RU2800830C1 - Soybean yield improvement method - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for growing soybeans, including carrying out foliar top dressing during the vegetation period using an aqueous solution of a protective-stimulating substance at a tank mixture consumption of 300 l/ha. As a stimulating drug, a chelate compound of zinc and threonine with a concentration of 0.1% is used, with which plants are treated in the phase of 2-3 true leaves and in the budding stage.

EFFECT: increase of soybean yield.

1 cl, 4 tbl

Description

The invention relates to agriculture, namely to crop production, and can be used to increase the yield of soybeans.

It is known to use a chelate compound of zinc and threonine as a means to improve the sowing qualities of winter wheat seeds (patent for the invention of the Russian Federation No. 2770880 "Method of pre-sowing treatment of winter wheat seeds", date reg. However, this invention is used for pre-sowing treatment of crop seeds.

Also known is a method of growing soybeans, including carrying out foliar feeding during the growing season using an aqueous solution of a protective-stimulating substance at a tank mixture consumption of 300 l/ha (RF patent No. 2712501, class A01C 1/06, 2020 - prototype).

The disadvantage of the prototype is insufficient stimulating effect.

The technical result is the expansion of the range of biologically active substances used to increase the yield of soybeans.

The technical result is achieved by the fact that in the method for increasing the yield of soybeans, including carrying out foliar feeding during the growing season using an aqueous solution of a stimulating drug at a tank mixture consumption of 300 l/ha, according to the invention, a chelate compound of zinc and threonine with a concentration of 0, 1%, with which plants are treated in the phase of 2-3 true leaves and in the budding phase.

The novelty of the proposed technical solution lies in the fact that as a means to increase the yield of soybeans, an aqueous solution of a stimulating drug is used, which is a chelate compound of zinc and threonine.

The complex compound of threonine with zinc is a complex of the amino acid threonine with the trace element zinc. Each element that makes up this complex performs its own functions.

Amino acids are the primary nitrogenous substances of plants, necessary for the normal passage of plant metabolism, since they are the "bricks" from which proteins are built, participate in the biosynthesis of enzymes, maintain the water balance of cells, and stimulate the process of photosynthesis. Amino acids have the properties of a natural plant growth stimulator and allow plants to withstand high and low temperatures, increase plant immunity.

Some trace elements, in addition to stimulating metabolism, fungicidal and bactericidal properties, have specific properties. Zinc, which is part of the test preparation, plays an important role in protein, lipid and phosphorus metabolism, in the biosynthesis of vitamins and auxins, and with a sharp change in temperature increases heat and frost resistance of plants. Zinc deficiency leads to a delay in the formation of sucrose, starch and auxins; violation of protein formation, photosynthesis; inhibition of plant growth.

The chelate compound of zinc and threanine was obtained and identified by the method of Kuznetsova (Kuznetsova N.S. IR spectroscopic analysis of chelate complexes of threonine with copper and zinc ions / N.S. Kuznetsova, I.M. Vsevolod // Kulagin readings: equipment and technologies for production processes: collection of articles of the XIX International Scientific and Practical Conference - Chita, 2019. - P. 196-200).

To confirm the effectiveness of the method for increasing the yield of soybeans, studies were carried out as follows (foliar treatment of plants). The soybean variety "Slavia" was chosen as the object of study, which has the following properties: high productivity, resistance to lodging, and cracking of beans.

The treatment of soybean plants with the test preparations was carried out with a knapsack sprayer at the time and in the doses indicated in the experimental scheme; in the control, treatment of plants with a chelate compound of zinc and threonine with a concentration of 0.1% was not carried out.

Five plots with an area of 25 m ^{2 each} were used for research, one of them was a control one, and the second one was a control plot. Experience scheme:

Control 1 - without treatment of plants.

Control 2 - treatment of plants is carried out with the preparation - Folkrop Zn - 2-fold treatment of plants: 1st in the phase of 2-3 true leaves (drug consumption 1.0 l/ha, working solution consumption 300 l/ha); Folcrop Zn contains free amino acids and zinc as nutrients. Folcrop Zn, an agrochemical containing chelated water-soluble zinc, containing lignosulfonates as a complexing agent and included in the list of state registration tests on agricultural crops (State Catalog of Pesticides and Agrochemicals Permitted for Use on the Territory of the Russian Federation. - H 2. Agrochemicals. - M., 2022. - P. 43).

Experiments 1-3 were carried out with different concentrations of the drug solution (zinc and threonine chelate) 0.1%; 0.5%; 1.0%, consumption of working solution - 300 l/ha. The repetition of treatment of plants is 2-fold: the 1st in the phase of 2-3 true leaves, the 2nd in the budding phase.

The selection of plant samples to determine the height of plants, the number of branches and leaves, the area of leaves and the content of pigments in them, the mass of aboveground organs was carried out in the flowering phase.

For the structural analysis of the yield, the number of branches, beans and seeds, their weight, the weight of 1000 seeds, the content of protein and fat in the seeds were determined, the selection of model sheaves was carried out before harvesting. The yield was determined by the harvested total shaft of soybean grain from the accounting area.

The data obtained were processed by the method of analysis of variance according to D.A. Dospekhov [Arms B.A. Methods of field experience / B.A. Armor. - M.: Kolos, 1985].

The results of the study of the effect of the chelate compound of threonine and zinc on the growth of soybean plants are presented in Table 1.

