UA8587U - Method for raising productivity of pigs by introduction of mix of chelate microelements and mix of probiotics to feed composition - Google Patents

Abstract

A method for raising productivity of pigs involves introduction of mix of chelate microelements and mix of probiotics to feed composition. Mixed feed is supplemented with mix of chelate compounds, namely selenium chelate, copper chelate, ferric chelate, manganese chelate, zinc chelate.

Description

Description of the invention

The useful model is related to agriculture and refers to the pig and animal feed industry and 2 is used in the production of fodder and feeding of farm animals, namely piglets.

A known method of increasing the productivity and quality of the products of fattening cattle (05 patent 33994

А2З3К1/18 02/15/2001), which includes determining the need for microelements of fattening livestock and compensating for the deficiency by introducing salts of these microelements into the diet, namely chelated compounds.

The reasons preventing the achievement of the desired technical result are the insufficient efficiency of this 70 form of chelate compounds, namely, inorganic salts of microelements are mainly used as mineral supplements in animal husbandry. To date, it has been proven that they have a number of disadvantages during use and storage, as well as significant toxicity and the appointment of the method to another branch of animal husbandry.

According to the largest number of common essential features, the closest analogue for the claimed method is "Method of increasing the productivity of piglets" (05 patent 3011 АО1Кб7/00, 15.09.2004). The method includes replenishment of 72 trace element deficiencies by adding chelated trace element compounds to the ration of piglets. Reasons that prevent obtaining the desired technical result are its moderate efficiency, which leads to additional feed costs.

The method proposed by us eliminates the shortcomings of the closest analogue and provides higher productivity of piglets and improvement of qualitative and quantitative indicators, compared to the known method.

The basis of the proposed useful model is the task of creating an effective method of increasing the productivity of piglets in conditions of insufficient use of trace elements and probiotics.

Providing them with minerals is an important part of feeding piglets. They are necessary for the normal nutrition of animals, as protein, fats and carbohydrates are part of the skeleton of tissues and body fluids. Almost every physiological process takes place with the participation of mineral elements. With their help 22, oxygen is carried around the body and carbon dioxide is removed, the osmotic pressure in the cells is maintained, which is necessary for the absorption and assimilation of nutrients. Mineral substances provide appropriate reactions to the action of enzymes, hormones and vitamins. Microelements also affect the digestibility and assimilation of feed nutrients, participate in the detoxification of toxic metabolic products. Mineral substances are not synthesized in the body of pigs, so they must constantly enter the body with the diet to meet the needs of the animals. The action of these compounds in the body depends not only on their amount in the diet, but also on the form. The biological activity of trace elements is based on the chemical structure of compounds that enter the body of animals with feed. Along with balancing the rations according to the main nutrients, special attention should be paid to the content of trace elements, whose functions in the body are very diverse. If you remember that the body does not fully absorb nutrients, then the importance of taking chelated 3o trace elements becomes very important. The assimilation of chelated mineral substances is 3-10 times more than that of non-chelated ones. All this makes it possible to reduce the doses of trace elements tenfold, positively solving environmental and economic problems. "

Due to the positive effect of probiotics on metabolism, they should be used for piglets in all 8 periods of fattening, especially in stressful situations (elevated temperature, regrouping, replacement of rations 70, etc.), as well as to ensure increased productivity of piglets, preservation of flocks I, increasing the efficiency of fattening. An extremely large role belongs to the beneficial intestinal microflora, which they provide

With" probiotics for animals, and especially pay attention to the mixture of natural feed probiotics, which are a growth stimulator of piglets. The mixture of probiotics includes strains of two types of specific bacteria in the form of spores Vasiyiz Ispepiogtiz and Vasiyy zibBiyy5, which are activated in the intestine. These spore-forming bacteria of the genus Vasiyv are characterized by high antagonistic activity against pathogenic and conditionally pathogenic microorganisms, the ability to accumulate enzymes, synthesize amino acids, vitamins, other products 4! substances physiologically active for the microorganism, with high antagonistic activity against pathogenic and conditionally pathogenic microorganisms. When using their combination, a higher level of biological activity is achieved, in addition, the secretion of enzymes, the optimal pH for enzymes, and other parameters can significantly change, and this is another reason that the combination of two strains is more effective and competitive.

