RU2743371C1 - Mineral feed additive based on agrelite to increase productivity and improve metabolic processes in pigs - Google Patents

Abstract

FIELD: veterinary medicine.SUBSTANCE: invention relates to zootechnics and veterinary medicine and namely to a mineral feed additive for pigs. The additive contains 27-30% of agrellite, 11.0-12.0% of sodium chloride, 14-15% of potassium chloride, 11.5-12.5% of tricalcium phosphate, 9.5-10% of sodium hydrogen phosphate, 11.5-12% of sodium sulfate and 10.5-11.5% of magnesium sulfate.EFFECT: invention improves efficiency of raising pigs.1 cl, 7 tbl

Description

The proposed invention relates to developments in the field of zootechnics and veterinary medicine, namely, to the development of biologically active additives aimed at increasing productivity and improving metabolic processes of farm animals - pigs.

This drug is introduced into the diet of young pigs in a composition of the following components by weight: agrellite - 27-30%; sodium chloride - 11.0-12.0%; potassium chloride - 14.0-15.0%; tricalcium phosphate - 11.5-12.5%; sodium hydrogen phosphate - 9.5-10.0%; sodium sulfate - 11.5-12.0%; magnesium sulfate - 10.5-11.5%.

The daily dose is 0.3-0.5 g per 1 kg of live weight, set with each next feeding based on the daily dose throughout the entire feeding period. To achieve the desired effect in order to increase productivity, the drug must be given to pigs within 6 months. The drug is a light gray powder, odorless.

The basis of the preparation (27-30%) is the gray mineral aggrellite belonging to the class of silicates with the chemical formula NaCa ₂ , F (Si ₄ O ₁₀ ). This mineral is mined in Russia in Primorye (Dalnegorsk) and in Rudny Altai.

This drug allows you to increase the efficiency of the production process by enriching the diet with mineral components, improving the conditions for their assimilation in the gastrointestinal tract, normalizing the metabolism and productivity of pigs. The effect is achieved by detoxifying the pig's body in relation to salts of heavy metals, and against this background, compensatory regulation of the metabolic rate of mineral compounds is carried out. The product is economical to receive, use and store.

Pharmachologic effect.

Agrellite, due to the components included in the mineral, performs the function of a sorbent in relation to endogenous and exogenous toxins, tissue breakdown products, allergens, etc. At the same time, it promotes the rejection of non-viable tissues and healing. In addition, it helps to enrich the body with mineral elements. The presence of NaCl in the supplement is aimed at restoring and maintaining osmotic pressure in the blood, which ensures the normal functioning of the nervous tissue and prevents smooth muscle spasm. What is needed for the work of another component of the KCl preparation, which regulates intracellular pressure, protein synthesis, transport of amino acids, conduction of nerve impulses, contraction of skeletal muscles.

_{When Ca 3} (PO ₄ ) ₂ enters the body of an animal, digestive enzymes are activated, the digestibility of nutrients and their assimilation increase; metabolic processes are restored; the functioning of the heart, nerves, muscles is normalized; the use of phosphorus and zinc by the body increases when using feed, which directly affects the productivity of animals. Na ₂ SO ₄ and Na ₂ HPO ₄ produce a slow absorption of salt in the intestine, due to which water accumulates, which stimulates irritation of the receptors of the intestinal mucosa, which causes normal peristalsis. At the same time, absorption processes are normalized. Included in the mineral supplement MgSO ₄ has a choleretic effect due to the release of the neuropeptide hormone cholecystokinin; regulates metabolic processes, neurochemical transmission and muscle excitability, prevents the flow of Ca ⁺⁺ ions through the presynaptic membrane; reduces the amount of acetylcholine in the peripheral nervous system and central nervous system. Also, under the influence of the above and other macroelements presented in the preparation, metabolic processes and, in particular, the processes of mineral metabolism are normalized.

This problem and the search for the most optimal treatment regimens are widely reflected in the literature.

For example, in the work of Podolnikov V.E., Gamko L.N., Podolnikov M.V. (2011) [1] studied the prospects of using the Khotynetsk zeolites harvested in the territory of the Russian Federation on weaned pigs. The optimal doses of the drugs CSD and CSD-2 were established. It was found that in order to increase the live weight gain, the drug CSD should be given to piglets within 4% of the dry matter of the diet, and the drug CSD-2 within 5%.

In the work of Menyakina A.G. and Gamko L.N. (2015) [2] presents the results of experiments on feeding sows with eco-minerals (zeolite-containing, smectite tripoli and marl) in different physiological states. In the course of the experiment, a positive effect of minerals on milk production, fertility, nest weight was established, and the economic benefit after the introduction of eco-minerals by 10.3%.

