RU2728254C1 - Method for growing of broiler chickens - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the field of agriculture, in particular, to a method for growing of broiler chickens. Method is characterized by that one-time daily feeding of oak bark extract in dose of 1.0 ml/kg of live weight during the entire period of poultry growing, which helps to reduce the number of bacteria of type Firmicutes.EFFECT: invention usage will allow to reduce fat accumulation in carcass and to increase broiler chickens productivity.1 cl, 3 tbl, 1 ex

Description

The invention relates to the agricultural industry and can be used to increase the productivity of farm animals.

Over the past several decades, the main goal of poultry farming in many countries has been to increase the growth rate of animals. However, modern broiler crosses often have a tendency to excess fat deposition in the abdominal cavity [1, 2], which must be controlled, since this has a negative effect on the production of poultry meat, as evidenced by the increased cost of feed during rearing, a decrease in the quality of the final meat and significant economic damage to poultry farms [3, 4, 5]. Due to economic problems and consumer negative attitudes towards excess fat storage, controlling excess fat and improving meat quality are important research topics.

It is known that water extracts of plant origin can provide new simple approaches to the fight against pathogenic bacteria [6, 7]. Some authors suggest that an increase in the growth rates of broilers after the addition of active plant components may be associated with an improvement in the microbial composition of the intestine and metabolic function [8, 9]. For other plant substances, an improvement in the profile of unsaturated fatty acids in meat is characteristic [10].

For example, biologically active additives of Garcinia cambogia extract can be practically used to reduce the excess amount of fat deposition in poultry carcasses [11].

Closest to the proposed application "Method of growing broiler chickens" (prototype) [12]. The invention relates to poultry farming. Chicks at the age of 25 days are completely removed abdominal fat. This leads to a decrease in fat deposition, an increase in the yield of edible parts of the carcass, and a decrease in feed consumption.

Known "Coniferous-glycerin biologically active feed additive for increasing the productivity of farm animals and poultry" [13] contains a coniferous extract of common pine greenery, extracted with glycerin. The use of the additive allows to improve the general condition of animals, increase the safety of livestock, as well as qualitative and quantitative indicators of productivity.

On the basis of the obtained experimental data and a review of the literature, we proposed a method for growing broiler chickens by feeding oak bark extract at a dose of 1 ml per kg of live weight during the entire growing period, which helps to reduce the fat content in muscle tissue, carcass and increase the productivity of poultry.

The objective of the invention is to reduce the deposition of fat in the carcass and increase the productivity of broiler chickens by feeding the oak bark extract during the entire growing period.

The essence of the proposed method for increasing the productivity of broiler chickens lies in the fact that it is based on feeding an oak bark extract containing inhibitors of bacteria such as Firmicutes and tannins (tannins) during the entire period of poultry growing.

The proposed method consists in a single daily dose of oak bark extract at a dose of 1.0 ml / kg of fm. during the entire period of growing poultry.

An example of a specific execution.

The studies were carried out in the conditions of the center for collective use of scientific equipment of the FSC BST RAS on broiler chickens "Smena-8". For the experiment, 60 heads of 7-day-old broiler chickens were selected, which were divided into 4 groups by the analog method (n = 15). During the experiment, all birds were kept in the same conditions. The formation of general rations (RR) for the experimental birds during the research was carried out taking into account the recommendations of VNITIP [14]. Control group - basic diet (OP); Experimental I - OR + extract 1 (1 ml / kg FM); Experimental II - OR + extract 2 (2 ml / kg FM); Experimental III - OR + extract 3 (3 ml / kg FM). The microclimate in the room met the requirements of VNITIP. The experimental poultry was fed 2 times a day, and consumption was recorded daily.

When comparing the experimental groups with each other, the maximum index of meat qualities was observed in the I experimental group, which in absolute value was equal to 2.36, but was inferior to the control group by 0.03. The meat and bone index of the studied poultry in the I experimental group was 0.95% lower than in the control group, and the maximum was noted in the III experimental group, which was 15.7% higher than in the control group.

Considering the data obtained, it should be noted that the additional inclusion of oak bark extract in the diet of broiler chickens contributed to an increase in the total meat yield in comparison with the control group. The best results were observed in experimental group I, with a dosage of oak bark extract of 1 ml / kg of live weight. This dosage has a positive effect on the market value of the product.

The maximum percentage of moisture is observed in the I experimental group, which in absolute terms was 76.2%, which is 1.01% higher than the control group (Table 2).

