RU2142225C1 - Method of light-and-laser treatment of chicken embryos - Google Patents

Abstract

FIELD: poultry farming. SUBSTANCE: prior to laying eggs for incubation and in process of the latter, eggs are treated four times with 6-days interval every 5 min in succession with light of gaseous-discharge lump ДНЕСГ-500 at wavelength of 630-650 nm, with average dose on surface of eggs equal to 23.1 erg in 5-s exposure. They were irradiated by helium-neon laser ЛГН-104 at wavelength of 632.8 nm, with optical flux power on surface of eggs equal to 50 mW/sq.cm in 2-s exposure. They are irradiated further by mercury-quartz lamp ДРТ-400 at wavelength of 185-400 nm, with average dose on surface of eggs equal to 20 mer/h and by two germicidal lamps БУВ-15 in 5-s exposure. As a result, output of conditional chickens increases by 19 per cent. Activation of broiler embryogeny is accompanied by rise of postembryonic violability. Preservation of poultry at end of fattening increases relative to control period by 9.3 per cent. By daily average growth of living mass experimental broilers surpass control ones by 12.6 per cent. EFFECT: enhanced efficiency. 4 tbl

Description

 The invention relates to poultry farming and can be primarily used to increase the viability and productivity of poultry.

 A known method of increasing the viability of poultry by the method of pre-incubation processing of eggs with helium radiation is an LGN-104 neon laser, a DNESG-500 gas discharge lamp, DRT-400 and BUV-15 ultraviolet lamps in expositions of 3 minutes each (Mamukaev M. N. USSR copyright certificate N 1780668, C. A 01 K 45/00, 1990, prototype).

 The disadvantage of this method is that it does not reveal the effect of light-laser treatment of hatching eggs in small doses before incubation, during the incubation process and does not provide the maximum effect stimulating embryogenesis of birds.

 The purpose of the invention is to increase the embryonic, postembryonic viability and productivity of the bird.

 This goal is achieved by the fact that the analog eggs were divided into 11 groups, of which 1 served as a control, the remaining groups (2, 11) were treated sequentially four times with an interval of 5 min with the light of a DNESG-500 gas-discharge lamp in an exposure of 15 s, with a helium-neon laser LHN-104 in exposure 2 s, DRT-400 ultraviolet lamp and two BUV-15 bactericidal lamps in exposures of 5 s with an interval of 1 day (Table 1).

 The research results showed that the processing of embryos during the incubation process with small doses of laser radiation of the LGN-104 laser, lamps DNESG-500, DRT-400 and BUV-15 does not suppress, but stimulates the development of the bird in the natal period. The output of viable chickens increases with increasing intervals between light treatments, reaching a maximum value at 4-, 5-, 6- and 7-day intervals, then decreases, although it remains at a high level.

 Higher incubation rates were found when processing embryos from 6-day intervals when embryonic waste was reduced by 1.8 times the number of unfertilized eggs (P <0.001), blood rings by 1.4 times (P <0.01), frozen embryos - 1.3 times (P <0.01), suffocates - 2.7 times (P <0.001), substandard, weak chickens - 1.9 times (P <0.01), while the conclusion conditioned chickens rises 1.2 times (P <0.001) or 17%.

 In broiler chickens obtained from embryos irradiated during incubation with small doses of an LGN-104 laser, DnESG-500, DRT-400 and BUV-15 lamps, no side effects were observed. Daily chickens are highly mobile, responsive to food and water. In 5 replicates, hatching analog eggs were divided into control (1) and 6 experimental groups. The eggs of the experimental groups were subjected to four times with an interval of 5 min with small doses of radiation from an LGN-104 laser, lamps of DNESG-500, DRT-400 and BUV-15 before incubation (group II), before incubation (1) and on day 6 of incubation (III group), on days 1 and 12 of incubation (group IV), on days 1 and 18 of incubation (group V), on days 6, 12 and 18 of incubation (group VI), on days 1, 6, 12 and 18 of incubation (VII group) (Table 2).

The obtained embryo hatchability data showed that the treatment of chicken embryos with radiation from a DNESG-500 gas discharge lamp with a wavelength of 630-650 nm, an absorption maximum of 640 nm, an average dose on the egg surface of 23.1 erg in an exposure of 15 s, LGN-104 helium-neon laser a wavelength of 632.8 nm, a power density on the surface of eggs of 50 mW / cm ² s in an exposure of 2 s, a DRT-400 ultraviolet lamp with a wavelength of 185-400 nm, an average dose of 23 erg on the surface of eggs and two BUV-15 bactericidal lamps waves 254-800 nm, at a maximum radiation 254 nm, rated power on the surface egg egg 15 W in exposures of 5 s before incubation and during incubation does not inhibit, but activates the embryonic development of the bird, without causing side effects. The effect of small doses of LGN-104, lamps of the DNESG-500, DRT-400 and BUV-15 significantly reduces incubation waste by the number of unfertilized eggs and blood rings. The best indicators were observed in those groups where the embryos were processed before incubation and on day 6. The number of frozen embryos was lower in those groups where the embryos were exposed to radiant energy on the 12th day of incubation, and the incubation waste indicators according to the number of suffocated and substandard chickens and cripples responded more resonantly to light processing on the 13th day of incubation.

