RU2598915C1 - Method of increasing productivity of mammals - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, specifically to fodder production. Method of increasing productivity of mammals comprises introduction into basic diet a water-soluble high-molecular polymer in an amount of 0.0005-0.003 g/kg of live weight for at least 7 days. High-molecular polymer corresponding to chemical formula [C₈H₁₆NCl]_n, with molecular weight 3·10⁵-1·10⁷ Da is used.

EFFECT: invention ensures higher productivity of mammals, as well as improved physiological state of animals.

1 cl, 2 tbl

Description

The invention relates to agriculture, to methods for increasing the productivity of mammals.

There are a large number of ways to increase the productivity of animals. One of the most common methods is the introduction of feed additives of various origins into the main diet.

A known method of increasing the productivity of mammalian animals by adding to the diet complex preparations containing vitamins, amino acids, trace elements and some other compounds such as Nutrile selenium, which is a combination of 12 vitamins: A, D, E, K, C, B, three essential amino acids : lysine, methionine, tryptophan and selenium (RU 2285399, 2005). In this example, Nutril selenium was used in combination with the anthelmintic levomizole. The experiment was conducted on 24 pigs in the age interval from 1.5 to 7.5 months. The animals were divided into 2 groups. The piglets of the experimental group were added to the main diet the drug nutril selenium, at the rate of 0.04 g / kg body weight, daily, for five days, then followed by a break of one month, the course of the feed supplement was repeated until the pigs reached 7.5 months of age. Piglets of the control group received the main diet Nutril selenium. In addition, animals of both groups were injected subcutaneously with a 10% solution of levomizole at a dose of 0.75 ml / 10 kg of live weight, once a month. Analyzing the data obtained, it should be noted that animals that received the dietary supplement nutril selenium in combination with the anthelmintic levomizole grew more intensively. So, the average daily gain in live weight over the entire period of feeding in piglets of the experimental group was 115.2 g or 23.8% higher compared with the control group. The absolute weight gain for 6 months of the introduction of the feed additive nutril selenium in combination with the synthetic drug levomizole increased by 20.8 kg or 23.8% compared with the control group.

The disadvantage of this method is the need for use in combination with the addition of anthelmintics, which leads to high toxicity of selenium-containing drugs.

A known method of increasing productivity by adding enzyme preparations to the feed, such as celloviridin-B G20x. The use of celloviridin-V G20x increased the live weight of animals in the experimental group by 7.14 kg, by weight of chilled carcass by 5.83 kg, and by weight of meat by 4.77 kg compared to control (Zlepkin A.F., Zlepkin V .A., Zlepkin DA, Aleksandrovich AK Meat productivity of fattening pigs when an enzyme preparation is introduced into the diets. // News of the Lower Volga Agro-University Complex: Science and Higher Professional Education. - 2009. - No. 4. - P. 75 -78). During the experiment, the pigs of the control group received the main diet and had an initial live weight of 40.16 kg, the pigs of the experimental group received an additional enzyme preparation celloviridin-V G20x in the amount of 120 g per 1 ton of feed and had an initial live weight of 40.35 kg. The duration of the experiment was 115 days.

The disadvantage of this method is the high cost of enzyme preparations.

A known method of increasing productivity by adding a feed additive bischofite. The presence of a large number of macro- and microelements allows the use of bischofite as an environmentally friendly natural mineral supplement. The feed supplement was fed to pigs from 28 days in the amount of 6 ml, from 82 days in the amount of 10 ml per head. The average live weight of animals in the experimental and control group was 38.3 kg, the duration of the experiment was 125 days. As a result of the experiment, it was found that the slaughter weight in animals of the experimental group was 5.8% higher than the control, the slaughter weight was 6.1%, and the slaughter yield was 0.3% (Salomatin V.V., Varakin A .T., Zlepkin VA Effect of natural bischofite on physiological parameters and meat productivity of fattened young pigs. // Bulletin of the Lower Volga Agricultural University: Science and Higher Professional Education. - 2011. - No. 1. - P. 104-108).

The disadvantage of this method is the inability to control the content of micro and macro elements in the diet, as they are unevenly distributed in natural mineral additives.

A known method of increasing the productivity of mammals by adding to the diet of animals whey hydrolyzed, enriched with lactates (SGOL) - a valuable source of protein for animals. GHOL was added to the diet of animals of the experimental group starting from 20 g per head, gradually increasing the volume according to eatability. The average live weight when putting on the experience of pigs in the control group was 44.6 kg, control 43.87 kg. As a result of the experiment, the average daily increase in animals of the experimental group was 19.0% more than in animals of the control group, carcass weight was 11.0% more, slaughter yield was more than 1.4% (Chepushtanova O.V.The effect of whey and hydrolyzed enriched with lactates, pig meat production is not fattening. // Agrarian Bulletin of the Urals. - 2008. - No. 11. - S. 81-83).

The disadvantage of this method is the high humidity of the feed after adding the GHOL and the possibility of the development of mold and bacteria in it.

