Productive indicators of cows and milk quality, when adding amide-vitamin-mineral concentrate to the diet

Sergey Yu Smolentsev1, Galiya R Yusupova*2, Nikita V Nikolaev2, Zaira F Aukhadieva2, Renat A Volkov2, Aliya R Kashaeva2, Firaya K Akhmetzyanova2, Aigul Z Karimova3 1Mari State University, Lenin Square 1, Yoshkar-Ola city, 424000, Russia 2Kazan State Academy of Veterinary Medicine by N.E. Bauman, Sibirsky tract 35, Kazan city, 420029, Russia 3Kazan cooperative institute (branch) Russian university of cooperation, N. Ershov street 58, Kazan city, 420081, Russia


INTRODUCTION
Animal breeding is the predominant livestock industry. This is due to the fact that cattle provide more than 99% of milk and about 50% of beefthe main livestock products of the population of our planet Smolentsev et al., 2018). Depending on the natural and economic characteristics of individual zones, districts and farms, cattle breeding can be dairy, meat and dairy and meat (Semenov et al., 2018).
Increasing the production of high-quality livestock products is a problem over the years that does not lose its relevance, but is increasingly gaining importance both with the growth of the population of our planet, particularly in our country, and the satisfaction of humanity's need for food. In connection with this, great economic importance is attached to the development of this industry (Anatolievna et al., 2016;Ilyasovich et al., 2016;Egorov et al., 2018).
Full satisfaction of the needs of the country's population in food products, including milk and meat, urgently requires comprehensive expansion and improvement of their production. For this industry to be competitive, it must be based on a highly productive population (Matveeva et al., 2015;Dmitriyevich et al., 2016). However, to fully reveal the genetic potential of a cow, it is necessary in a special way to ind methods to increase the ef iciency of feed use. In a balanced feeding system for dairy cattle, fodder protein and energy play an important role in feeding. To this end, the search for new feed resources continues, the identi ication and use of which will make up for the lack of protein and increase the biological value of feed rations (Valiullin, 2017;Popov et al., 2018).
In connection with the foregoing, the objective of our research was to develop the theoretical foundations and practical principles of production, and the introduction into production of amide-vitaminmineral concentrates (AVMC) with a high content of protein and energy, as well as their rational use in animal feed and feed rations of cows.
AVMC is an extruded mixture of high-protein energy-saturated feed components and urea with the optimal amount of nutrients and biologically active substances, adapted to the biogeochemical characteristics of the region and feed production.
The aim of our research was to study the milk productivity of lactating cows and the cost-effectiveness of using AVMC feed additives in the diet.

MATERIALS AND METHODS
The task was carried out in the conditions of the Biryuli dairy farm of the Vysokogorsky district of the Republic of Tatarstan, where scienti ic and economic experiments were set up on three groups of lactating cows. For the experiment, 30 cows were selected, 10 in each Holstein black-and-white breed according to the principle of analogues, taking into account the breed, age, productivity, live weight, fat and protein in milk. The experimental design is shown in Table 1.
According to the experimental design, the animals that were undergoing the experiment that were of the control group received a balanced household ration, consisting of haylage of vetch-oat, barley straw and mixed feed of their own production. In the diets of cows of the second and third experimental groups, various experimental AVMCs were included in the amount of 12% of the grain part without disturbing their balance. The staff of the animal husbandry department of the Tatar Agricultural Research Institute has developed a recipe for an experimental AVMC for dairy cows, the feed value of 1 kg of which is 10.0 -10.9 MJ of exchange energy, 32.0 -33.0% of crude protein, 5.0 -5.6 crude fat, 2.0 -2.8 crude iber, 2.2 -2.3 calcium, 2.4 -2.6 phosphorus and 2.9 -3.0% sodium chloride.
The missing amount of vitamins and minerals in the diet of the experimental groups were enriched in the form of vitamin-mineral premix P60-3.
Every 15 days, milk productivity was taken into account individually for each cow by means of control milking with determination of fat content, protein, density, dry skim milk residue (DSMR) in milk.
Digital material was statistically processed on a personal computer using generally accepted methods of variation statistics using the Microsoft Excel program.

RESULTS AND DISCUSSION
Studies found that the milk productivity of cows in the second and third groups during the experiment was higher by 1.97 and 3.22 kg in terms of basic fat content or by 8.9 and 14.6%, respectively, compared with the control (Table 2).
Milk obtained from cows from the experimental groups was noted to have a high fat content. In this case, the maximum milk fat was detected in cows of the third experimental group and amounted to 4.07%, which is 0.18% higher than the control indicators. According to the protein content in milk between groups, no signi icant difference was found.
When calculating the yield of milk fat over the period of the experiment, experimental animals of the second and third groups also differed, which received different AVMC in diets. So, if in the second experimental group the yield of milk fat was 38.18 kg, then in the third -40.97 kg, which is more than in the control by 10.3% and 18.4%, respectively (P<0.05) * . In terms of milk protein yield, these indicators exceeded the control by 11.4% and 14.5%.
The milk productivity of cows differed with the test feeding , balancing concentrates was re lected at the cost of feed and nutrients per unit of output. So,   if in the irst control group 10.97 MJ of feed were spent per 1 liter of milk, then in the second and third experimental groups, respectively, 10.11 and 9.68 MJ or less by 7.8 and 11.8% compared with the control . A similar pattern has been established for raw protein costs.
Consequently, feeding in the diets of cows AVMC, which included sun lower fuze, has a more productive effect than with rape oilseeds Analysis of the chemical composition of milk in experimental animals (Table 3) showed that dry matter and DSMR were greater in the third experi-mental group compared with the control group by 0.42% and 0.23%, and compared with the second experimental group by 0.49% and 0.47%, respectively, indicating a higher content of organic and mineral substances in milk. The protein content comparison is favourable with milk obtained from cows of the second group and amounts to 3.06%.
In the milk of cows of the third group, its content was less by 0.05%, and the irst control by 0.09%. Animals in the third experimental group exceeded the fat content in milk and amounted to 4.07%, while in the irst and second groups these indicators were at the level of 3.89% and 3.97%, which is lower by 0.18% and 0.10 % respectively. The milk density indices in all three groups corresponded to the norm, but in the third group this indicator was higher by 0.31...0.36%.
The content of calcium and phosphorus in milk between the groups did not have large differences. Therefore, analyzing the foregoing, we can say that according to a set of quality indicators, the milk of cows of the third experimental group had an advantage over other groups.

CONCLUSIONS
Thus, AVMC with rapeseed oil seeds and AVMC with fus in the diet of lactating cows provided higher animal productivity and had a positive effect on the chemical composition of milk, as evidenced by its high technological parameters.