16.3 18.3 +2.0 2.88 65.0 78 18.6 17.37 -1.23 1.89 63.8 77 17.4 17.27 -0.13 0.2 64,4 76 17.7 17.44 -0.26 0.4 63.1 76 16.5 17.25 +0.75 1.12 61,4 73 16.6 17.24 +0.64 1,04

As can be seen from table 2, the experimental and calculated data almost coincide and the error in determining the mass of the yolk according to the formula: Y = 0.146X ₁ -0.088X ₂ +14.12, presented in column 6, is not more than 4%, while note that the permissible error limit during the experiment should not exceed 7%.

Column 3 presents the yolk mass obtained after breaking the egg and confirming the calculations by the ratio. Column 4 shows the mass of the yolk obtained by calculation by the formula: Y = 0.146X ₁ -0.08X ₂ +14.12. The difference between these values is reflected in column 5.

Thus, the claimed method allows to determine the mass of the yolk, without violating the integrity of the shell, and can be used as a way of selecting breeding eggs for economically useful signs.

Claims (1)

A method for determining the mass of the yolk in a chicken egg without violating the integrity of the shell, including measuring the shape index, the mass of eggs and determining the mass of the yolk, characterized in that they determine the mass of the yolk without violating the integrity of the shell, according to the formula: Y = 0.146X ₁ -0.08X ₂ +14.12, where Y is the mass of the yolk, X ₁ is the mass of eggs, X ₂ is the shape index.