SU986371A1 - Method of admistering biologically active susbance into plant - Google Patents

Description

The invention relates to methods of using biologically active substances in treating plants and is intended for use in agriculture.

- Methods are known for introducing biologically active substances into plants in the form of dusts, powders, solutions and other preparative forms that are applied by dusting, spraying, spraying from Cl and 2 aircraft.

However, with such methods, not all biologically active substances fall on plants, which leads to an increase in their consumption and environmental pollution.

There is also known a method of introducing a biologically active substance into a plant together with a substance providing a high osmotic pressure in the form of a preparative form locally, on its base part 3.,

Low molecular weight carbohydrates are used as substances providing high osmotic pressure of the formulation.

The aim of the invention is to increase the effectiveness of exposure to a biologically active substance.

The goal is achieved by the use of a polyhydric alcohol as a substance providing a high osmotic pressure of its formulation.

As the latter, an alcohol containing 5-6 carbon atoms is used, in particular arabitol, dulcite, mannitol, sorbitol.

The working drug is used in high concentrations.

It is applied to adhesive tape. The tape is applied in a ring-like manner to the basal part of the plant at a time determined by the agrotechnical requirements for the application of the biologically active substance. It is also used to spray individual plant organs.

The method provides rapid penetration into the plant or into its individual parts of the biologically active substance in prescribed quantities and, thus, the eff activity of its effect increases.

The polyhydric alcohols used in the composition of preparations are identical to the products of plant metabolism, as a result of which these alcohols easily penetrate into plants and are transported into them together with biologically active substances that cause various physiological, biochemical or morphological changes in the plant organism, which leads to an increase in plant productivity. Biologically active substances can be administered in predetermined quantities both in the whole plant and in its individual organs. In the composition of powdered preparations as fillers together with biologically active substances, you can enter fillers - kaolin, talc ashes of plants. When using powdered preparations in conditions of low atmospheric humidity, it is recommended to apply them to plants by local gluing to plants with adhesive tape with powdered preparation sprayed onto it. After the adhesive tape is stuck to the plants, the powder is dissolved in the zone of 1Lentak in the transpiration moisture of the plant to form concentrated solutions that are easily penetrated into the plants. The application of pore acrylic preparations to plants with adhesive tape can be carried out in all weather conditions, in particular in conditions of high atmospheric humidity, especially when heavy precipitations in the form of rain fall. Lipka tape eliminates the flushing of the drug, which contributes to its rational use, regardless of weather conditions. Example 1. Prepare a powdered drug on the basis of the phytohormone - gibberellin and polyhydric alcohol - dulcite. For this, 1 part by weight of gibberellin is dissolved in 5 parts by weight. ethanol. To the resulting solution was added 100 wt. including water and then with thorough mixing 99 weight.h. dulcite. The resulting pasty mass is dried and ground to a powdery basis. The prepared preparation is applied by spraying onto an adhesive tape of 5 mg of the preparation per 1 cm of tape. Then the adhesive tape with the preparation applied on it is cut into strips of the size see. These strips annularly lay on the basal parts of the grape shoots 14-16 days before the beginning of the mass flowering. As a result, there is a good loosening of the inflorescence, and then - a pile, which leads to a decrease in susceptibility of gray rot by 65.3% a year and to an increase in grape yield by 23.5% compared to similar indicators of grape bushes not treated with the preparation. For comparison, a powdered preparation is prepared on the basis of that he phytohormone, with the only difference being that dulcite is excluded from the composition of the preparation and talc is added in an amount of 89 parts by weight. After the prepared preparation is sprayed onto the adhesive tape, it is cut into strips, and the latter are applied to the basal parts of the grape shoots as described above. As a result, a weak loosening of the inflorescence is observed, and then clusters. At the same time, the susceptibility to gray rot is reduced by 19.6%, and the yield increases by 7.9% compared with the similar indicators of grape bushes not treated with the preparation. Example 2. Prepared in the form of a solution preparation based on vitamin ascorbic acid, phytohormone - gibberellin and polyhydric alcohol - dulcite. For this, 0.00015 weight.h. ascorbic acid and 10 weight.h. dulcite is dissolved in 86.9 parts by weight. water, and 0.01 weight.h, gibberellin is dissolved in 3 weight.h. ethanol. The resulting solutions are drained. Prepared in the form of a solution with a preparation, inflorescences of grape seedless varieties are sprayed during the period of mass flowering. - As a result, the number of grapes per year is increased by 28.3%, and the yield - by 49.6% compared to the bushes of grapes, whose inflorescences were not treated, with the preparation. For comparison, they prepare in the form of a solution of the drug based on the same vitamin and the same phytohormone, with the only difference that dulcite is excluded from the composition of the drug, water is taken in the amount of 96.9 parts by weight. The prepared solution is applied to the inflorescences of the grapes as described above. As a result, the number of grapes per year increased by 16.3% and the yield increased by 29.6% as compared with the grapes bushes whose inflorescences were not treated with the preparation. Example 3. A preparation based on a substance to combat plant pests, methyl mercaptophos and a polyhydric alcohol mannitol, is prepared as a solution. For this 1 weight.h. mechylmercaptophos is dissolved in 95 parts by weight. water, then with stirring add 4 weight.h. mannitol. Prepared with a solution of the drug are sprayed in the spring or summer of the Blon in order to combat fruit mites. As a result, the death of fruit mites is up to 98.6%. For comparison, a preparation is prepared in the form of a preparation based on the same substance for combating pests.

manganite is excluded from the composition of the drug, and water in the amount of 99 parts by weight is excluded. The prepared preparation is treated with blon as described above. As a result, death of fruit mites is observed to 78.3%.

As can be seen from the above mentioned iglers, polyatomic alcohols increase the efficiency of using biologically active substances, which results in an increase in the productivity of plants. In addition, the method allows chemical agents to be used in a number of cases, regardless of weather conditions.

 The local use of chemical agents allowed a more differentiated effect on individual plant organs. As a result, more effective use of biologically active substances is observed.

The use of adhesive tape with the application of the drug makes it possible to use chemical agents throughout the day, regardless of solar radiation, which increases productivity.

Claims (3)

Invention Formula 17. A method of introducing into a plant a biologically active substance by a combined IVBSCTHO with a substance providing a high osmotic pressure in the form of a formulation, locally, on its basal part, characterized in that, in order to increase the effectiveness of the effect of a biologically active substance, a high osmotic pressure is provided its preparative, use polyhydric alcohol, 2. A method according to claim 1, characterized in that an alcohol containing 5-6 carbon atoms is used as a polyhydric alcohol. five 3. Method pop. 1 and 2, characterized in that arabitol, dulcite, mannitol, sorbitol are used as a polyhydric alcohol, Information sources, taken into account during the examination 1. The Agricultural Encyclopedia. Ed. fourth, t, 4. m., s. 860864, 1973. 2. The same, vol. 5, M., pp. 325-327, 1974. 3. USSR author's certificate according to the application 2723951 / 30-15 (026916 ;, 1977 (prototype ;.