 The best results of embryonic viability were obtained in the group of embryos treated before incubation on 6-, 12- and 18-day incubation, when embryonic withdrawal was reduced and the output of conditioned chickens increased by 19%. To ensure the maximum effect of embryonic viability of birds, periodic repeated exposure to small doses of laser radiation LGN-104, lamps DNESG-500, DRT-400 and BUV-15 with an interval of 6 days is required.

 Indicators of embryonic viability positively correlate with the viability of the bird in the postembryonic period of development (table. 3).

 It was found that the treatment of meat chicken embryos before incubation and during incubation with small doses of laser radiation of the LGN-104 laser, the DLNESG-500, DRT-400 and BUV-15 lamps stimulates the postembryonic viability of broiler chickens, and an increase in viability indices is observed for all tested treatment conditions birds up to 14 days of age, then after some decline, an increase in safety is observed, reaching maximum gaps with control by the end of the rearing.

 The best bird safety results were found during the light-laser treatment of embryos before incubation and during the incubation process, when broilers were ultimately 9.3% more compared to the control.

 The average weight of hatching eggs - analogues in all groups was the same. At the same time, the processing of embryos with radiant energy introduced certain corrections into the dynamics of the egg mass and the yield of daily young animals (Table 4). In group 1, the average live weight of 1 head was 39.69 g of eggs with an average weight of 59.32 g and amounted to 66.91%. Similar indicators respectively amounted in the 2nd group - 40.47; 59.32 and 68.22% and in the 3rd group - 40.87; 59.38 and 68.88%. The difference in the yield of the mass of chickens from the mass of eggs compared with the control was 1.31% in the 2nd group, and 1.92 in the 3rd group.

 Compared with the average live weight of the diurnal young of the control group, the weight of the daily chickens of the experimental broilers was 101.96% in the 2nd group and 102.97% in the 3rd group. Differences in the results of the experimental and control groups are statistically significant at P <0.001.

 According to clinical data, no abnormalities were observed in the experimental chickens. They were distinguished by greater mobility by the sharpness of the reaction to external stimuli. In the average daily gain in live weight of experimental broilers, there were advantages over the control group bird. At the age of 14 days, as compared to the control group, the average daily gain in live weight of the 2nd group was 2.54 g higher and that of the 3rd group 3.30 (P <0.001).

 At 28 and 42 days of age, the average daily gain in live weight exceeded the control results in the 2nd group, respectively, by 2.63 and 2.36 g and in 3 - by 3.28 and 3.28 g (P <0.001).

 At the end of the feeding (56 days), the average daily increase in the control group was 22.87 g, 2 - 24.17 and 3 - 25.74. The difference between the studied indicator between groups 1 and 2 was 1.30 g or 5.68%, 1 and 3 - 2.87 or 12.55% (P <0.001).

 The daily average growth rates and the average live weight of experimental broilers are more contrasted compared to the control in the first 2 weeks of feeding, and with the age of the bird, the effect of processing embryos and daily chickens with radiant energy decreases.

 Multiple light-laser treatments of embryos with small doses before incubation and during incubation at intervals of 6 days more effectively affect broiler productivity in postnatal ontogenesis than just pre-incubation treatment. Higher broiler productivity viability indicators were revealed when treating chicken embryos with small doses of an LGN-104 laser, DLNESG-500, DRT-400 and BUV-15 lamps before incubation and during incubation with an interval of 6 days.

Claims (1)

A method for light-laser treatment of chicken embryos, including preincubation four times with an interval of 5 min, treatment of eggs with light from a DnESG-500 gas discharge lamp with a wavelength of 630-650 nm, an average dose of 23.1 erg on the surface of eggs in an exposure of 15 s, and a LGN-104 helium-neon laser with a length of 632.8 nm wavelength, optical flux on the egg surface of 50 mW / cm ² s, exposure 2 s, DRT-400 mercury-quartz lamp with a wavelength of 185-400 nm, average dose on the egg surface of 20 mer / h and two bactericidal lamps BUV-15 wavelength 254/800 nm, rated power on the surface 15 W eggs in exposures of 5 s, characterized in that the pre-incubation light laser treatment of the eggs was combined with subsequent processing of the embryos during embryonic development in the same mode for 6-, 12- and 18-day incubation.

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