Later Gamko L.N. in collaboration with V.V. Khomchenko and Podolnikov V.E. (2019) [3] continued research into the introduction of mineral supplements in pigs' diets. In their work, the authors investigated the effect of introducing a mineral - smectite tripoli in a dose of 2.0% to the main diet. In the course of the study, it was found that the introduction of the mineral has a positive effect on the digestibility of organic matter (increased by 1.73%), the digestibility of crude fat (by 4.74%), crude fiber (by 3.6%).

Menyakina A.G. (2019) [4] in her works with mineral supplements studied their effect on the morpho-biochemical status of the blood of pigs in the regions of the Bryansk region contaminated with radiocaesium. In studies, it was found that the introduction of smectite and zeolite-containing tripoli into the diet of pigs reduces the toxic load on the animal body, increases the weight gain, reduces the level of lead in muscle tissue by 3.5 times, in the kidneys by 1.6 and 2.5 times. spleen. Average daily gains increased by 15.97%.

It is impossible not to pay attention to the work of Shlenkina T.M. and Lyubina N.A. (2018) [5] this paper reflects the results of the substantiation of the use of siliceous marl of the Siuch-Yushansk deposit. The results of the experiment were as follows: the indicator of pre-slaughter live weight in the experimental group increased by 10.56%, the weight of the fallow carcass by 12.81%, and the slaughter weight by 4.76%.

Continuing her research, Shlenkina T.M. and Lyubin N.A. in collaboration with V.V. Akhmetova (2017) [6] drew attention to the effect of mineral supplements on the parameters of bone tissue. Natural marl was introduced into the diet of piglets; as a result, it was found that after the introduction of the mineral, the most intensive bone growth occurs on the 1-60th day of life (84.16%) - 0.08 cm per day.

In the work of Akhmetova V.V., Lyubin N.A. and Dezhatkin M.E. (2018) [7] reflects the results of experiments on the correction of carbohydrate nutrition in pigs by introducing mineral supplements based on zeolites; the study found a positive effect on carbohydrate and energy metabolism.

As the closest analogue, you can take the drug "Eleovit" (manufactured by LLC "NPK" Askont + ", Moscow region, RF). This drug belongs to vitamin and mineral preparations and dietary supplements. At the same time, there are no mineral components in this drug, but there are vitamins A, D, E, K, as well as a complex of vitamins of group B. At the same time, this drug is aimed at strengthening due to the vitamin component to increase the body's defenses.

Even for the closest analogue, you can take the drug "Multivit + Minerals" (manufacturer Immcont, Germany). This drug is aimed at correcting and balancing vitamin and mineral metabolism, but at the same time, in this drug, trace elements are presented rather narrowly (manganese, zinc, copper, magnesium), which narrows the effect of the drug.

The solution to the problem is achieved by the fact that in order to increase productivity, a preparation based on agrellite is introduced into the feed, at a dose of 0.3-0.5 g per 1 kg of live weight, set with each next feeding once a day based on the daily dose throughout the entire feeding period, in order to increase productivity, the drug must be given to pigs within 6 months, against the background of the use of an adequate diet that provides the physiological need of animals for nutrients and biologically active substances.

The task of this drug is to increase the productive qualities of pigs by activating mineral metabolism in the animal body, stimulating biochemical processes, correcting the immune status, which ultimately helps to increase the productivity and resistance of the animal body to diseases.

The technical result of the claimed proposal is due to the fact that the introduction of the specified agent into the feed has a versatile effect on the entire body and on metabolic processes.

The result is possible due to the direct action of the feed additive, which contains agrellite; sodium chloride; potassium chloride; tricalcium phosphate; sodium hydrogen phosphate; sodium sulfate; magnesium sulfate; calcium carbonate; potassium carbonate; ferrous sulfate; copper sulfate; zinc sulfate; magnesium sulfate.

Mineral components are directly involved in the body's metabolic reactions and have a positive effect on the corresponding metabolism.

In the patent and scientific and technical literature, the applicants did not find information about the use of a mineral feed additive based on agrellite to increase the productivity of pigs, which suggests the presence of an inventive step of the proposal and novelty.

APPROBATION OF THE EFFICIENCY OF THE FEED ADDITIVE

The approbation of the effectiveness of the mineral additive based on agrellite was carried out on farm animals - large white pigs 35-37 kilograms of live weight.

