MD1020Z - Process for preincubation treatment of hen's eggs - Google Patents

Abstract

The invention relates to agriculture, namely a process for treating hen eggs prior to incubation. The process according to the invention provides for the treatment of hen eggs prior to incubation with a pulsed magnetic field having an induction of 40 ... 50 µT and a frequency ranging from 1 to 10 Hz and back every 2 minutes, the treatment time being 40 minutes.

Description

The invention relates to agriculture, namely to a process for treating chicken eggs before incubation.

It is well known that in the world economy under conditions of intensive chicken rearing their hatchability is on average 70…80%, unlike natural conditions, where the hatchability is almost 100%. The incubators used in the field include metal constructions that shield the eggs from the Earth's natural magnetic field and thus negatively affect the development of the embryos [1].

Also known is the biostimulation process, which consists of irradiating eggs before placing them for incubation. This irradiation is performed using a semiconductor injection source with an exposure dose of 1…1000 J/m2 with the aim of increasing the biostimulatory effect [2].

The disadvantages of this procedure include excessive doses of radiation that can lead to unwanted changes in the embryo's cells and low productivity.

The closest solution is the process of treating eggs before incubation by placing them in a coil with a pulsating magnetic field with an intensity of 50…250 kA/m. At the same time, the duration of each pulse is 0.01…0.5 s, and the impact is achieved by 5 pulses executed every second [3].

The disadvantages of this procedure are the high intensity of the magnetic field, which can lead to the death of the embryo or cause mutations, as well as high energy expenditure.

The purpose of the present invention is to increase the hatching capacity of chicks and accelerate the development of young birds through ecologically pure and inexpensive processes.

The process for treating chicken eggs before incubation, according to the proposed invention, provides for treating the eggs with a pulsed magnetic field having an induction of 40…50 µT and a frequency varying from 1 to 10 Hz and back every 2 min, the treatment time being 40 min.

The result is an increase in the hatchability of the chicks and an acceleration of their development.

The proposed method of treating chicken eggs before incubation with a magnetic field with the above-mentioned characteristics is ecologically pure and harmless for the growth and development of embryos, since frequencies are used that are within the limits of the Earth's natural fields. For example, in this frequency band are short-term periodic waves and pulsations of the geomagnetic field [Krasnogorskaya N. V. Biological action of electromagnetic fields. Moscow, Science, vol. 2, 1984], in the presence of which the biosphere of our planet evolved. The value of the magnetic field induction that was used in the experiment does not exceed the value of the Earth's magnetic field. Thus, the proposed method does not contain stress factors that could lead to undesirable consequences.

The efficiency of this process is confirmed by a series of experiments.

Example 1

In the experiment, eggs of the “Tetra H” breed were used for treatment. The experimental batch included 480 eggs that were subjected to treatment. 504 untreated eggs served as a control batch. Within the limits of this experiment, the eggs were subjected to treatment with a pulsed magnetic field with an induction of 40…50 µT. The field frequency was slowly varied from 1 to 10 Hz and back every 2 min. The duration of the exposure was 40 min. Immediately after treatment, the eggs from the experimental batch were placed together with the control eggs in an incubator, according to the standard technological process. At the end of the incubation period, a detailed analysis of the results was carried out (tab. 1).

Table 1

Indicators Experiment Control Number of eggs placed for incubation, pcs. 480 504 Number of fertilized eggs, pcs. 459 482 Number of unfertilized eggs, pcs. 21 22 Stagnant embryos (7 days old), pcs. 12 6 Very poorly developed embryos, pcs. 6 14 Crippled and deformed embryos, pcs. 2 2 Number of normally developed chicks, pcs. 439 461 Hatching, % 91.46 91.47 Hatching capacity, % 95.64 95.64 Average weight of a chick, gr 48.89 44.83

In this experiment, a batch of 24-hour eggs was used. In this case, the hatching data (the ratio of the number of hatched chicks to the total number of eggs placed in the incubator) in the two experimental and control batches practically do not differ. The hatchability data (the ratio of the number of hatched chicks to the number of fertilized eggs) also do not differ. However, the average weight of a chick was 9% higher in the experimental batch than in the control batch, which has a positive impact on the further development of young birds. At the same time, the mortality rate of poorly developed embryos decreases significantly: 2.77% in the control batch and 1.25% in the experimental batch.

