RU2683513C1 - Method for determining the temperature mode of incubation of eggs of agricultural and wild birds - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture, namely to the incubation of eggs of agricultural and wild birds. Initially, data on the normal value of the embryo's heart rate index are obtained non-invasively by removing the eggs of a given species or breed of bird from under the hen and placing the heart rate index in the monitoring device. Determine the required temperature in the chamber of the incubator by installing eggs with attached sensor of the above device in the chamber of the incubator and correcting the temperature in it with continuous non-invasive monitoring of the heart rate of the embryo to establish an indicator equal to that obtained by natural incubation.EFFECT: reduced economic and time costs, improving the accuracy of the temperature regime created in the chamber of the incubator.1 cl, 2 dwg

Description

The invention relates to agriculture, namely to the incubation of eggs of agricultural and wild birds.

It is known that for each species of both agricultural and wild birds, the temperature incubation regime has differences. Modern studies on the hatchability of chicks of highly productive crosses of chickens have revealed the need for special temperature conditions for each new cross. To date, the selection of the optimal temperature incubation of bird eggs is carried out empirically, using methods of biological control of incubation, which include: selective opening of eggs, control of egg mass changes, assessment of incubation results, etc. These methods allow us to evaluate the development of the embryo at the selected temperature regime. In case of deviations in embryo development, the next batch of eggs is incubated at a different temperature regime, however, the choice of temperature regime depends on the incubator operator and is carried out by the selection method.

During preliminary studies, part of the egg is lost.

If a new temperature regime for incubating eggs of poultry is determined, the limiting factors during the research are temporary and economic losses.

In the case of determining a new temperature regime for incubation of wild birds, the limiting factor is the lack of a sufficient amount of experimental material.

The hatchability under the brood reaches 100%, therefore, the temperature regime of natural incubation can be considered ideal. In this regard, one of the areas of research related to the increase of hatchability during artificial incubation is the determination of the temperature regime of artificial incubation, which maximally simulates the temperature regime of natural incubation.

A method is known in which control eggs are placed in the incubation zone and in the nest of the brood hen, continuously and simultaneously measure the values of their internal egg temperatures, these values are compared, and the temperature regime in the incubation zone is regulated until the values of the internal egg temperatures in both control eggs are equal ( RF patent 2107434 "Method for the incubation of eggs of poultry and a device for its implementation").

The disadvantages of this method are: the dependence of the temperature of the incubator on the individual characteristics of the brood hen, the need for keeping a brood hen at each incubator, the different spatial position of the egg in the incubator and in the brood’s nest, as well as the dependence of the egg temperature on its location in the nest. It is known that during natural incubation, the brood hen regularly moves eggs relative to each other, which in turn eliminates the unevenness of their heating, however, if this method is used in industrial incubation, such movements of the control egg under the hen will result in significant temperature fluctuations in the incubator chamber. It should be borne in mind that even with natural incubation, there is a possibility of egg death due to temperature violations. In the event of a similar situation, when using this method of adjusting the temperature in the incubator chamber, the death of the control egg under the hen will entail the death of the entire batch of eggs in the incubator.

Closest to the claimed invention is a method for determining the temperature of the artificial incubation, using to determine the temperature of the egg, a device in which thermometers are attached to the outer surface of the shell of the control egg. The method is used to increase the hatchability of eggs and improve the quality of young animals by studying the mode of incubation of eggs by a brood with subsequent adjustment according to the data obtained from the rules of operation of incubators (RF patent No. 2071253 "Device for determining the surface temperature and position of an egg under a brood").

The disadvantage of this method is the lack of informativeness of the obtained data on the true temperature of the embryo, an indicator of which is crucial for the normal course of bird embryogenesis. Due to the fact that the method of heating an egg under a hen is characterized by a temperature difference between the upper and lower sides of the egg, due to the difference in the temperature of the body of the hen and the temperature of the nest tray, and in all models of industrial incubators and the vast majority of laboratory ones, the temperature in the incubator chamber is uniform, this method is not allows you to accurately simulate the temperature regime of natural incubation during artificial incubation.

