RU2056084C1 - Method of presawing seed preparing - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves the treatment of seeds with aqueous suspension of natural and artificial iron compound reduction products. EFFECT: high effectiveness of preparations. 4 tbl

Description

 The invention relates to agricultural production and can be used to accelerate the growth of seeds of agricultural plants, reduce the growing season and increase their productivity.

 The exciting effect of metal ions on the germination, nutrition and development of plants is known. Before sowing, bread grains were soaked in a solution which was prepared as follows: 3 g of copper sulfate and 30 g of starch were boiled in 1 liter of water. Bread grains were placed for 20 hours in a chilled liquid, then dried in air, then immersed for a short time in milk of lime and again dried in air. The weight of grain from this operation increased by 5%. The experiments were carried out with different varieties of wheat, maize, oats and barley and showed that all these varieties of bread represented a large percentage germination and yielded a large yield, especially of leaves and stems.

 The biological properties of many metals are sharply manifested when the metals are in a colloidal state, i.e. in the form of fine powders. Getting into biological objects, metal powders form numerous, very long-acting foci of metal ions that continuously form in small concentrations around each particle.

 Due to this property, colloidal metals differ greatly in their biological effects from metal salts. The latter in small concentrations act for a short time, and for large they have a toxic or irritating effect.

 Nevertheless, various metal salts, primarily iron, are used in practice. A method for presowing treatment of seeds is proposed, including soaking them in a solution of a complex compound of iron with salicylic acid, and the concentration of the solution varies within 0.01.0.1%. Measurements of the germination energy of seeds and their germination rate showed that the complex compound of iron is highly effective compared to sulfate iron. Cotton yield increased by 4.6 c / ha.

The closest technical solution adopted for the prototype is a method of activating the growth processes of seeds with small particles of metals. The effect of small particles of copper and magnetite on the germination of the seeds of the beans of the variety "Vilna" and corn of the variety "Ajameti" was studied. The size of the particles used was 50.100 nm, the concentration of colloidal solutions was 10 ^-4 , 10 ^-3 , 10 ^-2 and 0.1 mg / ml. It was found that the germination rate and germination rate of seeds treated with a colloidal solution of small metal particles increases compared with the control.

 In practice, various sources of metal ions are used, such as, for example, solutions of metal salts or solutions of colloidal metals. It can be assumed that the biological effect of colloidal metal solutions will be determined by the size of the particles used. Indeed, with a decrease in particle size, the specific surface of metal powders included in the suspension increases, which will contribute to better dissolution of the metal. The correct choice of the chemical composition of the dispersed particles of the suspension will increase the injection of free electrons into the solution, i.e. adding extra energy to the biological system.

 An object of the invention is to expand the range of biologically active substances, increase their effectiveness and reduce the cost of drugs.

 The expansion of the range of biologically active substances is achieved by the use of reduction products of iron-containing compounds of various chemical composition. Reduction products contain a mixture of iron and oxygen compounds of iron in various proportions. Such mixtures have more pronounced biological properties than pure iron. Reducing the cost of biologically active drugs is achieved by choosing cheap raw materials, for example, natural compounds of iron or various waste from metallurgical production.

 The problem is solved as follows.

The expansion of the range of biologically active preparations is achieved by the choice of starting iron compounds, for example, by using ocher ore from the Bashkir iron ore district as recovered raw materials, regenerated pickling waste from the West Siberian Metallurgical Combine along with artificially prepared iron hydroxide;
increasing the effectiveness of drugs is achieved by choosing the optimal chemical composition of a mixture of iron with oxygen compounds of iron, increasing the specific surface area of the particles of the drug;
the reduction in the cost of the drug is achieved both by the choice of feedstock, and by choosing the optimal chemical composition of the drug (partial recovery).

 EXAMPLE 1. Corn seeds for planting in open ground and wheat seeds for studying seed respiration were treated with an aqueous suspension of iron hydroxide reduction products obtained by the interaction of ferric chloride with an alkali solution. The reaction time of the suspension with the seeds was chosen equal to 10 s. Then corn seeds were sown in open ground, and wheat seeds in greenhouse soil. The yield of corn was established after its growing season, and oxygen consumption by the root system of wheat germ was measured on the 6th day.

 The chemical composition of the drug used is given in table 1, and the characteristics of their biological properties in table 2.

 PRI me R 2. The same actions were performed with the products of the restoration of ocher ore Beloretsk iron ore district.

 PRI me R 3. The same actions were performed with the products of the recovery of regenerated waste pickling MTV-39 from the West Siberian Metallurgical Plant.

 The reducing gas and the chemical composition of the recovery products of the used raw materials are given in table 1. The results of the respiration of 6-day-old wheat sprouts and an increase in the yield of corn for grain are given in Table 2, photosynthesis activity, and the Hill reaction rate for various concentrations of the preparation in Table 3.

 The feasibility study of the invention is the possibility of increasing the yield of various crops. The drug successfully passed field tests on areas of up to 2000 hectares in various regions of the country. The results of field tests are given in table.4.

Claims (1)

METHOD FOR PRE-SEEDING PREPARATION OF SEEDS of agricultural crops, including seed treatment with a colloidal suspension of small metal particles, characterized in that colloidal suspensions of reduction products of inorganic iron compounds at a concentration of 10 ^{- 2} - 10 ^{- 5} % are used as a colloidal suspension of small metal particles.

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