RU2746500C1 - Method for increasing the meat productivity of cattle - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to a method for increasing the meat productivity of cattle. The method is characterized by the fact that the main diet of animals from 10 to 16 months of age is supplemented with "Vitazar" with an input rate of 3-5% of the mass of the main diet and "CoreMix" in an amount of 30-50 g per head per day.

EFFECT: use of the invention will improve overall resistance of the body of cattle, the conversion of nutrients and product quality.

1 cl, 9 tbl, 1 ex

Description

The invention relates to agriculture, in particular to cattle breeding, which can be used for fattening cattle in order to increase the early maturity and productivity of farmed animals.

In recent years, Russia has been developing domestic specialized beef cattle breeding. Some livestock farms began to focus on the production of high-quality varieties of raw meat, in particular, beef. Such meat is in great demand in the meat market. At the same time, the production of such beef without the use of steroids and hormonal agents increases the competitiveness of this type of product in the world market in the countries of the West and the Middle East. Therefore, it can be noted that the domestic base of meat raw materials is expanding, which allows you to choose between types of meat and plan processing without fear of interruptions in its supply.

In connection with the state support of the domestic agro-industrial complex, the introduction of quotas on restrictions on the import of meat products from a number of countries, domestic meat animal husbandry has shown steady growth in recent years in virtually all segments of raw meat. Nevertheless, beef production is still one of the most costly segments of beef cattle breeding, so today the urgent task is to provide the population with competitive beef. The solution to this problem is possible by increasing the number of commercial livestock and creating conditions for the realization of its genetic potential for productivity.

It is known to use the feed additive "Coremix" in the production of beef by introducing into the diet of fattening bulls an organosilicon additive at the rate of 1.5; 2.0 and 2.5 kg per 1 ton of concentrated feed contributes to an increase in the average daily gain of their live weight by 5.53; 8.54 and 10.10%, the mass of the steam carcass - by 0.50; 0.81 and 0.97%, the yield of pulp in carcasses - by 0.38; 0.40 and 0.52%, the conversion rate of protein feed for meat products - by 0.61; 0.72 and 0.76% and energy - by 0.09; 0.12 and 0.14%, the level of profitability of beef production - by 2.99; 9.43 and 11.37%. The most effective was the dosage of the feed additive - 2.5 kg per ton of concentrated feed [4].

The known method of growing pigs, poultry, animals, bees, fish using in the main diet flour from wheat germ "Vitazar" as a component of feed and premixes. In all cases, it was noted that when Vitazar was added to the main diet, there was a decrease in the loss of animals and birds, an increase in reproductive capacity and natural resistance was noted. Wheat germ flour has established itself as an effective biological supplement to the diet of various animal organisms (herbivores, predators, birds, insects) [5].

In this connection, in our scientific experiment, a new feed additive was developed and used, consisting of a mixture of an organosilicon feed additive "CoreMix" (TU 9296-220-10514645-16, GNU NIIMMP, "MegaMix", Russia, Volgograd) and flour from wheat germ "Vitazar" (TU-9295-015-18062042-2015, company "SibTar", Russia, Novosibirsk).

The scientific experiment was carried out on the basis of the SEC "Fertile" of the Republic of Kalmykia in the period from January 2020 to May 2020. 3 groups of animals were formed with 10 heads each (calf of the Kalmyk breed of cattle aged 9-10 months): control group 1 - fed with the feed additive "KoreMix", group 2 (experimental 1) - received "Vitazar", group 3 (experimental 2) - received top dressing based on the feed additives "CoreMix" and "Vitazar".

During the experimental period, 3 control weighing of animals from three groups was carried out. The results of control weighing showed that the average daily weight gain of animals from experimental group 1 was 0.860 kg, while animals of the control group added an average of 0.928 kg, animals of experimental group 2 - 0.955 kg. In addition to the higher dynamics of live weight in experimental group 2, an increase in meat productivity, an improvement in hematological parameters, and the chemical composition of the obtained meat raw materials were noted.

The technical result is an increase in the meat productivity of cattle, an expansion of the range of feed additives for animals.