Example 2

The experiment used eggs of the “Ross-308” breed. The experimental batch included 504 pieces. The control batch also included 504 pieces. The same field was used for treatment as in example 1. The duration of exposure was 40 min. After treatment, the eggs from the experimental batch were placed together with those from the control batch in an incubator, according to the standard technological process. At the end of the incubation period, the results were analyzed (tab. 2).

Table 2

Indicators Experiment Control Number of eggs placed for incubation, pcs. 504 504 Number of fertilized eggs, pcs. 461 462 Number of unfertilized eggs, pcs. 43 42 Stagnant embryos (7 days old), pcs. 6 3 Very poorly developed embryos, pcs. 5 10 Crippled and deformed embryos, pcs. 3 7 Infected embryos, pcs. 2 2 Number of normally developed chicks, pcs. 445 439 Hatching, % 88.29 87.1 Hatching capacity, % 96.52 95.02 Average weight of a chick, g 51.85 49.49

Within the limits of this experiment, a batch of eggs of different freshness was used. Hatching in the experimental batch proved to be 1.2% higher than in the control batch. Hatching capacity in the experimental batch was 1.5% higher than in the control batch. Also, the average weight of a chick in the experimental batch was 4.7% higher than in the control batch, and the number of very poorly developed embryos was low (1.98% in the control batch and 0.99% in the experimental batch).

Example 3

In this experiment, eggs of the “Ross-308” breed were subjected to treatment. The experimental batch included 6720 pieces, the control batch - 6720 pieces. The treatment of eggs was carried out in the same way as in ex. 1 and 2. After this - incubation according to the standard process. Analysis of the results is presented in tab. 3.

Table 3

Indicators Experiment Control Number of eggs placed for incubation, pcs. 6720 6720 Number of fertilized eggs, pcs. 6080 6051 Number of unfertilized eggs, pcs. 640 669 Very poorly developed embryos, pcs. 22 25 Crippled and deformed embryos, pcs. 20 25 Infected embryos, pcs. 45 52 Number of normally developed chicks, pcs. 5790 5635 Hatching, % 86.16 83.85 Hatching capacity, % 95.23 93.12 Average weight of a chick, g 45.63 44.0

During this experiment, a batch of eggs of different freshness was also used. Hatching in the experimental batch was 2.3% higher than in the control batch. Hatching capacity in the experimental batch was 2.11% higher than in the control batch. At the same time, the average weight of a chick in the experimental batch turned out to be 3.7% higher compared to the control batch. The number of very poorly developed embryos was low (0.37% in the control batch and 0.33% in the experimental batch).

Data on the main qualitative indicators are presented in Table 4. The results in the table indicate the values of the basic qualitative indicators depending on the batch of eggs incubated, namely: 24-hour eggs and eggs of different freshness. At the same time, the table presents the difference (δ) between the values of the indicators of the experimental and control batches expressed in percentages.

Thus, the given procedure for treating chicken eggs before incubation with a low-frequency, low-intensity magnetic field has a positive effect, namely:

24-hour eggs - increases the average weight of a chick (δ=5.2%); eggs of different freshness - increases hatching and hatchability (δ=1.6% and δ=3.5% respectively); eggs of 24 hours and of different freshness - the number of very poorly developed embryos in the experimental groups is reduced compared to the control groups (δ=1.01%).

Table 4

Batches Indicators Experiment Control Difference δ, % Eggs of different freshness Hatching, % 87.25 85.47 1.78 Eggs of different freshness Hatching capacity, % 95.88 94.07 1.81 24-hour eggs Average weight of a chick, g. 48.89 44.83 9.05 24-hour eggs + eggs of different freshness Very poorly developed embryos, % 0.86 1.71 0.85

Experiments conducted on the implementation of the procedure for treating chicken eggs before incubation with a low-frequency and low-intensity magnetic field have shown that when incubating eggs treated according to this procedure, various qualitative indicators increase, such as hatching, hatchability, chick weight. The application of this procedure also reduces the mortality rate of embryos at different stages of their development.

1. Kurzin N. N., Pushkarskiy V. V., Volnova M. A. Justification of the device for stimulating the development of bird embryos with an electromagnetic field. Кубанский Государственный Agrarный Университет, 2000, Trudy № 381, р. 83-96

2. RU 2101939 C1 1998.01.20

3. RU 2136149 C1 1999.09.10

Claims (1)

Process for treating chicken eggs before incubation, which involves treating the eggs with a pulsed magnetic field having an induction of 40…50 µT and a frequency varying from 1 to 10 Hz and back every 2 min, the treatment time being 40 min.