The level of crude fat in the I experimental group significantly decreased by 27.3% (p≤0.01), relative to the control group, in the II experimental group the opposite picture was observed, namely, its significant increase in 1.54 times (p≤0.01 ) regarding control. The content of crude protein in the experimental groups varied from 18.78% to 19.90%, and its maximum level was noted in the first experimental group, relative to the control and experimental groups, but the changes were insignificant.

According to the results of studies of the microbiota of the blind intestine, it was noted that with an increase in the concentration of the extract, (I) decreases, and then (II, III) microorganisms of the phylum Bacteroidetes in the experimental groups disappear (Table 3).

In the blind part of the intestine, the first group showed a decrease in the phylum Firmicutes, closely associated with obesity [15], due to representatives of the Clostridia and Bacilli classes and the absence of representatives of the phylum Proteobacteria.

Sources of information:

1. Xu Z.R., Wang M.Q., Mao N.H., Zhan H.A., Hu S.N. Effects of L-carnitine on growth performance, carcass composition, and metabolism of lipids in male broilers // Poultry Science. 2003. - Vol. 82. - pp. 408-413.

2. Liang M.J. et al. Estimating the genetic parameters for liver fat traits in broiler lines divergently selected for abdominal fat // Genetics & Molecular Research .. - 2015. - Vol. 14. - pp. 9646-9654.

3. Wu G.Q., Deng X.M., Li J.Y., Li N., Yang N.A potential molecular marker for selection against abdominal fatness in chickens // Poultry Science. - 2006. - Vol. 85. - pp. 1896-1899.

4. Leclercq B., Hermier D., Guy G. Metabolism of very low density lipoproteins in genetically lean or fat lines of chicken // Reproduction Nutrition Development. - 1990. - Vol. 30. - pp. 701-715.

5. Wu X. et al. Differential expression of six chicken genes associated with fatness traits in a divergently selected broiler population // Molecular & Cellular Probes. - 2015.

6. Suurbaar J, Mosobil R, Donkor A.M. Antibacterial and antifungal activities and phytochemical profile of leaf extract from different extractants of Ricinus communis against selected pathogens // BMC Res Notes. - 2017. -Vol. 10 (1) .- p 660.

7. Nianhua Zhu, Jun Wang, Longfei Yu, Qiman Zhang, Kai Chen, Baosheng Liu Modulation of Growth Performance and Intestinal Microbiota in Chickens Fed Plant Extracts or Virginiamycin // Front Microbiol. - 2019. - Vol. 10. - p. 1333.doi: 10.3389 / fmicb.2019.01333

8. Diaz Carrasco JM, Redondo LM, Redondo EA, Dominguez JE, Chacana AP, Fernandez Miyakawa ME. Use of Plant Extracts as an Effective Manner to Control Clostridium perfringens Induced Necrotic Enteritis in Poultry // Biomed Res Int. - 2016. - Vol. 2016 .-- 15 p.

9. Ran C, Hu J, Liu W, Liu Z, He S, Dan ВС, Diem NN, Ooi EL, Zhou Z. Thymol and carvacrol affect hybrid tilapia through the combination of direct stimulation and an intestinal microbiota-mediated effect: insights from a germ-free zebrafish model // J Nutr. - 2016. - Vol. 146 (5). - pp. 1132-40.

10. Mpofu D.A., Upenyu Marume, V. Mlambo, Arno Hugoc The effects of Lippia javanica dietary inclusion on growth performance, carcass characteristics and fatty acid profiles of broiler chickens // Anim. Nutr. - 2016. - Vol. 2 (3). - pp. 160-167.

11. Peng M., Han J., Li L., Ma H. Suppression of fat deposition in broiler chickens by hydroxycitric acid supplementation: A proteomics perspective // Scientific Reports. - 2016. - Vol. 6.

12. Patent for invention №2124836 "Method of growing broiler chickens".

13. Patent for invention No. 2579494 "Coniferous-glycerin biologically active feed additive for increasing the productivity of farm animals and poultry."

14. Fisinin V.I., Imangulov Sh.A., Egorov I.A., Okolelova T.M. and other Recommendations for feeding poultry. Sergiev Posad, 2000 .-- 67 p.

15. Suzuki T.I., Worobey M. Geographical variation of human gut microbial composition // Biology letters. - 2014 .-- 10: 20131037. - doi: 10.1098 / rsbl.2013.1037.

Claims (1)

A method of growing broiler chickens, characterized in that a single daily feeding of oak bark extract at a dose of 1.0 ml / kg of live weight is carried out during the entire period of growing poultry, which helps to reduce the number of bacteria such as Firmicutes.