RU2126626C1 - Sow productivity increasing method - Google Patents

Abstract

FIELD: animal farming, in particular, compensation of iodine deficiency in sow organism. SUBSTANCE: method involves compensating iodine microelement in sow organism through the whole reproduction cycle by single implanting of iodine for full growing cycle in an amount of 21-24 mg per beast. Implanting is effectuated 18-20 days before insemination after appearance of sexual heat signs. Method benefits egg cell development and insemination ability and, in the future, fetus growing. EFFECT: increased efficiency and simplified method. 1 dwg, 1 tbl

Description

 The invention relates to the field of animal husbandry and can be used in pig farming to compensate for iodine deficiency in sows.

 There is a method of increasing the productivity of sows, including the impact on them of iodine (Anufrieva Z.S. Feeding the physiology and biochemistry of farm animals: Proceedings of the Gorky Agricultural Institute. -Gorky, 1974, S. 26-30).

 The disadvantage of this method is that iodine has the property of high volatility and therefore is destroyed in the applied top dressing, polysalt, briquettes, and compound feeds. This is due to the fact that in the process of preparation and storage of feed it combines with other biologically active substances that make up the feed, and turns into a form that is not digestible for the body of sows. In addition, with the oral administration of iodide top dressing, iodine acts on iodine, where iodine in an acidic environment is restored to a molecular state and reduces its activity.

 The closest in its technical essence is a way to increase the productivity of sows, including implantation under the skin of animal iodine (A. p. 1556631 A 23 K 1/18).

 The disadvantage of this method is that the arbitrary subcutaneous injection of an iodine-containing preparation does not allow sows to fully realize the genetic potential of productivity. In addition, these doses of the drug are not enough for the entire reproduction cycle, which is 180-195 days, and you have to enter it repeatedly, which causes stress in animals.

 The aim of the present invention is to increase the efficiency of sows by replenishing the trace element iodine in the body for the entire reproduction cycle.

 This goal is achieved by the fact that in the method of increasing the productivity of sows, including implantation under the animal, iodine is implanted once for a full growth cycle in the amount of 21-24 mg per head, while the implantation is carried out 18-20 days before insemination after signs of sexual hunting.

 The novelty of the proposed technical solution lies in the fact that the above dose of iodine is implanted in sows, taking into account the prolonged period of the reproduction cycle (which begins 18-20 days before insemination and lasts 180-195 days, with weaning piglets at 45-60 days) at a dose of 21 -24 mg per animal. Such an amount of iodine ensures the active activity of the thyroid gland in the body of sows for 180-200 days, where the level of iodine-bound protein is in the range of 45-62 μg / L. This level is normal and indicates a physiological norm throughout the reproduction cycle. The research results show that the dose of implanted iodine does not affect the conversion of the normative level of iodine-bound protein in blood serum, but correlates with the duration of the prolonged effect, i.e. the higher the dose, the longer the prolonged effect.

 The method is as follows. In 18-2 days prior to insemination, 21-24 mg of iodine are implanted to sows once subcutaneously on the lateral surface of the ear. For this, a subcutaneous puncture is made on the surface of the ear with a scalpel or a special device to a depth of 4 cm. Iodine is placed in the formed pocket in the form of potassium iodine tablets.

 Example 1. 18-20 days before insemination, a group of sows of 5 goals implanted potassium iodide in the calculation of 21 mg of iodine per head. Upon further analysis of the blood of these animals, the level of iodine-bound protein in the serum was in the range of 45-62 μg / ml (which is normal) for 180 days. A further decrease in the dose of iodine leads to a shortening of the normal concentration of iodine-bound protein in the blood serum and does not fit into the full reproduction cycle, which negatively affects the formation of multiple litter and fetal growth.

 Example 2. 18-20 days prior to insemination, iodide was implanted in a group of sows of 5 animals at the rate of 24 mg of iodine per head. The level of iodine-bound protein remained normal in the blood of the animal for 200 days. A further increase in the dose of iodine is impractical due to the end of the sow reproduction cycle.

 The introduction of iodine into the animal’s body 18-20 days before insemination allows a beneficial effect on the development of eggs, their fertility, and later on the growth of the fruit.

 The table gives a diagram of the experiment, and the graph shows the results.

Claims (1)

 A method of increasing the productivity of sows, including the implantation of iodine under the skin of an animal, characterized in that iodine is implanted once for a full reproduction cycle in an amount of 21-24 mg per animal, while implantation is carried out 18-20 days before insemination after the manifestation of signs of sexual hunting.

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