RU2399181C2 - Application of potassium sodium tartrate as growth promoter of plants and method of its use - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: plant seeds before sowing are treated with aqueous potassium sodium tartrate at a concentration 0.005-0.01%, or vegetative plants are sprinked with a solution of this compound in a concentration of 0.1-0.5%.

EFFECT: use of potassium-sodium tartrate can extend the range of growth promoters of plants.

2 cl, 4 tbl, 4 ex

Description

The invention relates to the field of agriculture, specifically to chemicals that stimulate plant growth.

Plant growth stimulants are currently gaining in popularity. They contribute to the increase in the yield of various crops, improving the quality of agricultural products. As growth stimulators in agriculture, both individual compounds and compositions containing growth-promoting substances are used.

A known method of processing crops, including spraying wheat plants with potassium hydroxide at a concentration of 0.03-3.0% (1).

There is also known a method of processing crops, including spraying plants with a solution of potassium hydroxide with the addition of potassium or ammonium nitrate in a concentration of 0.01-10.0% and potassium permanganate in a concentration of 0.0001-0.1% (2). However, the applied caustic potassium solution is an aggressive medium, which complicates the application technology.

A known method of stimulating the germination of seeds of cucumbers, in which an aqueous solution of the fraction of ether-soluble substances of bleached wastewater of sulphate-cellulose production in a concentration of 10 ^-2 -10 ^-7 wt.% (Mol / l) is used as a stimulant (3).

It is known that sodium humate (4) is used as a plant growth promoter in a concentration of 0.05-0.01% for humic acids. The main disadvantage is the low biological activity.

The technical problem solved by the invention is the expansion of the range of plant growth stimulants and the development of a method for its use.

The technical problem is solved by the fact that as a stimulator of plant growth it is proposed to use potassium sodium tartrate.

The technical problem is also solved by the fact that a method for using potassium sodium tartrate as a plant growth promoter is proposed, which consists in pre-sowing seed treatment with an aqueous solution with a concentration of 0.005-0.01% or irrigation, or by spraying vegetative plants with a solution of potassium sodium tartrate with a concentration of 0 , 1-0.5%.

Potassium sodium tartrate of the formula KNaC ₄ H ₄ O ₆ × 4H ₂ O is a colorless transparent crystal, readily soluble in water. The reagent is non-toxic and non-explosive. The molecular weight (according to international atomic masses of 1971) is 282.21 (5).

Potassium tartrate is used in analytical chemistry for the preparation of solutions for chemical analytical work (6, 7), in the pharmaceutical industry for the production of antiseptics and flame retardants for woods (8), as well as for the processing of metals in electronics (9).

From the prior art, the use of potassium sodium tartrate as a plant growth stimulator has not been identified.

The method of using potassium sodium tartrate as a plant growth stimulator consists in pre-sowing seed treatment with an aqueous solution of a concentration of 0.01-0.005% or in a concentration of 0.1-0.05% for the treatment of vegetative plants.

The claimed range of concentrations of the plant growth stimulator is justified by the fact that when going beyond the boundaries of the interval, the biological activity of the applied plant growth stimulator is not increased.

The advantage of using potassium sodium tartrate as a plant growth promoter is that it contains potassium, which allows to increase the productivity of photosynthesis, the intensity of protein synthesis, enhance the synthesis of high molecular weight carbohydrates, catalyze the work of some enzymes, enhance the synthesis and accumulation of vitamins (thiamine and riboflamin in plants) )

The invention is illustrated by the following examples.

Example 1. The study of the effect of various concentrations of potassium-sodium tartrate solutions on the initial growth of wheat seeds

One of the biological indicators that most fully characterizes the usefulness of seeds and the viability of plants is the intensity of the initial seed growth. There is a direct correlation between the intensity of initial seed growth and plant productivity.

Assessment of biological activity as a growth promoter of potassium-sodium tartrate was carried out on wheat seeds of the Novosibirsk-15 variety. Germination was determined according to GOST 12038-84 (Seeds of agricultural crops. Methods for determining germination) (10).

After 7 days of germination, seed germination was determined, seedlings were separated from the roots, dried, weighed, and the weight of the roots was correlated with the weight of the control variant, expressed as a percentage. In the control variant, the seeds were treated with water. The arithmetic mean of the determination results was taken as the result of the analysis.