There were formed 2 groups of pairs-analogs of 15 animals each. Pigs of the first group, in addition to the main diet, once a day every day for the experimental period (90 days) received a preparation based on agrellite with the feed at the rate of 0.3-0.5 g per 1 kg of live weight. Animals of the second group were on the general economic ration and served as control. Both groups were given plenty of water. Microclimate indicators in both groups were within the standard values.

Throughout the experiment, the subjects were taken into account the indicators of weight, use of macro- and microelements, nitrogen and lethal yield.

As can be seen from table 1, hemoglobin indices in the experimental group were higher than in the control by 13.94% (P <0.01) at the end of the experiment, while this indicator increased by 8.77% compared to the beginning of the experiment, while time in the control group by 4.17%. The reserve alkalinity index at the end of the experiment was higher in the experimental group by 14.41% (P <0.05), and increased in the experimental group compared to the beginning of the experiment by 4.15%, while in the control group this indicator decreased by 3 , 23%.

Based on the data obtained during the experiment, we see that the average daily gain (table 2) in the experimental group was more than in the control by 10.26% (P <0.01). As well as the average body weight was 6.79% more (P <0.05).

The presented results of the use of macro- and microelements (table 3) show that the indicators of use in the experimental group were higher than in the control: copper by 24.26% (P <0.01); cobalt by 45.63% (P <0.01); iron by 5.72% (P <0.05); magnesium by 4.76%; phosphorus by 15.3% (P <0.05); calcium by 3.78%.

As we can see from Table 4, the rate of utilization and exchange of nitrogen with the same intake was different, so in total 37.3 g was excreted from the body of the animals of the experimental group, which is 0.79% less than in the control (the control was excreted 37.6 d).

When processing the data on the ratio of meat and lard in carcasses (table 5), we see that the weight of the carcass without internal fat in the experimental group was 4.7% more (P <0.01), the weight of the carcass meat was 10.97% ( P <0.05), the weight of the outer fat by 38.38%.

As can be seen (table 6), the introduction of the drug increased the water and protein content in both lard and meat, but decreased the fat content.

Thus, the conducted approbation allows us to conclude that the use of a mineral feed additive based on agrellite increases the productive qualities and metabolic processes in pigs.

Sources of information

1. Podolnikov V.E. Prospects for the use of natural minerals in feeding pigs / V.E. Podolnikov, L.N. Gamko, M.V. Podolnikov // Bulletin of Agrarian Science. - 2011 .-- P. 47.

2. Menyakina A.G. Reproductive qualities of sows when feeding eco-minerals / A.G. Menyakina, L.N. Gamko // Bulletin of the Ulyanovsk State Agricultural Academy. - 2015 .-- S. 133.

3. Khomchenko V.V. Efficiency of using high-protein feed in combination with natural minerals in the diets of young pigs / V.V. Khomchenko, L.N. Gamko, V.E. Podolnikov // Bulletin of the Ulyanovsk State Agricultural Academy. - 2019 .-- S. 127.

4. Menyakina A.G. The influence of natural mineral additives on the morpho - biochemical status of blood and the productivity of young pigs in the zone with an increased content of radiocesium / A.G. Myakina // Bulletin of the Ulyanovsk State Agricultural Academy. - 2019 .-- S. 210.

5. Shlenkina TM The effectiveness of mineral additives in assessing the indicators of control slaughter of pigs / TM. Shlenkina, N.A. Lyubin // Bulletin of the Ulyanovsk State Agricultural Academy. - 2018 .-- P. 211.

6. Shlenkina T.M. The relationship between the parameters of the bone tissue of postnatal ontogenesis piglets against the background of mineral feeding / T.M. Shlenkina, N.A. Lyubin, V.V. Akhmetova // Bulletin of the Ulyanovsk State Agricultural Academy. - 2017 .-- S. 174.

7. Akhmetova V.V. Indicators of carbohydrate metabolism in the correction of mineral and energy nutrition of pigs / V.V. Akhmetova, N.A. Lyubin, M.E. Dezhatkina // Bulletin of the Ulyanovsk State Agricultural Academy. - 2018 .-- P. 123.

Claims (1)

Mineral feed additive based on agrellite to increase productivity and improve metabolic processes in pigs, characterized by the fact that it contains 27-30% agrellite, 11.0-12.0% sodium chloride, 14.0-15.0% potassium chloride, 11, 5-12.5% tricalcium phosphate, 9.5-10.0% sodium hydrogen phosphate, 11.5-12.0% sodium sulfate and 10.5-11.5% magnesium sulfate.