RU2396005C1 - Method of feeding broiler chickens - Google Patents

Abstract

FIELD: agriculture. ^ SUBSTANCE: invention relates to agriculture, namely technology of feeding poultry. The method of feeding broiler chickens includes an adding of probiotic to feed of broiler chicken. As a probiotic active bacteria Bifidobacterium bifidum No. 1 are used. Lecithin is added together with a probiotic into the feed and it is mixed thoroughly, at that lecithin is added into the feed daily in the amount of 1% by weight of feed for 200 animal units, and a probiotic is added in the amount of 50 million cells per 200 animal units. ^ EFFECT: implementation of the invention allows to improve edible quality of meat of large hothouse chickens, and improve profitability of poultry meat production. ^ 5 tbl

Description

The invention relates to agriculture, namely to the technology of feeding poultry.

It is known to grow broiler chickens, including the use of a food phospholipid product as a biologically active additive (see Likhobabin L., Zhukov I. Fat additives - phospholipids. Journal of Animal Production of Russia, 2005, No. 8, pp. 25-26).

The disadvantage of this method is that when feeding a phospholipid concentrate in an amount of 2.5% by weight of feed, there is an increase in fat content in the pectoral and femoral muscles of chickens by 21.3 and 38.7%, respectively, which reduces its dietary properties of meat.

Closest to the claimed technical solution is a method of preparation of feed, including the introduction of probiotic into the feed (see RF patent 2008349 C1, IPC ⁵ C12N 1/20, A23K 1/16, 02/28/1994).

The disadvantages of the prototype is that the use of liquid forms of the probiotic does not provide sufficiently uniform mixing with dry full feed. Based on this, the entry of live bacteria of the strain Rhodococcus VKPM-916 into the gastrointestinal tract of broiler chickens is not the same.

The objective of the proposed technical solution is to improve the nutritional quality of meat of large meat broiler chickens.

The solution of the technical result is achieved by the fact that in the method of feeding broiler chickens, including the introduction of a probiotic into broiler chickens, according to the invention, the active bacteria Bifidobacterium bifidum No. 1 is used as a probiotic, lecithin is introduced into the feed with the probiotic and mixed thoroughly, while the lecithin injected into the feed daily in an amount of 1% of the feed weight per 200 animals, and the probiotic injected 50 million cells per 200 animals.

This technical solution will increase live weight gain, reduce feed consumption per unit of production, increase slaughter parameters of broiler chickens, as well as improve the nutritional value and biological usefulness of their meat. In addition, the profitability of poultry production is increasing.

The essence of the method is illustrated in tables 1-5.

The method of feeding broiler chickens is as follows.

The active bacteria of the Bifidobacterium bifidum strain No. 1 on a lactulose basis and lecithin were introduced into the feed in an amount of 1% using dispensers every 1.5-2 hours daily, since the digestion processes under the age of 42 days are more intense and absorption quickly occurs during this period nutrients.

For the experiment, by the method of analog groups, 3 groups of Smena-7 cross broilers of 200 animals each were formed, which were reared under similar conditions until 42 days of age. Chickens of group I (prototype) to the main diet (OR) received a culture of Rhodococcus VKPM-S 916 in an amount of 20 million cells per head per day, group II to OR were injected with lecithin in an amount of 1% by weight of feed, and group III (the claimed method) active bacteria of the Bifidobacterium bifidum strain No. 1 were introduced at the rate of 5 doses per 200 animals, which corresponds to 50 million cells per 200 animals per day (250 thousand cells per animal) and lecithin in the amount of 1% of the feed weight per 200 animals (see table 1).

The results of the control slaughter are presented in table 2.

The best effect on the slaughter quality of the bird was exerted by the combined supplementation of preparations of active bacteria of the strain Bifidobacterium bifidum No. 1 and lecithin. In this regard, chickens of group III had the highest slaughter rates, which against the bird of group I was expressed in significant (P <0.05) superiority in weight of half-gutted by 21.3% and gutted carcasses - by 19.9%, and slaughter yield - by 2.5%.

It was found that the combined use of the tested drugs allowed for broilers of group III to reliably (P <0.05) increase the ratios of the ratio of edible parts of carcasses to inedible by 16.3%, carcasses of category I - by 11.2%, respectively.

The chemical analysis of the pectoral and femoral muscles (see table 3) provided additional confirmation of the direct relationship between the level of increase in body weight, slaughter yield and morphological characteristics of broiler carcasses.

The combined use of active bacteria of strain Bifidobacterium bifidum No. 1 and lecithin significantly improved the chemical composition of broiler meat, which resulted in saturation of the pectoral and femoral muscles with dry matter and protein. According to these indicators, the bird of group III had a significant (P <0.05) superiority over group I (prototype) by 1.38 and 0.48% and by 0.69 and 0.53%, respectively.

An important indicator characterizing the dietary properties of white meat is the protein-quality indicator (BPC), estimated by the ratio of the essential amino acid tryptophan to oxyproline (see table 4).

