RU2372778C1 - Preparation for spring wheat seeds treatment - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: described is preparation for spring wheat seeds treatment of formula H₃BO·4 o - RC₆H₄NH C (S) NH (CH₂)₃OH, where R=H or CH₃.

EFFECT: reduction of root rot development and spread, increase of plant survival rate and, as a result, increase of spring wheat crop productivity.

3 tbl, 3 ex

Description

The invention relates to crop production, and in particular to chemical means for seed dressing based on complexes of boric acid with thioureas.

It is known that the BTM family of the formula N ₃ BO ₃ 4 (NH ₂ ) ₂ C (S) is used as a plant growth stimulator for the families of bluegrass, cabbage, maria and nightshade preparations (Auth. St. No. 105,2204, class A01N 59/14, publ. 1983 )

The disadvantage of this drug is its low effectiveness.

The closest analogue is the BTTM preparation of the formula H ₃ BO ₃ · 4 (CH ₃ ) ₂ N C (S) N (CH ₃ ) ₂ (RU patent No. 2179806, class A01N 59/14, publ. 2000).

However, this drug is not effective enough as a seed disinfectant for spring wheat.

The technical result of the invention is to reduce the development and prevalence of root rot during the growing season, increasing the survival and yield of spring wheat.

The essence of the invention lies in the fact that a more active preparation of the formula N-aryl-N '- (γ-hydroxypropyl) thiourea of the formula o - RC ₆ H ₄ NH C (S) NH (CH ₂ ) ₃ OH is used, where R = H ( a) or CH ₃ (b).

N-aryl-N '- (γ-hydroxypropyl) thiourea is a crystalline substance of light yellow color with so pl. 98-99 ° C (a) or 67-68 ° C (b), readily soluble in organic solvents and sparingly soluble in water (Pak V.D., Yaganova N.N., Gartman G.A. et al. // News of the Academy of Sciences of Belarus. 1993. No. 2. P. 69-70). The drug belongs to moderately toxic substances of hazard class III (Harmful substances in the industry: Handbook for chemists, engineers and doctors. Volume III. - L .: Chemistry, 1976. P.59-60).

The preparation is prepared by mixing boric acid and N-aryl-N '- (γ-hydroxypropyl) thiourea in a 1: 4 molar ratio.

The resulting preparation of the formula H ₃ BO ₃ · 4 o-RC ₆ H ₄ NHC (S) NH (CH ₂ ) ₃ OH, where R = H (BFPA) or CH ₃ (BTPA), has the following composition, wt.%:

N-aryl-N '- (γ-hydroxypropyl) thiourea 93.0-93.5 Boric acid Rest

The physiological activity of the BTTM preparations (standard), BFPA and BTPA was tested in the field experiments of 2005-2006.

Irgina spring wheat seeds were treated 3-5 days before sowing with 0.005% aqueous solutions of BTTM, BFPA and BTPA preparations with a consumption rate of 10 l / t. Control - no processing.

The invention is confirmed by the following examples.

Example 1. The effect of drugs on the development and spread of root rot during the growing season.

The test was carried out by the method of phytopathological analysis.

Four samples of 25 seeds were etched on paper. Seed contamination was determined by the presence of mycelium with spore formation of fungi. Infection of seeds with root rot was calculated by the formula:

X = N / m100%

where N is the number of infected seeds;

m is the total number of seeds in the experiment.

The development of diseases taking into account the intensity of its spread (P ₁ ) was calculated by the formula

P ₁ = Σab / 4N100%,

where Σab is the product of seed contamination by points (a) by the corresponding infection score (b);

4 - maximum infection score;

N is the number of infected seeds.

Disease distribution (P ₂ ) was calculated by the formula

P ₂ = a / N · 100%,

where a is the number of diseased plants;

N is the total number of plants.

Table 1 shows the results of testing the effect of drugs on the development and spread of root rot during the growing season.

The data in Table 1 indicate that BTTM (standard) and BFPA preparations reduce root rot development by 1.08 times compared with the control, and BTPA preparation - by 1.29 times. Therefore, the BTPA preparation is 1.19 times more effective than the standard.

BTTM preparations (standard), BFPA and BTPA reduce the development of root rot compared with a control of 1.06; 1.09 and 1.17 times, respectively. Therefore, BFPA and BTPA preparations are 1.03 and 1.11 times more effective than the standard, respectively.

Example 2. The effect of drugs on plant survival.

Plant survival was calculated by the formula

X = n / m100%

where n is the number of plants in the stage of full ripeness, pcs / m ² ;

m is the number of plants in the stage of complete germination, pcs / m ² .

Table 2 shows the results of testing the effect of drugs on plant survival.

The data in Table 2 indicate that the BTTM preparation (standard) increases the survival of plants by 1.02 times compared with the control, and the BFPA and BTPA preparations increase by 1.03 and 1.24 times, respectively. Therefore, BFPA and BTPA preparations are 1.01 and 1.22 times more effective than the standard, respectively.

Example 3. The effect of drugs on the yield and generative elements of the yield of spring wheat.

BTTM, BFPA and BTPA preparations reduce the development and spread of root rot during the growing season, increase plant survival, which helps to increase the yield of spring wheat.

Table 3 shows the results of testing the effect of drugs on yield and generative elements of spring wheat productivity.

The data in Table 3 indicate that BTTM (standard), BFPA and BTPA preparations increase the yield of spring wheat compared to the control of 1.17; 1.20 and 1.31 times, respectively. Therefore, BFPA and BTPA preparations are 1.02 and 1.09 times more effective than the standard.

The BTTM preparation (reference) increases the number of grains in the ear by 1.23 times compared with the control, and the BFPA and BTPA preparations by 1.29 times. Therefore, BFPA and BTPA preparations are 1.05 times more effective than the standard.

BTTM preparations (standard), BFPA and BTPA increase the inflorescence productivity in comparison with the control in 1.18; 1.20 and 1.23 times, respectively. Therefore, BFPA and BTPA preparations exceed the standard in efficiency by 1.02 and 1.05 times.

Thus, the tests showed that borotiourea preparation is a seed dresser for spring wheat. This is manifested in a decrease in the development and spread of root rot, an increase in the survival of plants, and, as a consequence, in an increase in the yield of spring wheat.

Claims (1)

A means for dressing seeds of spring wheat, comprising a 0.005% aqueous solution of a preparation of the formula
H ₃ BO ₃ · 4 o-RC ₆ H ₄ NHC (S) NH (CH ₂ ) ₃ OH, where R is H or CH ₃ .