Known methods for increasing the productivity of mammals by introducing into the feed of synthetic high molecular weight polymers.

A known method of treating feed with a high molecular weight polymer, according to which a protein-containing feed is treated with formaldehyde, formaldehyde condensation products with amides and / or amines, water-soluble polymers and copolymers of polyvinylamine, polyvinylpyridine and polyvinylpyrrolidone, as well as methylolpolyacrylamide 11 and other polymers of formaldehyde 11 and others. The amount of formaldehyde in this example is 3-40% by weight of feed protein, and the amount of water-soluble polymers is about 40% by weight of the processed protein.

The disadvantages of this method is that the use of toxic formaldehyde and the need for its complete removal greatly complicates the process of processing the feed, and the use of large quantities of water-soluble polymers (tens of percent by weight of the feed) leads to a significant increase in the cost of concentrated feed.

There is a known method of processing feed, in which an increase in productivity is achieved by introducing an enzyme preparation into the feed mixed with polymer with polyacrylamide at the rate of 0.2-2.0 g of polymer per 1 kg of calf live weight (SU 888911 A1, 12/15/1981).

The disadvantage of this method is the narrow use of this additive, which is effective only when feeding ruminants.

The aim of this invention is to identify new tools for use as feed additives in animal feeding.

The technical result of the present invention is to increase productivity, providing an increase in live weight and improve the physiological condition of animals.

The specified technical result is achieved by the method of feeding mammals, characterized in that it provides for the introduction into the main diet of a water-soluble high molecular weight polymer at a rate of 0.0005-0.003 g / kg body weight for at least 7 days, while using a high molecular weight polymer corresponding to the chemical formula [ C ₈ H ₁₆ NCl] _n , with a molecular weight of 3 · 10 ⁵ -1 · 10 ⁷ Yes.

At present, high molecular weight synthetic polyelectrolytes for water treatment as coagulants and / or flocculants are increasingly being used. Due to the high safety requirements of these water-soluble polymers, it is proposed to use them not only for water purification, but also in the food industry, and as blood substitutes, etc. (Gabrielova L.I. Synthetic macromolecular flocculants as clarifiers of suspensions and accelerators of filtration: M., 1962; Weizer Yu.I. Water supply and sanitary equipment, 1963. - No. 6. - P. 17; Uffenorde J., Brunner FX, Wunsch PH Polyvinylpyrrolidone granuloma - differential diagnosis of rare soft tissue tumors in the area of the maxilla // HNO. 1984. - Vol. 12. - N 32. - P. 515-517).

The water-soluble high molecular weight polymer (GDP) that we offer is currently approved for use in drinking water treatment technologies by the European Committee for Standardization and the US National Sanitary Fund. In Russia, this polymer, like some other high molecular weight polymers, is used as flocculants and coagulants for the treatment of turbid highly contaminated natural and wastewater, for the treatment of natural and wastewater from coal processing plants, paint and varnish and oil refineries, and for the treatment of water from mineral contaminants.

According to the literature, it is known that, due to their chemical structure, in vitro high molecular weight polymers are able to activate enzymes (Dikov M.M., Osipov A.P., Egorov AM et al. Macromolecular exchange in solutions of complexes of globular proteins with non-natural polymers / DAN., 1979. , t. 248, No. 5, S. 1260-1267).

We hypothesized that high molecular weight polymers, including polycationites, will also activate digestive enzymes when introduced in vivo with animal feed, while the digestibility of feed nutrients will improve. We tested the proposed GDP as a new means of increasing animal productivity.

It is widely known that the high molecular weight polymers currently used for water purification are not toxic compounds, their toxicity is determined only by the residual monomer content in the polymerization product, in this case, the monomer DADMAC (Tulskaya E.A. Hygienic principles of sanitary and epidemiological surveillance for the use of synthetic polyelectrolytes for the purification of drinking water. / Results and prospects of scientific research on the problem of human ecology and environmental health: Proceedings of the Research Institute EC and GOS / under the editorship of Yu.A. Rakhmanov. - M., 2002. - P. 248-253).

According to Russian researchers, the threshold dose of DADMAC in a chronic experiment on white rats (PDhr) was 0.2 mg / kg (Zholdakova Z.I., Belyaeva N.N., Yurchenko V.V., Tulskaya E.A. on toxicity and hazard of chemical and biological substances / Toxicological Bulletin, No. 5, September - October 2006).

In the proposed GDP, the content of monomer according to passport data is 0.17%. At recommended doses of GDP of 0.0005-0.0025 g / kg live weight, the amount of monomer in them is 0.0008-0.0042 mg / kg live weight, which is significantly (≥50 times) less than the known threshold dose of monomer - 0.2 mg / kg

To confirm the effectiveness of the proposed method, the following tests were carried out.

Example 1

To implement the proposed method, an experiment was conducted on laboratory animals - white rats, Wistar line. The experiment was conducted on 24 pups at a staged age of 5 weeks, the duration of the experiment was 4 weeks.