The research results indicate that by co-feeding the active bacteria of the strain Bifidobacterium bifidum No. 1 and lecithin, the most significant (P <0.05) superiority in biological value of meat over group I (prototype) were in group III chickens (1.19 units. ) Moreover, an increase in BKP was provided due to the intensification of deposition of tryptophan in the pectoral muscle.

The combined use of lecithin and active bacteria of the Bifidobacterium bifidum strain No. 1 also contributed to the enrichment of group III broiler meat with unsaturated fatty acids (see table 5) to the greatest extent, which ensured that they had the highest level of unsaturated fatty acid ratio to the limit (against 0.26 units more) fatty acids. Of the three unsaturated fatty acids of oleic, linoleic and palmitinoleic acids found in the lipids of the pectoral muscle, the increase in oleic acid had the most pronounced effect on the increase in the ratio.

The chemical composition and biological value of meat directly affect its organoleptic qualities, as evidenced by the results of tasting samples of white meat (pectoral muscle) of an experimental bird.

Samples of white meat of group III poultry received the highest overall rating, reliably (P <0.05), outperforming 0.80 points in organoleptic qualities of control analogues. Moreover, this superiority was ensured, first of all, by such parameters as taste, aroma and juiciness.

When lecithin and a probiotic based on the active bacteria of strain Bifidobacterium bifidum No. 1 were introduced into the diets of broiler chickens, the profitability level of poultry production increased by 6.03%.

Using the proposed method of feeding broiler chickens will allow, in comparison with the prototype, to increase the nutritional quality of meat and increase weight gain.

Table 1 Scheme of scientific and economic experience Group Feeding Features I (prototype) The main diet (RR) - Rhodococcus VKPM-S 916 20 million cells per head per day II (analog) OR + lecithin in a dose of 1% by weight of feed per 200 heads III (the claimed method) RR + active bacteria of the Bifidumbacterium bifidum strain at the rate of 5 doses per 200 animals (250 thousand cells per head per day) + lecithin at a dose of 1% of the feed weight per 200 animals

table 2 Test broiler slaughter results Indicator Group I (prototype) II (analog) III (the claimed method) Pre-slaughter mass, g 1907 ± 11.4 2076 ± 10.0 * 2201 ± 13.3 * The mass of semi-gutted carcass, g 1569 ± 10.9 1741 ± 12.0 * 1903 ± 11.2 * In% to live weight 82.3 ± 0.18 83.9 ± 0.17 * 86.5 ± 0.26 * The mass of gutted carcass, g 1239 ± 8.8 1362 ± 7.8 * 1486 ± 9.9 * Slaughter yield,% 65.0 ± 0.15 65.6 ± 0.11 * 67.5 ± 0.19 * The mass of edible parts, g 1115 ± 6.3 1230 ± 5.3 * 1368 ± 6.0 * The mass of inedible parts, g 792 ± 3.0 846 ± 3.1 * 833 ± 2.6 * The ratio of edible parts to inedible 1.41 ± 0.001 1.45 ± 0.01 * 1.64 ± 0.02 * Carcasses (%): I category 66,4 76.0 73.7 II category 33.6 24.0 26.3 * P <0.05

Table 3 The chemical composition of the pectoral muscle of broiler chickens,% Group Indicator dry matter protein fat Pectoral muscle I (prototype) 26.22 ± 0.03 22.63 ± 0.02 2,30 ± 0,03 II (analog) 26.83 ± 0.02 * 22.84 ± 0.01 * 2.20 ± 0.01 * III (the claimed method) 27.60 ± 0.04 * 23.32 ± 0.04 * 2.03 ± 0.03 * Thigh muscle I (prototype) 23.52 ± 0.04 19.99 ± 0.04 2.52 ± 0.03 II (analog) 23.78 ± 0.02 * 20.36 ± 0.03 * 2.37 ± 0.01 * III (the claimed method) 24.00 ± 0.05 * 20.52 ± 0.06 * 2.25 ± 0.02 * * P <0.05 Table 4 The biological usefulness of meat (pectoral muscle) of chickens Indicator Group I (prototype) II (analog) III (the claimed method) Tryptophan,% 1.52 ± 0.002 1.61 ± 0.002 * 1.74 ± 0.003 * Oxyproline,% 0.37 ± 0.008 0.35 ± 0.004 0.33 ± 0.010 BKP 4.11 ± 0.04 4.60 ± 0.012 * 5.30 ± 0.03 * * P <0.05

Table 5 The fatty acid composition of the lipids of the dry matter of the pectoral muscle of chickens,% Fatty acid Group I (prototype) II (analog) III (the claimed method) Unsaturated 33.8 42.0 43.6 including: oleic 20.8 28.9 30.3 linoleic 10.7 10.9 11.0 palmitinolein 2,3 2.2 2,3 Saturated 66,2 58.0 56.4 The ratio of unsaturated to saturated 0.51 0.72 0.77

Claims (1)

A method of feeding broiler chickens, including the introduction of a probiotic into the broiler chick feed, characterized in that the active bacteria Bifidobacterium bifidum No. 1 is used as a probiotic, lecithin is added to the feed together with the probiotic, and lecithin is introduced into the feed daily in an amount 1% of the feed mass per 200 heads, and the probiotic is administered in an amount of 50 million cells per 200 heads.