RU2045200C1 - Method for growing piglets - Google Patents

Abstract

FIELD: agriculture, particularly feeding of piglets. SUBSTANCE: method involves introducing preparation of selenium in the form of selenopyran at the rate of 0.1-0.3 mg of selenium per 1 kg of the basic ration. This fodder is given to piglets from the first day of weaning to 105 days of age. Before introducing into the basic ration, selenopyran is dissolved in fat in a relation of 1:(1500-25000). EFFECT: higher efficiency. 6 tbl

Description

 The invention relates to agriculture, namely to feeding piglets, and can be used on industrial pig-breeding complexes, farms of various technologies, as well as in rental collective and farms.

 The use of substances with high biological activity in feeding pigs, especially at an early age, makes it possible to obtain more products at the lowest cost.

 Complete, highly nutritious compound feeds recommended for pig-breeding complexes of industrial type contain biologically active substances and additives that are used to prevent diseases of various etiologies, as well as to improve metabolism even at high growth rates of animals. They allow you to get more products and better quality.

 A known method of increasing the productivity of animals and birds when using selenium in the form of a mineral compound of sodium selenite.

 But the application of this method is constrained due to the difficulty of its use due to the combination of high toxicity of the drug with a very low dosage.

 The aim of the invention is to increase the functional activity of the antioxidant-antiradical and immune systems of piglets, their growth rate, as well as increasing the payment of feed and keeping the livestock with the help of the organo-selenopyran compound.

 To achieve the goal, 0.1-0.3 microns of selenium in the form of its organic compound selenopyran (SP) per 1 kg of feed is introduced into the main diet of feeding piglets in the post-weaning period from the first day of weaning to 105 days of age.

 A distinctive feature is that productivity is increased using an organic preparation of selenium selenopyran, introduced into the main diet for piglets in the form of a fat solution of selenopyran, and for dissolution and introduction into the main diet of the drug, fat is used to prepare the main diet, or in the absence of in the main fat diet, fat is introduced into the feed mixture in an amount sufficient to dissolve the preparation and uniformly introduce it into the prepared feed mixture.

где R-C₆H₅.Selenopyran (9-phenyl-symmetric-octahydroselenoxanthene) is a fat-soluble, storage-stable substance. The drug was synthesized at the Scientific Research Institute of Chemistry of Saratov State University and Penza Agricultural University. Institute. Selenopyran formula is as follows

where RC ₆ H ₅ .

 Demonstrating antiradical properties in vitro and in vivo, activating the antiradical antioxidant defense enzymes of the body, selenopyran neutralizes active free radicals and inhibits lipid peroxidation processes. The result of these processes is a decrease in the formation and neutralization of peroxidation products, preventing cell lysis and tissue destruction and leading to normalization of metabolic processes in the body, increased activity of the cellular and humoral parts of the immune system, phagocytic activity (in general, the functional activity of the body’s immune system, and, as a result, increase in growth rate, livestock safety and feed payment).

It is known to use the preparation of selenium for piglets in the form of the mineral salt of sodium selenite to suckling pigs and weaned piglets from 2 to 4 months of age with a basic diet in the amount of 0.1 mg / kg of feed and an additional gain in live weight in the amount of 5.2 and 7.9% with a reduction in feed costs per 1 kg of live weight by 13%
However, the introduction into the main diet of microdoses of a highly toxic preparation of sodium selenite selenium is associated with the risk of uneven distribution of the drug in the feed, which does not exclude the possibility of poisoning.

 The invention is illustrated by the following examples.

 PRI me R 1. A method for growing piglets with the introduction of selenopyran into the main diet in the post-weaning period of cultivation (at early weaning) up to 105 days of age and the effect of this method on the growth rate, the state of the immune and antioxidant systems and payment of feed was tested.

 Two dosages of selenopyran 0.1 and 0.3 mg of selenium per 1 kg of feed were tested to increase the activity of individual parts of the immune system and the anti-radical-antioxidant system of the body, as well as the growth rate of piglets and payment for food products.

The experiment was carried out in the conditions of the vivarium of the Institute on pigs (landrace x x large white). Groups of piglets were formed during early weaning at 28 days of age. Piglets were kept in group cages at the recommended regimen with normalized feeding and constant access to water. The feeding ration consisted of complete feeds used in industrial complexes for early weaned pigs (SK-3 for pigs from 28 to 42 days old, SK-4 from 43 to 60 days old and SK-5 of 61-105 day pigs ), which corresponded to the recommended norms of VASKHNIL (tab. 1). The components of the compound feed were poured into the mixer, leaving 3-4 kg of wheat or another grain component for the preparation of premix and fat. Fat was used to dissolve and introduce selenopyran into feed. The vitamin part of the premix consisted of carotene, vitamins B ₁ , B ₂ , B ₃ , B ₄ , B ₆ , B ₁₂ and E. The mineral part of the premix included manganese, iron, copper, zinc. The mineral part of the premix was mixed with wheat and the vitamin part of it was added. After thorough mixing, they were introduced into the main part of the feed and mixed well (control group). Compound feed was prepared similarly for other groups. Selenopyran at the rate of 0.1 mg of selenium / kg of feed (option 1) and 0.3 mg of selenium / kg of feed (option 2) were introduced into the molten fat intended for piglets of the experimental groups (Table 2). Selenopyran in the form of a fatty solution at a ratio of selenopyran fat 1 (1500-25000) was introduced into SK-3 and SK-4 complete feeds with thorough mixing. The technology for introducing selenopyran into SK-5 compound feed was not significantly different. The formulation of this compound feed does not include the introduction of fat into it, therefore, an additional 200 g of fat was used to dissolve and introduce selenopyran into the compound feed. Since the volume of fat is small, it is difficult to achieve a uniform distribution of it, and therefore, of selenopyran in the feed, therefore, the fat solution of selenopyran is added to the milled grain component of the feed left for this purpose, mixed well and this mixture is introduced into the finished feed with thorough mixing.