The essential features characterizing a useful model include: the largest average daily growth of piglets; completeness of feeding; minimum costs per unit of growth; more efficient production, which is based on improving the assimilation of nutrients. The action of chelated compounds in the body depends not only on

So" from their quantity in the diet, but also from their form. This form of introduction of microelements into the diet of piglets, which is proposed by the claimed method, ensures increased preservation of livestock and productivity, improvement of biosynthetic processes in the body of piglets due to better assimilation of chelates compared to inorganic salts of microelements.

The implementation of the declared useful model is carried out as follows, namely by adding a mixture of chelated compounds to piglets' diets, namely: selenium chelate, magnesium chelate, copper chelate, iron chelate, manganese chelate, zinc chelate and additional addition of a mixture of VasiPiz Ispepitogtiz spore bacteria, strain CH 200 and Vasiyiv zibiyv, strain CH 201 in a ratio of 1:1 from 0487109 spores in 1 g of probiotic mixture to 3.2109 in 1 g of probiotic mixture at a dose of 145-1005 g of probiotic mixture per 1 ton of feed.

The dose of the components of the chelate mixture, which is recommended for increasing the productivity of piglets: selenium chelate - up to 0.33 mg/1 kg of feed, magnesium chelate - up to 48.5 mg/1 kg of feed, copper chelate - up to 18.5 mg/1 kg of feed, iron chelate - up to

1.2-3 mg/1 kg of feed, manganese chelate - up to 38.5 mg/1 kg of feed, zinc chelate - up to 78.5 mg/1 kg of feed. The mixture of chelated trace elements is mixed with the compound feed of the main diet and fed in the above-mentioned dose per day.

Below is an example of a specific use of the method.

Example.

2 groups of piglets with similar indicators of live weight, age, sex and physiological state took part in the experiment. The first group (control) was fed the basic diet without adding probiotics and chelates to the feed. The term of the experiment is four months. The second group (experiment) was fed with compound feed with the addition of a mixture of the proposed trace elements and a mixture of probiotics. The term of the experiment is four months. 70 Indicators of the effectiveness of the experiment, the advantage over the known method of effectiveness are given in the table.

Initial mat 11111102 380 zvo zvo iv Mntsevamekhye 11111118 780 voi

Claims 101051

The average daily gain in live weight is 0.350. 0.600

Claims (2)

The formula of the invention 1. A method of increasing the productivity of piglets by adding a mixture of chelated microelements and a mixture of probiotics to the composition of the feed, which differs in that a mixture of chelated compounds is additionally added to the compound feed, namely: selenium chelate, magnesium chelate, copper chelate, iron chelate, manganese chelate, chelate zinc 29 with the following ratio of components: selenium chelate - up to 0.36 mg/1 kg of feed, magnesium chelate - up to 48.5 mg/1 kg of feed, copper chelate - up to 18.5 mg/1 kg of feed, iron chelate - up to 1.23 mg/1 kg of feed, manganese chelate - up to 38.5 mg/1 kg of feed, zinc chelate - up to 78.5 mg/1 kg of feed. 2. The method according to claim 1, which differs in that a mixture of probiotics in the form of m spore bacteria Vasiyz Ispepitogtiv, strain CH 200 and Vasiyz zibiyv, strain CH 201 are additionally added to the compound feed. C. The method according to claim 1, which differs in that the recommended dose of the probiotic mixture, which is added to the He main ration of piglets, is 145 - 1005 g of the probiotic mixture per 1 ton of feed. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 8, 15.08.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. . and? (ee) 1 (ee) -4 70 C; oh because b5