Solution Preparation Example

To prepare a 1% plant growth stimulator, 1 g of potassium sodium tartrate is dissolved in 100 ml of distilled water.

To prepare a 0.1% plant growth stimulator, 1 g of potassium sodium tartrate is dissolved in 1 l of distilled water.

To prepare a 0.05% plant growth stimulator, 0.5 g of potassium sodium tartrate is dissolved in 1 liter of distilled water.

The preparation of solutions with a concentration of 0.01%, 0.005, 0.001% is carried out by diluting a solution of growth promoter with a concentration of 0.1%, respectively, 10, 20 and 100 times.

The experimental results are presented in table 1.

Table 1 The effect of presowing seed treatment with a solution of potassium-sodium tartrate on the initial growth of wheat Experience option Germination,% Dry root mass of 10 seedlings g % Water control 91.3 0,04495 100.0 Potassium Sodium Tartrate 1% 88.7 0,04327 96.3 Potassium Sodium Tartrate 0.5% 93.3 0,04535 100.9 Potassium Sodium Tartrate 0.1% 92.0 0.04271 95.0 Potassium Sodium Tartrate 0.05% 92.7 0.04235 94.2 Potassium Sodium Tartrate 0.01% 91.3 0,04792 106.6 Potassium Sodium Tartrate 0.005% 92.7 0,04890 108.7 Potassium Sodium Tartrate 0.001% 92.7 0.042631 94.8 NDS ₀₅ 6.4

From the data of table 1 it follows that a solution of potassium sodium tartrate exhibits stimulating properties in a concentration of 0.005-0.01%.

Example 2. The study of the effect of various concentrations of potassium-sodium tartrate solutions on the initial growth of cucumber seeds

Assessment of biological activity as a growth promoter of potassium-sodium tartrate was carried out on the seeds of cucumber cultivar "Bush". Germination was determined according to GOST 12038-84 (Seeds of agricultural crops. Methods for determining germination) (10).

The experiment was carried out identically to example 1.

table 2 The effect of presowing seed treatment with a solution of potassium-sodium tartrate on the initial growth of cucumber Experience option Germination,% Dry root mass of 10 seedlings g % Water control 80.3 0.05830 100.0 Potassium Sodium Tartrate 1% 79.1 0,05544 95.1 Potassium Sodium Tartrate 0.5% 83,2 0,05725 98.2 Potassium Sodium Tartrate 0.1% 84.1 0,05539 95.0 Potassium Sodium Tartrate 0.05% 83.9 0.05608 96.2 Potassium Sodium Tartrate 0.01% 84.3 0.06249 107,2 Potassium Sodium Tartrate 0.005% 83.5 0.06256 107.3 Potassium Sodium Tartrate 0.001% 83.6 0,05573 95.6 NDS ₀₅ 6.4

From the data of table 2 it follows that a solution of potassium sodium tartrate exhibits stimulating properties in a concentration of 0.005-0.01%.

Example 3. The biological activity of the claimed plant growth stimulant was evaluated by the results of exposure to potassium sodium tartrate on the biomass and the mass of the roots of wheat seedlings. Wheat seeds were soaked with water and placed in cups for germination for 4 days.

Next, wheat seedlings were planted in test tubes with potassium-sodium tartrate solutions of various concentrations. 5 ml of prepared solutions of the plant growth stimulator and distilled water, taken as a control option, were poured into test tubes. The duration of the experiment is 5 days under continuous artificial lighting. The repetition of each variant is fourfold, the number of seedlings in each repetition is 10 pieces. The biomass and mass of the roots of wheat seedlings were dried at 100-105 ° C, weighed, correlated with the control and expressed as a percentage. This technique allows you to set the working concentration of biologically active drugs for watering and spraying vegetative plants.

Table 3 Effect of Potassium Sodium Tartrate on Wheat Growth Option Concentration,% Dry vegetative mass of 10 seedlings Dry root mass of 10 seedlings g % g % Water control 0 0.32932 100.0 0,0787 100.0 Potassium Sodium Tartrate 1,0 0.23264 70.6 0,06758 85.9 0.5 0.25289 76.8 0,09566 121.6 0.1 0.25819 96.4 0,1308 196.9 0.05 0.25419 94.9 0.09202 138.5 0.01 0.23100 86.2 0,06879 103.6 0.005 0.24525 91.5 0,06838 102.9

Example 4. The study of the effect of various concentrations of potassium-sodium tartrate solutions on the cultivation of cucumber

The results of this method allow you to determine the concentration of the drug for spraying or watering vegetative crops.