This is achieved by the fact that a feed vitamin and mineral supplement is introduced into the main diet for fattening cattle, consisting of the following vitamin and mineral components - the organosilicon feed additive "KoreMix", introduced into the diet in an amount of 30-50 g per head per day and flour from wheat germ "Vitazar" at the rate of 3-5% of the mass of the main diet.

The fodder additive "CoreMix" (TU 9296-220-10514645-16) was developed by scientists of the State Scientific Institution "Povolzhsky Research Institute for the Production and Processing of Meat and Dairy Products" and LLC "MegaMix", the composition of which is presented in Table 1.

Studies have found that there is a lack of a number of minerals in the diets of beef cattle, incl. calcium, sodium and other elements. To compensate and adjust the rations of animals, additional flour from wheat germ "Vitazar" was introduced. The nutrient content of flour is shown in Table 2.

The rich mineral composition of flour from wheat germ made it possible to enrich the traditional diet of animals in the conditions of scarce pasture herbage in the steppe and semi-desert territories of the South of Russia.

Let's note some trace elements and their influence on the production of meat raw materials. So, potassium plays an important role in the processes of intracellular metabolism. In the absence of this trace element, many enzymes simply cannot perform their functions. With a lack of potassium in the body, the conduction of nerve impulses is disturbed, tissue edema develops, and the likelihood of diseases of the cardiovascular system increases. Potassium is essential for normal muscle function, including the heart.

Calcium is a trace element necessary for the normal functioning of muscles, muscles of the heart, nervous system and bones. Lack of calcium leads to thinning of bones and an increase in their fragility. For the absorption of calcium, vitamin D is absolutely necessary, which regulates phosphorus-calcium metabolism. Calcium deficiency in the body can be the cause of developmental and growth disorders.

Magnesium is an element that activates enzymes. It also stimulates the formation of proteins, regulates the storage and release of energy, reduces the excitation of nerve cells, relaxes the heart muscle. Magnesium increases efficiency and physical endurance, prevents heart disease, and reduces blood clotting.

Phosphorus, together with calcium, plays an important role in the formation of bone tissue, participates in metabolism, activates many B vitamins, and is part of some enzymes.

Iron is necessary for the formation of red blood cells that carry oxygen from the lungs throughout the body, protects the mucous surfaces of the mouth and nose, prevents some liver and stomach diseases, and increases the protective functions of the immune system.

Zinc regulates appetite, prevents allergies, decreases cellular immunity and the body's resistance to diseases, protects against excessive accumulation of copper, cadmium, and lead in the body. Zinc is very important for the normal absorption of sugar.

Selenium is a trace element that has the ability to neutralize free radicals and prevent liver necrosis (cell death), degenerative changes in the pancreas, testes and kidneys, as well as atherosclerosis, cataracts, growth retardation, some lung diseases, cancer.

Copper is involved in the processes of hematopoiesis, regulates the absorption of iron in the body, protects against a number of diseases.

Manganese regulates carbohydrate metabolism and cholesterol content, as well as the process of cartilage formation. It is necessary to maintain normal bone tissue. Protects against allergic and other diseases.

It has been established that a significant amount of macro- and microelements is present in the lipid component of the wheat germ.

Biochemical and fatty acid composition, vitamin composition and composition of unsaponifiable fraction, amino acid composition of wheat germ flour are shown in tables 3, 4, 5.

Comparison of the chemical, vitamin, amino acid and mineral composition of flour from wheat germ with various mineral and vitamin preparations indicates their almost identical set of nutrients (with the exception of vitamin C), with the only difference that in the embryo they are of natural origin, and, therefore, the most friendly to the animal organism and the human body.

An example of the implementation of the method.

Experimental work was carried out in a breeding breeding machine for breeding Kalmyk cattle of the SEC "Plodovitoe" in Maloderbetovsky district of the Republic of Kalmykia. Control slaughter of young animals, deboning of carcasses were carried out in the conditions of the slaughterhouse of the pedigree breeder.

