RU2556723C1 - Agent of stimulating action with fungicidal antistress properties for pre-sowing treatment of seeds and method of its use - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: agent is a colloidal solution of potassium, ammonium or mixed potassium-ammonium form of bismuth citrate. The solution comprises the following components, mg/l: bismuth 2.0-5.6; potassium 0-1.9; ammonium 0-0.6; citrate 2.5-7.1. The particle size of the solution is 2-4 nm. The agent is used for pre-sowing treatment of crops seeds by wetting. The consumption rate of the agent is 5.5-11 litres per 1 ton of seeds.

EFFECT: increase in germination energy and germinating ability of grain seeds, suppression of pathogens, and increase in resistance to stress factors.

2 cl, 6 tbl

Description

The invention relates to agricultural production, and specifically to crop production, and can be used to improve the sowing quality of seeds of grain crops.

A known method of stimulating the germination of seeds of grain crops by pre-sowing seed treatment with an aqueous solution of tris (2,2-dichlorocyclopropylmethyl) phosphate with an active substance concentration of 0.001% at a dose of 1 liter per 1 kg of seeds (1. Patent RU 2460297, A01N 57/10, A01N 43 / 20, A01N 29/02, A01P 23/00, published on September 10, 2012).

Known stimulant for presowing treatment of seeds of cereals based on dimethyl- (2,2-dichlorocyclopropylmethyl) phosphate (2. patent RU 2460298, A01N 57/10, A01N 43/20, A01P 23/00. Publish. 09/10/2012) .

Known stimulant for presowing treatment of seeds of cereals based on bis (2,2-dichlorocyclopropylmethyl) phosphate (3. Patent RU 2460291, A01N 43/20, A01N 57/10, A01N 29/02, A01P 23/00. Publ. 10.09. 2012).

Known drugs increase the energy and speed of seed germination, but their synthesis is complicated and associated with the use of toxic chlorophosphorus-containing organic compounds.

It is known to use copper (II) bismalonamide nitrate of the composition Cu (NO ₃ ) ₂ · 2CH ₂ (CONH ₂ ) ₂ as a seed growth stimulator for cereal crops (4. Patent RU 2374254, C1, CL C01F 1/08, A01N 55/02. Published on May 26, 2008).

It is known to use copper (II) tetraaquababismalondiamide sulfate dihydrate of the composition Cu ₂ (SO ₄ ) ₂ · (C ₃ H ₆ N ₂ O ₂ ) ₂ (H ₂ O) ₄ ) · 2H ₂ O as a means for presowing treatment of seeds of agricultural crops (5 Application 2009140526/04 (057622), CL A01N 59/20, A01P 21/00, published on November 2, 2009).

Known drugs increase the energy and speed of seed germination, but are difficult to prepare.

A known method of pre-sowing treatment of seeds, mainly grain crops, growth-activating drug Mival dose of 1.0-20.0 g per 1 ton of seeds, followed by germination of seeds for 7-14 days at a temperature of 20-30 ° C and the protection of seed 10-100 % bischofite solution of MgCl ₂ · 6H ₂ O composition at a rate of growth and protective preparations equal to 10-15 liters per ton of seeds (6. Patent RU 2316163, C2, CL A01C 1/00. Publish. 10.02.2008 g .).

This drug allows you to increase productivity, but requires several complex operations during processing.

A means is known for presowing treatment of seeds of agricultural crops in the form of two separate aqueous compositions, which are a composition of macro- and microelements, the first of which contains copper, zinc, magnesium, nickel, lithium, cobalt, iron, manganese, nitrogen and water, and the second potassium, phosphorus, chromium, molybdenum, boron, selenium, vanadium, carbohydrates, amino acids and water (7. Patent RU 2370956, IPC A01N 59/26, A01N 59/20, A01N 59/14, A01N 59/06, A01N 59 / 16, A01N 59/02, A01N 37/44, A01P 21/00, A01C 1/06. Published on October 27, 2009).

This tool has insufficient effectiveness and is quite difficult to prepare.

There is a method of combating fungal diseases of crops by pre-sowing seed treatment with Silk at a rate of 2.0-5.0 g of active substance per 1 ton of seeds by semi-dry dressing at a rate of 10 l of working solution per ton of seeds (8. patent RU 2147400, IPC A01N 37/08, A01N 61/00, A01N 65/00. Published on October 27, 2009).

The disadvantage of this method is the difficulty of obtaining the drug from green fir using the process of extraction with a fire-hazardous mixture of petroleum ether and ethyl acetate.

A known method of obtaining and using in agriculture as fungicides derivatives of triazolopyrimidine (9. patent RU 2089552, CL. C07D 487/04, A01N 43/90. Publish. 09/10/1997).

The disadvantages of this method are the difficulty of obtaining derivatives of triazolopyrimidine, as well as their toxicity.