 Due to weaning stress in the body of piglets, free radical processes intensify and peroxide products accumulate.

 The introduction of selenopyran into the main diet of piglets of 28-105 days old allowed to reduce the negative impact of these products, which was confirmed by an increase in the growth rate of piglets (table. 3). Experience also revealed the specificity of the effect of selenopyran on the antioxidant system of the body (SOD and GPO activity) (Table 4). If in chickens, selenopyran uniquely increased the activity of both enzymes in all age periods and at all dosages, then when it was introduced to weaned piglets, the SOD activity increased relative to the control only at 42 days of age, and GPO 29-day old, immediately after weaning (in relation to control 119% for option 1 and 131% for option 2), approaching in subsequent age periods the indicators of the control group and increase at 60 and 105 days of age (1 option 110% and 2 option 187% in relation to the control group). It is noteworthy that the activity of the enzyme in piglets of the control group at 29 days of age sharply decreased to 56%. The activity of glutathione peroxidase (GPO) decreased according to the proposed options. This may be due to the specific chemical nature of the administered drug, which increased the capacity of the non-enzymatic link of the antioxidant-antiradical protection of the body during a period of stress (weaning). Selenopyran, getting into the blood, under the conditions of stressful activation of free radical processes, was used by the body as a more active and economical interceptor of free radicals and only with a decrease in the intensity of peroxide processes did it begin to affect the activity of antioxidant enzymes.

 The introduction of selenopyran into the feed of piglets contributed to the acceleration of the formation of the body's immune system and increased its functional activity. Selenopyran had a greater effect on the humoral component of the immune system, the number of B-lymphocytes increased and their functional activity increased, which was expressed in an increase in the concentration of class M immunoglobulins (Table 5).

 The introduction of additives into the feed of weaned piglets also increased the phagocytic activity of blood leukocytes. The phagocytic index of 42-day-old animals increased by 7.3% for option 1 and 7.7% for option 2 (p <0.05). The reaction involved 77.7% of neutrophils (control) and 84.6 and 83.8% (options 1 and 2, respectively) (p <0.05). After 2 hours of incubation, 40-50% of the microbial bodies were lysed. The morphological composition of the blood has also changed. The number of lymphocytes in both variants increased.

 Thus, the growing of piglets according to the proposed method contributes to the earlier formation of their own immune responses in early weaned piglets, having a major effect on the humoral link of the immune system and the phagocytosis system, when active immunity is not yet sufficiently formed (up to 42-60 days old, especially since this period coincides with weaning stress). By 105 days of age, when their own immunity is already formed, the difference between control and experimental animals is smoothed out. The increase in the activity of the antiradical and immune systems contributed to the positive effect of the proposed method of cultivation, which is confirmed by zootechnical indicators (Table 3), where the average daily gain in option 2 was 115.8% and 1 107.9% in relation to the control.

 PRI me R 2. A method for growing piglets with the use of selenopyran as an additive to the main diet in the post-weaning period of cultivation with traditional weaning periods and the effect of this method on the growth rate and preservation of the livestock was tested.

 The experiment was carried out at the Borovsky state farm in the Kaluga Region on large white piglets taken at 60 days of age. Piglets were kept in a pig farm with 100 goals per group. The feeding ration consisted of a complete ration feed corresponding to the SK-5 formulation. According to the proposed method, in the form of a fatty solution, selenopyran was introduced into the feed at a dose of 0.3 mg of selenium / kg of feed. The technology for introducing selenopyran is similar to example 1 (option 2) for compound feed SK-5. Piglets received a diet supplement from 60 to 105 days of age. The control group received a similar diet without the addition of selenopyran. The results of the experiment are presented in table. 6.

 Selenopyran, used as a feed additive to the main diet, increasing the adaptive capacity of the body, helped to increase the growth rate and the safety of the livestock. Therefore, selenopyran introduced into the feed mixture and fed in the form of this mixture, increasing the activity of the antioxidant-antiradical and immune systems, promotes more intensive growth (110.9-115.8%), better preservation of young animals (2% higher) and better the use of feed (feed payment increased by 14%) in piglets of both early and traditional weaning periods.

Claims (1)

 METHOD FOR GROWING PIGS, which involves introducing selenium into the main diet and feeding the resulting mixture, characterized in that the pigs are injected with selenium in the form of selenopyran in the amount of 0.1-0.3 mg of selenium per 1 kg of the main ration and fed to the pigs. the resulting mixture from the first day of weaning to 105 days of age, and selenopyran before being introduced into the main diet is dissolved in fat in a ratio of 1: (1500-25000).

Images