RU2778153C1 - Method for increasing the productivity of cockerels of the lohmann brown cross - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention constitutes a method for increasing the productivity of cockerels of the Lohmann Brown cross, involving the introduction of a conifer energy additive in the amount of 1.5% of the weight of the feed per bird per day into the main diet of cockerels in the age of 1 to 42 days.

EFFECT: possibility of increase the productivity of cockerels of the Lohmann Brown cross.

1 cl, 12 tbl

Description

The invention relates to agriculture, in particular to poultry farming and can be used to feed farm birds with a balanced diet.

Industrial poultry farming is one of the highly specialized branches of the agro-industrial complex, which is a complex integrated system that provides all processes from poultry reproduction to the production and sale of finished products [Fisinin V., Egorov I. Modern approaches to poultry feeding / poultry farming - 2011. - No. 3 . - S. 7-9 (1)].

Today, from the standpoint of modern ideas about a full-fledged balanced feeding of poultry, the need to use biologically active additives in diets is justified. Their rational use is based on increasing the productive action, increasing the transformation of nutrients that increase the digestibility and efficiency of the use of nutrient rations [Gorlov I.F., Cheprasova O.V., Klochkov M.M. Reserves for increasing the efficiency of production of food eggs / News of the Nizhnevolzhsky agro-university complex: science and higher professional education. - 2008. - No. 3 (11). - S. 78-84 (2)].

Feed additives of plant origin are considered the best alternative to widely used and well-established antibiotic growth stimulants [Egorov I.A., Andrianova E.N., Prisyazhnaya L.M. Application of Verva and fir flour in feed for broiler chickens / Poultry and poultry products. - 2007. - No. 6. - S. 39-41 (3)].

Preparations from plant biomass of coniferous species are widely used in medicine and veterinary medicine. Their introduction is due to the presence of biologically active substances in the preparations, which, when introduced into the body, even in very small quantities, cause a certain physiological effect. [Soloviev, L.F. The use of coniferous extract in beekeeping [Electronic resource] / http://bee.inff.by/4577rk10240.html. Date of access: 11/12/2018 (4)].

At present, the use of forest processing waste in feeding animals and poultry has become more active. New technologies for the production of non-traditional feed are being introduced, the use of which contributes to solving not only economic problems, but also environmental ones. Needles are an important natural source of replenishment of feed with vitamins. 1 kg of dry matter of pine needles or spruce contains an average of 350-360 mg of carotene, vitamins of group B and vitamins C, E, K, etc. The needles contain chlorophyll and xanthophyll, which play an important role in metabolism, as well as a large amount phytoncides that protect animals from intestinal diseases.

It has been established that feeding needles to domestic animals helps to prevent beriberi and increase their productivity, while meat yield does not decrease and its quality does not deteriorate. The use of fresh crushed needles in experiments on young cattle reduced the cost of feed per unit of production by 5-10% compared to the control data. Pine needles contain iron, manganese, copper, zinc, cobalt, potassium, sodium, calcium, etc. The high content of cobalt in needles explains the therapeutic effect of feeding it to cattle. In addition, the needles contain resinous substances, essential oils and phytoncides, which have a bacteriostatic effect on the intestinal microflora [RF Patent No. 2676724. The method of feeding highly productive cows / Publ. 01/10/2019. Bull. No. 1 (5)].

The Institute of Chemistry, Komi Scientific Center, Ural Branch of the Russian Academy of Sciences, has developed a feed additive for animals and poultry, Verva, which has a growth-stimulating effect in growing broilers, improves poultry productivity and reduces feed costs per unit of production. The drug is non-toxic, has a pronounced virucidal effect against Newcastle disease and avian influenza viruses, and at concentrations of 0.2-10.0 g/l, it has a protective effect on the Fabrician bag of chickens when infected with the infectious bursal disease virus (IBD) [Hurshkainen T .V., Dubovoi A.S., Kuchin A.V., Dzhavadov E.D. The study of antiviral and immunomodulatory properties of coniferous feed additives / Poultry. - 2018. - No. 3. - S. 37-41 (6)].

A known method of increasing the productivity of turkeys cross "Universal" [RF Patent No. 2640359. Published 12/28/2017. Bull. No. 1 (7)]. The method is characterized by the fact that a coniferous-energy supplement is introduced into the daily diet of birds in the amount of 4% of the main diet per animal, while an extract from needles based on glycerin is used as an additive. The use of the invention allows to obtain a high gain in live weight and improve the safety of birds.

The purpose of the present invention is the use of coniferous energy additives [RF Patent No. 2543814. Published 03/10/2015. Bull. 7 (8)], which allows to increase the digestibility of feed, improve metabolic processes in the bird's body and lead to an increase in the productivity of males of the Loman-Brown cross.