A known method of presowing treatment of cereal seeds to stimulate the germination, disinfection and increase the yield of spring wheat by soaking the seeds at a temperature of 18 ° C in an aqueous solution of hydropyrite (10. A. S. USSR No. 1387890. Cl. A01C 1/00. Publ. 15.04. 1988).

The disadvantages of this method include the toxicity of the drug (causes skin and respiratory tract irritation, serious damage to the eyes), as well as its low efficiency: field germination of wheat seeds after treatment increased only by 60%, plant height - by 5% of control, yield - by 9% compared to untreated seeds, and plant pest infestation was reduced by 20%.

The closest technical solution chosen for the prototype is the article (11. Skryabin V.A., Machikhina L.I., Nosenko N.A., Mikhailov Yu.I., Orlova E.A., Yukhin Yu.M., Boldyrev VV “Nanostructures based on bismuth and silver for the grain storage system and production of animal feed.” Collection of materials of the All-Russian scientific-practical conference “Actual problems in the field of creating innovative technologies for storing agricultural raw materials and food products. Uglich 2011), which shows the fundamental possibility of using the drug Comrade based on bismuth compounds for the disinfection of seed material from pathogens that are transmitted in bulk with planting material. Concrete recommendations on the composition and properties of such drugs are not given in the article.

The problem solved by the claimed invention is to create a new drug that stimulates the germination of seeds of grain crops with fungicidal properties for presowing treatment of seeds of grain crops and the method of its application.

The problem is solved due to the fact that the inventive stimulating drug with fungicidal and anti-stress properties based on bismuth is a colloidal solution of potassium, ammonium or a mixed potassium-ammonium form of bismuth citrate with a particle size of 2-4 nm, containing, mg / l: bismuth 2 0-5.6; potassium 0-1.9; ammonium 0-0.6; citrate 2.5-7.1.

The problem is also solved thanks to the claimed method of using the preparation according to claim 1, which consists in treating seeds of cereal crops by moistening them with a consumption rate of 5.5-11, 0 la 1 t of seeds.

New is the processing of crops with a colloidal solution of potassium, ammonium or a mixed potassium-ammonium form of bismuth citrate with a particle size of 2-4 nm, containing, mg / l: bismuth 2.0-5.6; potassium 0-1.9; ammonium 0-0.6; citrate 2.5-7.1, by moistening at a flow rate of 5.5-11.0 l of the drug solution per 1 ton of seeds.

The technical result of the proposed technical solution is to increase the energy of germination and germination of seeds of grain crops, the suppression of pathogens and increase resistance to stress factors.

This is achieved by using a colloidal solution of potassium, ammonium or a mixed potassium-ammonium form of bismuth citrate with a particle size of 2-4 nm as a stimulant with fungicidal properties for pre-sowing seed treatment of grain crops, including seed treatment with a solution containing (mg / l): bismuth 2.0-5.6; potassium 0-1.9; ammonium 0-0.6; citrate 2.5-7.1, by the method of moistening at a rate of consumption of 5.5-11.0 liters of solution per 1 ton of seeds.

New is the processing of crops with a solution of nanosized particles of bismuth containing (mg / l): bismuth 2.0-5.6; potassium 0-1.9; ammonium 0-0.6; citrate 2.5-7.1, by the method of moistening at a rate of consumption of 5.5-11.0 liters of solution per 1 ton of seeds.

When studying the effect of bismuth-containing nanopreparations on the sowing quality of seeds, their stimulating effect was established. Analysis of seeds carried out in laboratory conditions (Tables 1, 2) showed that, over the years of research, the germination energy and germination rate of seeds treated with bismuth nanopreparations exceeded those obtained in variants with control.

The experiment was carried out in laboratory conditions on a variety of soft spring wheat of the Siberian selection Novosibirsk 29. The sowing quality of seeds - germination energy and germination rate was determined according to GOST 12038-84 "Method for determining germination." The seed germination method in rolls (P) was chosen. On two layers of moistened filter paper of 10 × 100 cm in size, one seed sample was placed in an amount of 100 pieces (in four repetitions). From above, the seeds were covered with a strip of the same size of moistened paper, then the strips were loosely rolled up and placed in a vertical position in a plant with a temperature of 20 ° C. Accounting and assessment of sprouted seeds when determining the germination energy was carried out after three days, the determination of germination - on the 7th day.

During laboratory, field and production experiments, a bismuth-containing solution of the composition (mg / l) 5.6 bismuth, 1.88 potassium, 0.59 ammonium, 7.09 citrate is obtained as follows: 1.07 is added successively with 10 l of water with stirring g of bismuth citrate, 0.21 g of citric acid, 0.27 g of potassium hydroxide, 0.9 ml of an aqueous solution of concentrated ammonia, and the volume of the solution was adjusted with water to 100 l. To obtain a bismuth-containing solution containing (mg / l) 2.8 bismuth, 0.94 potassium, 0.30 ammonium, 3.55 citrate, the initial solution was diluted with water 2 times.