The biological activity of the claimed plant growth stimulant was evaluated by the results of exposure to potassium sodium tartrate on the biomass and mass of roots of cucumber seedlings. Cucumber seeds were soaked for 20 minutes in a weak solution of KMnO ₄ , washed with water and placed in Petri dishes between layers of wet filter paper for 3 days. After 3 days, cucumber seedlings were planted in test tubes with potassium-sodium tartrate solutions of various concentrations.

10 ml of the prepared solutions of the plant growth stimulator, sodium humate and distilled water taken as a control were poured into test tubes. The duration of the experiment is 5 days under continuous artificial lighting. The repetition of each variant is fourfold, the number of seedlings in each repetition is 10 pieces. The biomass and mass of the roots of cucumber seedlings were dried at 100-105 ° C, weighed, correlated with the control and expressed as a percentage. This technique allows you to set the working concentration of biologically active drugs for watering and spraying vegetative plants.

The results of determining the biological activity of the inventive plant growth stimulator in comparison with the biological activity of sodium humate are shown in table 4.

Table 4 The effect of potassium-sodium tartrate solutions on the growth of cucumber plants Experience option Dry biomass of one cucumber plant Dry root mass of one cucumber plant g % g % Control - Water 0.02403 100.0 0,00684 100.0 Sodium humate 0.05% 0,02496 100.8 0,00854 124.8 Sodium Humate 0.01% 0,02387 103.9 0,00903 131.9 Potassium Sodium Tartrate 0.1% 0,02636 109.7 0,00994 145.2 Potassium Sodium Tartrate 0.05% 0,02454 102.1 0,008413 125.9 Potassium Sodium Tartrate 0.01% 0,02363 98.3 0.007006 102,4 Potassium Sodium Tartrate 0.005% 0,025125 104.6 0,007344 107.3 Potassium Sodium Tartrate 0.001% 0,024488 101.9 0,007394 108,0 NDS ₀₅ 9.8 20,0

Judging by the data of the experiments in Table 4, the claimed plant growth stimulator is superior to sodium humate in biological activity.

The method of using potassium sodium tartrate as a plant growth promoter is simple, cost-effective and, given the low concentration of the drug, environmentally friendly. The use of potassium sodium tartrate allows us to expand the range of plant growth stimulants used.

Information sources

1. Application 95121882/13, A01G 7/06, A01N 33/12, 07.27.98.

2. Patent 2159999, 7 A01G 1/00, A01N 25/00, 10.12.2000.

3. A.S. USSR No. 1102501, 5 IPC A01C 1/00, A01N 61/00, publ. 1984.

4. Kasimova L.V., Buller O.V., Kobzeva E.A. Sodium humate from peat / Chemicalization of Agriculture, No. 12, 1991, p.81.

5. GOST-5845-79. Reagents Potassium sodium tartrate 4-water, specifications. M .: Publishing house of standards, 1989, 11 pp.

6. Korostelev P.P. Preparation of solutions for chemical analytical work. M., 1964.

7. Agrochemical analysis of soils, plants, fertilizers. M.: Publishing House of Moscow State University, 1988, 113 pp.

8. TU 6-09-2677-86. Packing. Production of antiseptics and flame retardants for wood.

9. Kirsanov S.V., Glebov V.V., Prisyazhnyuk Yu.V. The influence of alloying additives in the UND4 alloy on the performance of electrochemical processing and surface roughness / Metalworking, 2004, No. 2 (20), pp. 26-29.

10. GOST 12038-84. Seeds of crops. Germination determination methods. M .: Publishing house of standards, 1985, 60 p.

Claims (2)

1. The use of potassium sodium tartrate as a plant growth stimulator. 2. A method of stimulating plant growth, which consists in pre-sowing seed treatment with an aqueous solution of potassium sodium tartrate at a concentration of 0.01-0.005% or treatment of vegetative plants with an aqueous solution of potassium sodium tartrate at a concentration of 0.1-0.5%.