The method for increasing the productivity of males of the Loman-Brown cross is characterized by the fact that it provides for the introduction of a coniferous-energy additive in the amount of 1.5% per head per day into the main diet of males under the age of 42 days.

The manufacturer of the coniferous-energy additive (HED) is LLC NTC "Khiminvest" Nizhny Novgorod. CED is a homogeneous viscous liquid with a characteristic coniferous odor, olive green or dark green in color, water content not more than 50%, pH 8.0-9.0, density not less than 1.126 g/cm3 and mass fraction of carotene not less than 3 mg % per 100 g of extract. Studies of the chemical composition of CED showed a high content of B vitamins (B1, B2, B3, B5, B6, B9), as well as carotenoids and other biologically active compounds. The energy value of the coniferous energy supplement is 250 kcal/100 g of the supplement.

The experiment was carried out in the conditions of the vivarium of the Federal State Budgetary Scientific Institution KNTsZV on males of the Loman-Brown cross. The bird was purchased at the poultry farm of the GShZ "Labinsky" in the city of Labinsk. Three groups were formed from daily cockerels by the method of pair-analogues.

The first group (control) received complete feed for the entire period of the experiment. The diets of the second and third groups included a coniferous energy supplement in the amount of 0.8 and 1.5%, by weight of the feed, respectively.

All birds were kept under the same conditions, in a multi-tiered cage, with free access to water and feed. Chickens received compound feed in the amount according to the recommendations for this cross.

The nutritional value of the mixed feed corresponded to the needs of the bird during all periods of cultivation.

The data of individual weighing of birds at 70 days indicate that the inclusion of CED in the diets of the third group contributed to an increase in live weight by 10.1%, compared with the control.

As a result of the control weighing at the end of the experiment (91 days), a significant increase in the live weight of chickens in the second group by 6.3% (at P≥0.95) was established in comparison with the control indicator. The inclusion of the CED feed additive in the diets for the third group, in the amount of 1.5% by weight of the feed, contributed to an increase in the final live weight of the bird by 7.8% (at Р≥0.99), relative to analogues in the control group.

According to the data, it was found that the inclusion of a coniferous energy feed additive in the diets for males in the amount of 0.8 and 1.5% by weight of the feed contributed to an increase in gross live weight gain by 7.1 and 7.8%, respectively, compared with control.

The data obtained indicate that the feeding of an energy supplement as part of the rations to chickens contributed to an increase in the average daily gain in their live weight by 6.1 and 7.7%, in groups 2 and 3, respectively, in comparison with the control.

During the entire experiment, the safety of the livestock was taken into account. According to the results obtained, the safety in groups 2 and 3 was 100.0%), respectively, in comparison with the control - 97.4%. The death of a bird is not related to the feeding factor or the conditions of their keeping.

The experimental group 2 consumed 2.7% more than the control group. Males in the 3rd group ate 2.7% less compared to the control - 3.7 kg. However, the lowest feed costs per 1 kg of live weight gain were in the third group - 2.8 kg, which is 12.5% lower than the control. In the second group, this indicator decreased by 6.2%, relative to the control. In group 2, the average daily feed intake was higher by 2.4% compared to the control. In group 3, this indicator decreased by 3.1%, relative to the control.

In order to study the development of muscle mass and internal organs, at the age of 70 days, a control slaughter of birds was carried out, 3 heads from each group (Table 7).

The data obtained indicate that in the third group, the live weight before slaughter and the weight of the non-gutted carcass were higher than the control by 10.6 and 11.5%, respectively.

A tendency to an increase in the mass of internal fat was established when feeding males CED in the amount of 0.8%, by weight of the feed, in comparison with the control group. The use of the studied feed additive (1.5% by weight of the feed) in the diets for the third group contributed to a significant increase in the amount of internal fat by 4.6 times, compared with the control.

The index of massiveness increased in the second and third experimental groups by 7.8 and 15.3%, respectively, relative to the control value.

In order to study biochemical parameters, blood was taken from 6 individuals from each group.

According to the results of blood serum studies, it was found that the level of albumin in the second group was significantly lower by 7.7%, relative to the control. In group 3, there was a trend towards a decrease in the level of albumin by 4.6%, compared with the control.

The level of α globulins in the 2nd and 3rd experimental groups decreased by 4.8 and 5.6%, relative to the control.

In group 2, which received 0.8% CED by weight of feed, the level of β globulins significantly decreased by 25.9%, compared with the control. In group 3, where the concentration of CED was increased to 1.5% of the feed mass, the level of β globulins increased by 25.3% compared to the control.