The technical result is the reduction of economic and time costs in determining and correcting the temperature of incubation, ensuring the maintenance of the temperature of the embryo, as close as possible to the regime of natural incubation.

The technical result is achieved by the fact that in the method for determining the temperature incubation of eggs of agricultural and wild birds, at first non-invasively receive data on the normal value of the heart rate of the embryo by removing the eggs of this species or breed of birds from under the hen and placing the heart rate indicator in the control device contractions, and then determine the necessary temperature in the incubator chamber by installing eggs with an attached sensor of the above device and in the incubator chamber and the temperature correction therein with a continuous non-invasive monitoring of fetal heart rate frequency to establish index equal obtained by natural hatching. The obtained temperature values can be used for subsequent incubation of eggs of this bird species.

In FIG. 1 shows the dependence of the heart rate of the embryo on the time elapsed since the egg was removed from the hen, FIG. 2 is a graph of changes in the heart rate of the embryo due to temperature changes in the incubator chamber.

The technical result is achieved as follows.

1. At the first stage, data are obtained on the normal value of the heart rate indicator of the embryo.

To do this, during natural incubation, an egg of a given species or breed of birds is taken from under the hen and placed in a heart rate indicator control device (patent for utility model No. 172072 "A device for recording the heart rate of a bird embryo without breaking the shell"), with which the heart rate of the embryo, and the number of measurements is limited by the rules of statistics until representative data is obtained. Due to the fact that the heart rate of the embryo due to the removal of an egg from the nest changes as a result of cooling of the latter, the first result (245 min ^-1 ) is used as the true heart rate value, as shown in FIG. one.

In case of artificial incubation, in the event that there is a precedent for regular successful artificial incubation, the device’s sensor is attached to the egg in the incubator chamber, and the obtained values are fixed, and the number of measurements is limited by the rules of statistics until representative data is obtained.

2. At the second stage, data is obtained on the required temperature in the incubator chamber.

For this, an egg with a sensor attached to the heart rate monitor is placed in the incubator chamber, which is preheated to an average incubation temperature of 37.5 ° C. Depending on the received value of the heart rate, the temperature in the incubator chamber is regulated (if the heart rate is lower than the required value, the temperature is raised, if it is higher, it is reduced). Below is a graph illustrating the process of setting the temperature in the incubator chamber based on monitoring the heart rate of the bird embryo (Fig. 2).

The temperature setting is as follows.

At the time of the start of the experiment, the embryo had a heart rate of 230 min ^-1 (a low rate is associated with egg cooling due to manipulation of the sensor). After closing the incubator lid and stabilizing the temperature in the chamber at 37.5 ° C, the frequency of contractions increases and stabilizes at around 236 min ^-1 . Since it is required to achieve the heart rate obtained by natural incubation (245 min ^-1 ), the temperature is raised to 38 ° C and the heart rate reaches 254 min ^-1 . Then the temperature is reduced to 37.7 ° C and the heart rate decreases and stabilizes at 245 min ^-1 .

Therefore, for incubation of this species, a temperature of 37.7 ° C should be used.

The proposed method allows with high accuracy to create a temperature regime in the incubator chamber that provides ideal conditions for the development of the embryo, as well as reduce costs associated with the use of a method for determining the temperature of incubation, based on the method of selecting the optimal temperature.

Claims (1)

A method for determining the temperature of incubation of eggs of agricultural and wild birds, characterized in that at first they non-invasively obtain data on the normal value of the heart rate indicator of the embryo by removing an egg of this species or breed of birds from under the hen and placing the heart rate indicator in the control device, and then determine the necessary temperature in the incubator chamber by installing eggs with an attached sensor of the above device in the incubation chamber pa and temperature correction therein with a continuous non-invasive monitoring of fetal heart rate frequency to establish index equal obtained by natural hatching.

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