In order to conduct the experiment on the principle of analogs, 3 groups of bulls at the age of 9-10 months, 10 heads each, were formed. The gobies of the control group received the basic diet of the farm (RR) + CoreMix supplement at a dose of 30-50 g per head per day. Animals of all experimental groups received the studied additives: 1 experimental group received OR + feed additive "Vitazar" at a dose of 3-5% of the diet weight per day; Experimental group 2 received OR + Vitazar in the amount of 3-5% of the diet weight per head per day + CoreMix in the amount of 30-50 g per head per day. The research was carried out within 180 days - from 10 to 16 months of age of bulls.

The experimental young animals were kept separately in groups according to the technology adopted in beef cattle breeding. Feeding and watering of animals was carried out in walking yards. Distribution of coarse and succulent feed was carried out by a mobile feed dispenser.

During the experiment, a number of indicators were studied in experimental bulls in order to comprehensively assess the effect of the introduced feed additive on the metabolism, growth and development of animals, and their immune status.

As a result of the conducted studies, it was found that the highest natural resistance was in bulls that consumed the studied feed additives with the diet ("CoreMix" + "Vitazar"). Thus, in animals of the 2nd experimental group, the lysozyme activity was higher than that of the analogs from the control and 1st experimental groups by 1.92 and 3.62%, respectively, bactericidal - by 1.91 and 2.93%, phagocytic - by 2.16 and 3.15%. Their phagocytic index was higher than that of analogs from the control and 1 experimental by 3.48 and 8.88% (table 6).

One of the main indicators of the growth of young animals is the change in their live weight in certain periods of ontogenesis.

In our studies, the experimental gobies when setting up the experiment had insignificant differences in live weight (table 7).

Live weight indicators varied in groups from 248.70 to 250.1 kg. In the process of growth, their live weight changed in favor of the gobies that consumed the studied feed additives with their diet. So, at the age of 12 months, the live weight of young animals of the 2nd experimental group was higher than that of the analogs from the control and the 1st experimental, respectively, by 7.8 kg or 2.5%, and by 14.6 kg or 4.6% (P> 0 , 99), at 16 months - by 8.5 kg or 2.4%; by 11.6 kg or 3.3% (P> 0.999).

During the rearing period, the absolute increase in live weight in the bulls of the 2nd experimental group was higher than in the control, by 7.8 kg or 7.9%, higher than in the 1st experimental group by 12.3 kg or 12.4% ( P> 0.999).

The most clearly and objectively about the growth rate of animals can be judged by the indicators of their average daily gain. The highest growth rate was found in young animals that consumed the studied feed additives. Thus, the young growth of the 2nd experimental group exceeded the analogs from the control for the period of growth from 10 to 16 months of age, respectively, by 43 g or 7.8% in average daily gain, and by 68 g or 12.3% from the 1st experimental group (P> 0.95).

For individual age periods, the average daily gain varied in the control group of bulls from 675 to 916 g, in 1 experimental group - from 333 to 655 g; in 2 experimental - from 782 to 1030

It was found that in terms of the relative growth rate, animals that consumed the studied feed additives exceeded their counterparts from the control and 1 experimental group by an average of 10%.

At the age of 16 months, experimental bulls were slaughtered, 3 heads from each group at the slaughterhouse of the "Fertile" agricultural enterprise of the Maloderbetovsky district of the river. Kalmykia.

The control slaughter showed that the pre-slaughter live weight of young animals of the 2nd experimental group was more than the analogs from the control - by 13.1 kg or 3.7% (P> 0.999), from the 1st experimental group - by 10.3 kg or 2, 9%, (table 8). Their carcass yield was higher by 1.4 and 1.9%, respectively.

In animals of the 2nd experimental group, the most intensive deposition of internal raw fat was noted. The internal raw fat in the bulls of the 2nd experimental group was deposited more than in the analogs from the control group and the 1st experimental group, respectively, by 13.8 and 15.8%.

In general, the slaughter weight of gobies that consumed the new feed additive was 6.94% higher than that of the control analogs, and the slaughter yield was higher by 1.7%. And in comparison with analogs from the control group, the superiority according to these indicators was, respectively, by 6.99 and 2.2%.