The level of γ globulins in groups 1 and 3 was almost the same. In the second group, this indicator significantly increased by 15.6%, relative to the control.

The level of urea in the blood serum of males fed 1.5% CED in the diet, by weight of feed, significantly (at P≥0.99) increased by 38.0% compared to the control. In group 2, a significant increase in cholesterol levels by 27.3% was found relative to the control.

Feeding males of the 3rd group of CED in the amount of 1.5%, by weight of the feed, contributed to a significant (at P≥0.95) increase in the level of AST by 13.1%, compared with the control. The level of ALT in this group was also significantly (at P≥0.95) higher than the control by 33.3%, relative to the control.

In the blood serum of cockerels of the second group, a significant (at P≥0.95) decrease in the level of creatinine by 19.4% was found, relative to the control. The level of triglycerides in all groups was almost the same.

In general, all blood serum parameters were within the physiological norm in all groups.

The obtained results of laboratory studies indicate that in the muscle homogenate of the second group, the mass fraction of protein increased by 1.05%, compared with the control value.

The mass fraction of fat in terms of dry matter was almost the same in all groups.

In the muscle homogenate of groups 2 and 3, the level of mass fraction of moisture increased by 2.2 and 1.9%, respectively, relative to the control.

In general, the physicochemical parameters in all groups were within the normal range for this type of bird and its physiological state.

The concentration of toxic elements in all groups did not exceed the permissible levels established by the current GOSTs and MU.

According to the results of the control slaughter at 90 days, it was established that the pre-slaughter live weight of males in group 3 was significantly higher than the control by 7.1%.

Feeding a feed energy supplement to the second group of birds contributed to the establishment of a trend towards an increase in this indicator. In the third group, the weight of the gutted carcass significantly increased by 7.4%, compared with the control.

Thanks to the anatomical cutting of carcasses, it was found that the mass of the pectoral muscles in groups 2 and 3 was significantly higher than the control value by 20.1 and 19.4%, respectively.

The weight of the leg muscles in the second group significantly increased by 9.7%, compared with the control.

The inclusion of CED in compound feed for poultry in the amount of 0.8%, by weight of the feed, contributed to the establishment of a trend towards an increase in intestinal mass in the second group, in comparison with the control indicator. In group 3, when feeding CED in an amount of 1.5% of the feed weight, the intestinal mass significantly increased by 33.0%, compared with the control.

In parallel with the chemical analysis of meat, an analysis of the water-holding capacity of meat was carried out. As a result of the tests, it was found that the water-holding capacity of meat in the second group was higher by 1.71%, in comparison with the control - 20.28%. However, in group 3, this indicator was lower than the control value by 0.67%. Our data does not allow us to identify any trends.

Analyzing the data obtained, it can be said that feeding CED in diets for males in the amount of 0.8-1.5%, by weight of the feed, contributed to a decrease in the cost of 1 kg of live weight gain by 2.8 and 3.9%, respectively, relative to control. The profit received per head in groups 2 and 3 was higher by 17.7 and 12.4% compared to the control.

The use of the studied energy supplement in feeding males contributed to an increase in the level of profitability, in comparison with the control, by 3.8 and 5.2%, in groups 2 and 3, respectively.

Sources of information accepted during the examination of the application:

1. Fisinin V., Egorov I. Modern approaches to poultry feeding / poultry farming - 2011. - No. 3. - S. 7-9.

2. Gorlov I.F., Cheprasova O.V., Klochkov M.M. Reserves for increasing the efficiency of production of food eggs / News of the Nizhnevolzhsky agro-university complex: science and higher professional education. - 2008. - No. 3 (11). - S. 78-84.

3. Egorov I.A., Andrianova E.N., Prisyazhnaya L.M. Application of Verva and fir flour in feed for broiler chickens / Poultry and poultry products. - 2007. - No. 6. - S. 39-41.

4. Solovieva, L.F. The use of coniferous extract in beekeeping [Electronic resource] / http://bee.inff.by/4577rk10240.html. Date of access: 11/12/2018.

5. RF patent No. 2676724. Published 01/10/2019. Bull. No. 1.

6. Khurshkainen T.V., Dubovoi A.S., Kuchin A.V., Dzhavadov E.D. The study of antiviral and immunomodulatory properties of coniferous feed additives / Poultry. - 2018. - No. 3. - S. 37-41.

7. RF patent No. 2640359. Published 12/28/2017. Bull. No. 1.

8. RF patent No. 2543814. Published 03/10/2015. Bull. No. 7.

Claims (1)

A method for increasing the productivity of males of the Lohman-Brown cross, which involves the introduction of a coniferous-energy supplement in the amount of 1.5% of the feed weight per head per day into the main diet of males aged from 1 to 42 days.