RU2101939C1 - Method for carrying out agricultural poultry biostimulation - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves exposing eggs to optic spectrum radiation formed for the purposes of increasing biostimulating effect. Semiconductor radiation source of injection type with action dose being 1-1000 J/m² when acting with injection type semiconductor laser, photodiode or photodiode with polarizer are applied, before subjecting them to incubation. Injection type semiconductor laser or photodiode or photodiode with polarizer are usable as injection type semiconductor radiation source. EFFECT: higher poultry production output; reduced losses. 4 cl

Description

 The method relates to the field of biology and poultry and can be used in the cultivation of chickens, ducks and other birds used in agricultural production.

 A known method of stimulation of poultry (in particular chickens) by irradiating chicken eggs with a magnetic component of the electromagnetic field [1] The method consists in exposing a pulsed magnetic field of 14,000 oersteds with a pulse duration of 22 μs to eggs before laying them for incubation. The method allows to stimulate the development of chicken embryos.

 The disadvantage of this method is the need to use large magnets and powerful pulsed power sources, which leads to more expensive devices in the practical implementation of the method and creates significant difficulties when placing the plants in the poultry farm.

 A known method of biostimulation [2] selected for the prototype, which consists in irradiating incubation eggs (in particular duck) with radiation of a helium-neon laser with a wavelength of optical electromagnetic field of 632.8 nm. The use of this method will increase hatchability and live weight by about 3-4.7% and reduce bird waste 2.5-3 times.

 The disadvantage of this method is not sufficiently strong biostimulating effect. On the other hand, helium-neon lasers are not economical because they consume a large amount of energy, have significant dimensions and weight.

 The technical problem, the solution of which is provided by the proposed invention, is to create a method of biostimulation of poultry by enhancing the biostimulating effect of the method.

 This task is carried out by the fact that in the method of biostimulation of poultry, eggs of poultry are exposed to a semiconductor injection source of optical radiation, in particular, an injection laser, LED or LED with a polarizer.

 This makes it possible to significantly increase the effect of biostimulation and opens up prospects for bringing poultry farming to a higher quality level due to a significant decrease in bird waste and increase its hatchability.

The method is implemented as follows. The work was carried out using eggs of chickens (Leghorn white breed), ducks (Peking breed) and turkeys (Moscow white breed), which were irradiated before laying for incubation. One of the following types was used as an injection semiconductor emitter: injection laser with a radiation wavelength of 820 nm; injection laser with a wavelength of 1300 nm; an LED with a radiation wavelength of 950 nm and an LED (similar) with a polarizer. Moreover, for all types of sources, the dose of egg irradiation took values in the range of 1-1000 J / m ² .

 It should be noted that the above types of injection emitters have different technical characteristics and, depending on the technological conditions at the poultry farm, it seems appropriate to use a specific type of radiation source.

 To identify the effectiveness of the method of biostimulation of poultry, we used batches of eggs irradiated by the prototype method (that is, a helium-neon laser), unirradiated batches of eggs, and also batches of eggs irradiated by the proposed method.

Irradiation with injection semiconductor sources allowed compared with unirradiated batches of eggs
to reduce poultry waste in the first 50 days by 4.7 times for chickens, 4.9 times for ducks, 4.6 times for turkeys;
increase hatchability by 7.9% for chickens, 8.1% for ducks, and 7.5% for turkeys.

 The results are 1.6-2.5 times higher than those for the eggs of the same birds irradiated before laying for incubation according to the prototype method. Thus, the use of injection semiconductor radiation sources allows to achieve the most powerful biostimulating effect. This biostimulation was achieved regardless of the type of injection semiconductor source, which is explained by the universality of the biological effect of a narrow-band optical source, which are injection semiconductor sources.

 When developing a method for biostimulating poultry and its industrial testing at a poultry farm in the city of Lyskovo (Nizhny Novgorod Region), incubators of the Universal-50 and Universal-15 types were used. The work carried out on biostimulation of poultry showed that exposure to injection optical radiation by the proposed method can effectively influence the development of the embryo in the eggs during their incubation.

 Semiconductor injection radiation sources have a higher degree of safety compared to helium-neon (gas) lasers, which use an electrical voltage of several thousand volts, and also have significantly lower weight and dimensions, do not require special rooms, dark glasses, maintenance personnel are not exposed exposure. Therefore, semiconductor injection radiation sources meet the highest requirements: ease of control, accuracy and controllability of the dosage of exposure to the bird, miniature, versatility, relatively low cost. In the case of using LEDs, the source of injection radiation can be made super-miniature, with extremely low weight, autonomous.

For biostimulation according to the proposed method, portable devices were developed
1. Weight 100 g; dimensions 115 x 45 x 30 mm; powered by batteries. The radiation wavelength is 850 nm;
2. Weight 500 g; dimensions 90 x 76 x 56 mm; mains powered. The radiation wavelength is 850 nm.

 3. Weight 5 kg; dimensions 240 x 110 x 280 mm; mains powered. The radiation wavelength is 820 nm and 1300 nm (two types of emitters).

 The devices are easy to operate, have a modern design and are made in full accordance with the requirements for medical equipment.

 The use of devices, the characteristics of which are given above, for the first time created the possibility of their use in small-scale, serial, large-scale production, in industrial and individual conditions (for example, using an I-317 type incubator developed by the company "Ele-BIS" in Moscow, designed for 100 chicken, duck and 45 goose eggs. The incubator is intended for farmers and for home conditions).

 Experience has shown that the organization of industrial production of apparatus for biostimulating poultry will require relatively small material costs.

Literature:
1. Hananaev L.I. Padalka E.S. Borodaykevich D.T. The effect of a pulsed magnetic field on the size of the germinal disk of chicken embryos. Sat scientific tr "Ways to increase the productivity of farm animals and poultry." Odessa, 1972, p. 314-316.

 2. Mymrin I.A. Melnikova I.I. Sokolovskaya V.I. The efficiency of irradiation of hatching eggs and diurnal ducklings with laser beams. "Reserves for increasing the viability and productivity of poultry." M. 1989, p. 69-70.

Claims (4)

1. The method of biostimulation of poultry, which consists in irradiating eggs before laying for incubation with optical radiation, characterized in that the irradiation is carried out by an injection semiconductor radiation source with a dose of 1 1000 J / m ² .  2. The method according to claim 1, characterized in that an injection semiconductor laser is used as an injection semiconductor radiation source.  3. The method according to claim 1, characterized in that an LED is used as an injection semiconductor radiation source.  4. The method according to claim 1, characterized in that an LED with a polarizer is used as an injection semiconductor radiation source.