The animals were divided into 2 groups. The rat pups of the experimental group (group No. 1) were added daily to the main diet for 4 weeks the high molecular weight water-soluble polymer (GDP) according to the invention in the form of an aqueous solution. To prepare an aqueous solution, the high molecular weight polymer powder was dissolved in room temperature water at a ratio of 1:50. Next, the prepared aqueous solution was introduced into the main diet at the rate of 0.0015 g of polymer per 1 kg of live weight of the animal.

The rats were given food in the form of pre-treated polymer steamed wheat, which was daily fed in the morning on an empty stomach during the entire period of the experiment. Cubs of group No. 2 served as a control, they received the main diet without polymer. The dose adjustment of the polymer for growing rat pups was made taking into account the weight of each rat weekly, after individual weighing of the animals. Correction was carried out at a rate not exceeding the upper limit of 0.0025 g / kg of animal weight. The results of the studies are presented in table 1.

Analyzing the data of table 1, it should be noted that animals that received polymer GDP with a diet grew more intensively (group No. 1). So, over the 4-week test period, the average live weight of pups in this group increased from 91.25 ± 1.2 g to 177.5 ± 8.6 g, i.e. 86.25 g / goal In the control group over the same period, the average live weight of rat pups increased from 89.4 ± 3.1 g to 151.25 ± 8.6 g, i.e. 61.85 g / goal

Thus, the average live weight of the rat pups after 4 weeks of experiment in the group of animals treated with the polymer addition exceeded the value of this indicator in the control by 24.4 g or 39.4% (86.25-61.85 = 24.4 g; 24.4 / 61.85 = 39.4%).

Observation of the condition and behavior of animals showed that throughout the entire feeding period, changes in external signs (hairline, visible mucous membranes), as well as features in the behavior of animals were not noticed. All pups were active, mobile, their hair was bright, not contaminated; mucous membranes - normal color; there were no signs of inflammation. The animals from group No. 1 were more active and they were distinguished by increased appetite, which indicates an improvement in the physiological state of animals treated with polymer feed.

Example 2

The experiment was conducted on laboratory animals - white rats, Wistar line. The experiment was conducted on 24 pups at a staged age of 2.5 months, the duration of the experiment was 4 months.

The animals were divided into 2 groups. To the pups of the experimental group (group No. 1), an additive in the form of GDP was added to the main diet at the rate of 0.002 g / kg body weight, daily, throughout the entire period of the experiment. The method of introducing the polymer was described in example 1. The rat pups of group No. 2 served as a control, they received the main diet without polymer. The polymer dose adjustment for growing rat pups was made taking into account the weight of each rat 2 times a month, after individual weighing of animals, not exceeding 0.0025 g / kg of animal weight. The results of the studies are presented in table 2.

As shown in table 2, over the period of the experiment (4 months), the average live weight of rat pups in the experimental group increased from 176.3 ± 8.6 g to 275.1 ± 5.1 g, i.e. 98.8 g / goal In the control group over the same period, the average live weight of rat pups increased from 169.8 ± 7.9 g to 257.3 ± 6.4 g, i.e. by 87.5 g. The average live weight of rat pups in the group of animals that received the polymer supplement for 4 months exceeded the value of this indicator in the control by 11.3 g or 12.9% (98.8-87.5 = 11.3 g; 11.3 / 87.5 g = 12.9%). The calculations obtained on the basis of the data in table 2 showed that for the first month of the experiment, the average live weight of rat pups in the experimental group for the first month increased by 55.6 g; in two months - by 71.2 g; for three months - by 77.4 g; for four months - by 98.8 g. In the control group for the 1st, 2nd, 3rd and 4th months, the average live weight of rat pups increased by 21.5 g; 43.9 g; 52.7 g and 87.5 g, respectively. Calculations showed that during the entire period of the experiment, the growth rate of the rat pups fed the proposed GDP at a dose of 0.002 to 0.0025 g / kg live weight was higher than in the control.

Observation of the condition and behavior of animals showed that throughout the entire feeding period, changes in external signs (hairline, visible mucous membranes), as well as features in the behavior of animals were not noticed. All pups were active, mobile, their hair was bright, not contaminated; mucous membranes - normal color; there were no signs of inflammation. The animals from group No. 1 were more active and they were distinguished by increased appetite, which indicates an improvement in the physiological state of animals treated with polymer feed. Autopsy at the end of the experiments showed that the relative mass of the internal organs of the experimental animals did not differ from the control.

Thus, as shown in examples 1 and 2, the use of the proposed high molecular weight water-soluble polymer when feeding to mammals (for example, rats) for at least 4 weeks had a significant impact on productivity, increasing the live weight of animals by 12.9-39.4% and improving the physiological state of the animal.

Claims (1)

A method of increasing the productivity of mammals, characterized in that it provides for the introduction into the main diet of a water-soluble high molecular weight polymer at a rate of 0.0005-0.003 g / kg body weight for at least 7 days, using a high molecular weight polymer corresponding to the chemical formula [C ₈ H ₁₆ NCl] _n , with a molecular weight of 3 · 10 ⁵ -1 · 10 ⁷ Yes.