From the data of Table 1 it can be seen that the use of the test preparation in the technology of soybean cultivation causes the formation of more powerful plants in height (58.1-60.8, in control 1 - 56.4 cm, when using Folkrop Zn (control2) (1, 0 l/ha) -58.5 cm), branching (1.4-1.5, in control 1-1.3 pcs and 1.4 pcs) and weight (fresh weight - 27.06-28.12, in control 1 -26.00 and 26.89 g/plant; dry weight - 6.14-7.09 and 5.39 and 5.96 g, respectively). With an increase in the concentration of the drug solution, the absolute values of growth indicators increase, they were maximum when the plants were treated in phases 2-3 of true leaves and budding with a 1.0% solution of a complex salt of threonine with zinc. An increase in the dry matter content (22.7-25.2, in the control 20.7% and 22.2 - with the use of the drug Folcrop Zn (1.0 l/ha)) in experimental variants indicates an increase in assimilation processes under the influence of the test drug , especially when applied at a concentration of 1.0%.

The increase in the mass of aboveground plant organs occurs not only due to an increase in plant height and activation of branching, but also due to leafiness. Leaves stimulate growth and development due to the assimilates synthesized in them.

The results of the study of the effect of the complex salt of threonine with zinc on the growth of the leaf apparatus and the content of pigments in soybean leaves are presented in Table 2.

As the obtained data showed (Table 2), two-time treatment of soybean plants (in phases of 2-3 true leaves and in budding) with a solution of the test preparation, especially at a concentration of 1.0%, increased the viability of the leaves and extended their life, thereby increasing the number leaves per plant (7.9, in the control 1-7.0 mg of crude substance) and their area (8.84 and 7.06 dm, respectively). The inhibition of leaf aging and the preservation of green color for a longer time increased the synthesis of pigments in the leaves (chl. a + b - 3.14, carotenoids - 0.47 mg; in control - 2.54 and 0.31 mg of crude matter).

When applied (Control 2 - Folcrop Zn (1.0 l/ha)) the absolute values of the considered indicators in table 2 were inferior to those in the variants with the use of the test preparation.

The formation under the action of the test preparation of a larger leaf surface and the most intensive photosynthesis occurring in the leaves had a positive effect on the formation of elements of the crop structure.

Unfavorable weather conditions during the period of formation of the reproductive organs (high temperature, prolonged drought), and during the period of full ripeness, frequent precipitation, which shifted the harvesting time, had a negative impact on the formation of the structural elements of the crop and soybean yield. However, the use of a new complex of the amino acid threonine with the microelement Zn in the technology of soybean cultivation, having increased the resistance of plants to climatic stresses, had a positive effect on the production process.

The results of the study of the effect of the complex salt of threonine with zinc on the formation of elements of the structure of the soybean crop are presented in table 3.

As can be seen from the data presented in Table 3, the use of a complex salt of threonine with zinc in soybean cultivation technology contributed to the formation of a larger number of beans on the plant (36.5-41.8, in control 1-34.9 pcs, when using Falcrop (control 2) - 36.0 pcs/plant) and seeds (58.4-70.9, 54.7 pcs and 57.5 pcs); significantly increased shift productivity (8.41-10.81, 7.59 and 8.08 g, NSR ₀ , ₅ = 0.38 g), bean weight (15.97-19.56, in control 1 14.44 and 15.18 g) and the weight of 1000 seeds - 142.78-145.23, in control 1 - 137.01 and 142.07 g, respectively). The highest values of the indicators under consideration were obtained when using the drug at a concentration of 0.1%.

The formation under the action of the test preparations of a larger number of larger seeds led to a high yield.

The results of the study of the effect of the complex salt of threonine with zinc on the yield and content of protein and fat in the seeds are presented in table 4.

From the data in Table 4 it can be seen that the maximum yield of 19.3 c/ha (in the control 16.6 c/ha, when using Folcrop Zn 17.5 c/ha) was obtained in the variant using zinc threoninate at a concentration of 0.1% (consumption of working solution 300 l/ha). In soybean seeds, the content of protein and fat increased, especially in the specified variant (41.9 and 21.8%, in control 1 - 40.7 and 20.3%, in the variant with the use of the preparation Folcrop Zn 41.0 and 20.7 % respectively).

Thus, the new test compound, the complex salt of the amino acid threonine with zinc, has a high biological efficiency. Strengthening of growth and production processes, resistance of plants to climatic stresses under the influence of the test preparation ensured a high and high-quality soybean yield.

Double treatment of plants (1st in the phase of 2-3 true leaves, 2nd - in the budding phase) with a solution of a complex salt of threonine with zinc at a concentration of 1.0% (consumption of a working solution of 300 l/ha) led to a high yield - 19 .3 c/ha (in the control 1-16.6 c/ha, in the variant with the use of Folcrop Zn - 17.5 c/ha) and the maximum increase in the yield of soybean seeds (16.3%) with a high protein content and fat (41.5 and 21.3%, in control 1 - 40.7 and 20.3%, 41.0 and 20.7%, respectively).

Claims (1)

A method for growing soybeans, including carrying out foliar top dressing during the growing season using an aqueous solution of a protective-stimulating substance at a tank mixture consumption of 300 l/ha, characterized in that a chelate compound of zinc and threonine with a concentration of 0.1% is used as a stimulating drug, which plants are treated in the phase of 2-3 true leaves and in the budding phase.