RU2604188C2 - Method of increasing egg productivity of japanese quail breed - Google Patents

Abstract

FIELD: animal breeding.

SUBSTANCE: invention relates to poultry industry and can be used to grow japanese quail breed. Method involves feeding under production conditions of quails layer hens during laying with selenium in form of Selenium Ist preparation in dose of 125 g/t of fodder and iodine in form of preparation Ioddar-Zn in dose of 62.5 g/t of fodder.

EFFECT: invention increases gross output of eggs, egg production on primary and average layer, intensity of laying and reduce fodder cost.

1 cl, 2 tbl, 1 ex

Description

The invention relates to the field of agriculture, in particular to poultry farming.

Quailing is a relatively new poultry industry, which provides the population with highly nutritious and dietary foods - quail eggs. High egg productivity of quail females is realized against the background of complete feeding, the necessary components of which are biologically active additives. Recently, new feed additives have appeared that require detailed study and introduction into production.

There is a method of increasing the productivity of quail by feeding Probiolact additive and a new probiotic feed additive at a dose of 0.2% per feed unit throughout the entire period of growing Japanese quail (Lysenko Yu., Petenko A., 2012). Feeding feed additives contributes to an increase in the intensity of egg laying in quail by 7%, reduce feed costs by 10 eggs - by 5%.

The disadvantage of this method is the absence in the diet of trace elements selenium and iodine, which are vital for the realization of the genetic potential of bird productivity.

There is a method of increasing the nutritional quality of quail eggs against the background of insufficient carotenoid content in animal feed (Afanasyev GD, Popova LA, Komarchev AS, Trepak Zh.G., 2014) by adding carotene-containing preparations “Biofon yellow "And" Biofon red "in dosages of 600 and 500 g / t of feed, respectively. To conduct scientific and economic experience at the educational and production poultry RGAU-MSHA them. K.A. Timiryazev was formed 5 groups of Japanese quail 12-13 weeks of age, 40 goals in each group. The quail of the control group was fed the main diet without carotene-containing preparations throughout the experiment. Quail in the experimental groups added carotene-containing preparations to the main diet. In the course of the studies, a regular increase in the carotenoids in the yolks of quail eggs with an increase in the dose of the Biofon yellow drug and a change in the color of the yolks towards the orange part of the spectrum with an increase in the dose of the Biofon red drug were established.

The disadvantage of this method is that according to the main zootechnical indicators, including feed intake, egg production and egg weight, no significant differences between the groups have been established. In addition, in this method are not presented trace elements selenium and iodine, which are necessary components of the diet of farm birds.

Selenium and iodine-deficient biogeochemical provinces are widespread in Russia. An important decision to eliminate the shortage of deficient trace elements is their guaranteed introduction into the feed of farm animals and poultry.

Selenium and iodine enter the body of a bird with food and water in two forms: inorganic and organic. In practice, inorganic forms of trace elements have long been used to make up for deficient trace elements in feed. In recent years, organic compounds of trace elements in various microadditives have been used in the feeding of animals and birds.

Organic iodine, unlike mineral iodine, is in a bound state and does not enter into most chemical reactions with organic substances of the body. At the same time, bound iodine, coming from the digestive tract to the liver, is cleaved from amino acids by the action of enzymes and is used to synthesize thyroid hormones. Excess organic iodine (not claimed by the thyroid gland) is excreted from the body, so there is no accumulation of this trace element and the corresponding negative consequences.

A simultaneous deficiency of selenium and iodine causes a higher degree of hypothyroidism than a deficiency in the diet of one iodine. The lack of selenium in the body of animals and birds reduces the functional activity of thyroid hormones, interfering with the synthesis of iodothyronine deiodinase, which turns thyroxine into a more active form - the hormone triiodothyronine.

The invention relates to poultry and consists in the fact that feeding under production conditions to laying hens during the laying period of organic forms of selenium in the form of the preparation Selenium East at a dose of 125 g / t of feed and iodine in the form of the drug Yoddar-Zn at a dose of 62.5 g / t of feed, allows you to increase the gross yield of eggs by 4.6%, egg production on the initial and average laying hens - by 4.7%, egg laying intensity - by 3.6%, reduce feed costs by 10 eggs - by 4.7%, by 1 kg of egg mass - by 5.3% compared with the control.

The objective of the invention is to increase the egg productivity of quail when introducing into their diet the optimal combination of microadditives of selenium and iodine.

Example

An experimental study was carried out at the Kemerovo Poultry Hatchery MUSHP. To conduct scientific and economic experience, the control and three experimental groups of quail of the Japanese breed at the age of 60 days, 25 animals each, were formed by the method of pair-analogues. When selecting took into account: gender (laying layers), age, live weight of the bird. The content of birds in cell batteries. Feeding experimental quail was carried out according to the diet developed in accordance with the "Recommendations for feeding poultry." The quail of the control group was fed the main diet with selenium supplements in the form of Selenium East and iodine in the form of Yoddar-Zn in doses recommended by the developers of the supplements - 100 and 50 g / t, respectively, in the composition of 1% vitamin-mineral premix. The quails of the experimental groups were fed the main diet with selenium and iodine additives in the form of the same preparations with an increase in the rate of their introduction into the diet: I experimental group - 25%, II experimental - 50%, III experimental - 100% compared with the control (Table 1). The research results are presented in table 2.

In scientific and economic experience, it was found that the gross yield of eggs in the experimental group I is 4.6% higher, lower in the experimental groups II and III - by 4.2 and 1.8%, respectively, compared with the control. A similar trend was established for egg laying on the initial laying hen - 4.7, respectively; 4.2 and 1.7%. Due to the fact that the safety of the bird in the control, I and II experimental groups was 100%, and in the III experimental group - 96%, the egg laying rates for the average laying hen and the egg laying intensity differed from the previous ones and was higher in the I and III experimental groups - by 4.7 and 1.9% respectively; 3.6 and 1.5% compared with the control.

Thus, the research results showed that feeding quail selenium in the form of the drug Selenium East and iodine in the form of the drug Yoddar-Zn in complexes of 125 and 62.5 g / t of feed respectively activates metabolic processes. As a result of changes in the poultry’s body, egg productivity increases, which ultimately leads to an increase in the economic efficiency of poultry farming.

Table 1. Scheme of scientific and economic experience

Table 2. Quail egg productivity

Information confirming the possibility of carrying out the invention

The possibility of carrying out the invention is the use of a method of increasing the egg productivity of quail in the farms of the Kemerovo region.

Claims (1)

A method of increasing the egg productivity of quail of the Japanese breed, which involves introducing selenium and iodine microadditives into the diet, characterized in that the microadditives are introduced as a complex of preparations Selenium East at a dose of 125 g / t feed and Ioddar-Zn at a dose of 62.5 g / t feed during oviposition.