Deboning showed that the pulp in the carcasses of young animals from the 2nd experimental group contained more than the analogs from the control group by 8.34%, and its yield was higher by 0.6%, and the superiority over the analogs from the 1st experimental group in terms of pulp weight was 10 , 32%, and its yield was 1.7% higher.

The mass of bones and their yield were somewhat higher in the bulls of the 2nd experimental group, since these animals were larger. But the meat index of carcasses in young animals that consumed the studied feed additives was higher than that of analogs from the control and 1 experimental group.

The higher meat productivity of the bulls of the 2nd experimental group can be explained by the ability of feed additives to regulate pH in the gastrointestinal tract, improve protein digestibility and suppress the growth of pathogenic microorganisms. In this case, the microflora of the acidophobic group (E. Coli, Salmonella, CampyloSacter, Listeria) is replaced by the acidophilic one (Bifidobacterium sp., Lactobacillus sp.).

The studied feed additives had a beneficial effect on the development of beneficial microflora of the gastrointestinal tract and, thereby, activated parietal digestion, which ensured a slower passage of chyme through the gastrointestinal tract, increasing the productive effect of feed. At the same time, mineral substances with growth-stimulating properties helped to reduce the impact of technological stress factors on the body of bulls.

The features of transformation of nutrients of feed into an edible part of the body of gobies, who received the studied feed additives with the diet, were studied (Table 9).

During the research, it was found that the bulls of the 2nd experimental group, in comparison with the analogs from the control, synthesized more protein by 5.75%, fat - by 13.84%, energy - by 10.62%; in comparison with analogs from experimental group 1, they synthesized more protein by 16.54%, fat - by 27.42%, energy - by 23.04%.

The protein yield per 1 kg of live weight in the bulls of the 2nd experimental group was higher than that of the analogs from the control by 1.81%, fat - by 9.59%, energy - by 6.38%, compared with analogs from the 1st experimental groups - more protein by 13.12%, fat - by 23.69%, energy - by 19.31%.

Calculations showed that the higher conversion rates of protein and feed energy into meat products were observed in bulls that consumed the studied supplement with the diet.

Thus, the conversion rate of protein in experimental group 2 was higher than that of analogs from the control, by 0.12%, metabolic energy - by 0.23%.

Thus, the introduction into the diet of fattening cattle studied new feed additives "CoreMix" at a dose of 30-50 g per head per day and flour from wheat germ "Vitazar" at the rate of 3-5% of the mass of the main diet, contributed to an increase in the general resistance of the body of gobies, an increase in consumption, digestibility and assimilation of nutrients and feed energy, an increase in meat productivity and an improvement in product quality.

List of sources taken into account during the examination:

1. RU 2222965, 2004.

2. RU 2479214, 2013.

3. RU 2341973, 2008.

4. Gariaeva, Kh.B. The effectiveness of the use of the new feed additive "Coremix" in the production of beef: author. diss. Cand. biol. Sciences / Garyaeva Khongr Badmaevna - Volgograd, 2019 .-- 25 p.

5. The embryo of health: monograph / A.B. Vishnyakov, V.N. Vlasov, N.S. Rodionova, T.V. Alekseeva, E.S. Popov, A.A. Dyakov. - 2nd ed., Revised and enlarged. - Voronezh, 2018 .-- 286 p.

6. Spirichev, VB Fortification of food with vitamins and minerals. Science and technology / V.B. Spirichev, L.N. Shatnyuk, V.M. Poznyakovsky. - Novosibirsk: Sib. Univ. publishing house, 2005. - p. 132. (4)

7. Pyatkova, Yu.P. The effectiveness of the use of new feed additives "Yoddar" and "Yoddar-Zn" in milk production: author. diss. ... cand. biol. Sciences / Yulia Petrovna Pyatkova - Volgograd, 2012 .-- 19 p.

8. Rebrov, V.G., Gromova, O.A. Vitamins and minerals. - M .: "ALEV-V", 2003 - S. 118-121. (6).

Claims (1)

A method of increasing the meat productivity of cattle, characterized by the fact that animals from 10 to 16 months of age are introduced to the main diet with "Vitazar" with an input rate of 3-5% of the mass of the main diet and "CoreMix" in the amount of 30-50 g per head per day.