From the table. 1 also shows that the drug is advisable to use in the form of a solution with a bismuth concentration of 2.0-5.6 mg / L. At a bismuth concentration in the solution of less than 2.0 mg / l, the effect of bismuth on the germination energy and germination is negligible, and at a bismuth concentration of more than 5.6 mg / l, there is an additional consumption of the drug without improving its effect. Pre-sowing treatment of seeds of grain crops by the method of wetting should be carried out at a consumption rate of 5.5-11.0 liters per 1 ton of seeds. At a consumption rate of less than 5.5 liters per ton of seeds, there is an insufficient degree of moisture, which reduces the effectiveness of the drug, and at a consumption rate above 11.0 liters per ton of seeds, an additional consumption of the drug does not increase its effectiveness. From the table. 1 also shows that the drug can be used both in the form of a bismuth-potassium-citrate-containing solution, bismuth-ammonium-citrate-containing solution, as well as in the form of a mixture thereof.

In the table. 2 shows the biometric indicators of the germinal organs: seedling, roots, coleoptile was determined simultaneously with the germination rate on day 7 in the same rolls. According to the results of four years 2010-2013. tests revealed the growth-promoting effect of nanopreparations on the germinal organs of wheat seeds. In all cases, an increase in the length of the seedling, coleoptile and root was noted in comparison with the control, on average, 1.2-1.3 times.

Evaluation of root rot of wheat seeds by treated nanopreparations was carried out under laboratory conditions by the method of rolls, simultaneously with determination of germination energy, germination and biometric sizes of germ organs. An assessment of the damage to the seedlings of the studied wheat seeds by root rot showed (Table 3) that the fungistatic effect of the preparations was noted in all variants of the experiment both at the pre-sowing stage and on the seeds of the new crop during 5 months of storage. At the same time, seed damage by root rot is 2-4 times lower than in the control.

The toxic effect of nanopreparations on phytopathogenic fungi of wheat seeds was determined in a pure culture by culturing fungal isolates on potato-dextrose agar with the addition of nanopreparations. It was established (Table 4) that the incidence of phytopathogenic fungi significantly decreased during the treatment of wheat seeds with nanopreparations. So, bismuth in a concentration of 2.0-5.6 mg / l was highly effective against the selection of Penicillium, Bipolaris and other fungi.

As a result of laboratory studies, bismuth-containing solutions with a bismuth concentration of 2.8 and 5.6 mg / l were selected for field and production experiments. Field experiments were laid on the phytopathological site by the immunity laboratory of the State Scientific Research University of SibNIIRS on a 2.4 m ² plot in 3 repetitions. Evaluation of productivity and productivity was carried out with plots of 1 m ² (in 3 repetitions). The ears were threshed on a spike thresher. Both biological and productive properties of plants were taken into account. Analysis of the crop structure showed that the use of pre-sowing treatment of seeds with nanopreparations causes a statistically significant excess of the crop in all types of experiments (Table 5). Yield increase in options with a bismuth concentration of 2.8 mg / l and 5.6 mg / l by 20%. At the same time, there is a distinct tendency to increase the effectiveness of bismuth nanopreparations under stressful conditions: in the dry growing season of 2012 and rainy in 2013.

The production experiment was carried out on the selection site of the SibNIIRS GNU on an area of 2.4 ha in three repetitions of each option. Harvesting grain was carried out by a combine. Table 6 presents the seed yield in centners per hectare. According to the results of the production test of various options for pre-sowing seed treatment with bismuth nanopreparations of various concentrations, the excess of 2012 yield, which is characterized as extremely arid, was revealed in all 4 variants by an average of 27%. The seed yield of 2013 was at the control level or with a slight excess of 2 to 10%.

From the data of laboratory, field and production experiments (tab. 1-6) it follows that due to the distinguishing features this goal is achieved. The technical result achieved is to create a drug that increases the germination energy and germination of seeds of cereal crops, suppresses pathogens and increases resistance to stress factors.

Claims (2)

1. A stimulating drug with fungicidal and anti-stress properties based on bismuth, characterized in that it is a colloidal solution of potassium, ammonium or a mixed potassium-ammonium form of bismuth citrate with a particle size of 2-4 nm, containing, mg / l: bismuth 2, 0-5.6; potassium 0-1.9; ammonium 0-0.6; citrate 2.5-7.1. 2. The method of using the drug according to claim 1 for pre-sowing treatment of seeds of grain crops by wetting at a rate of 5.5-11 liters per 1 ton of seeds.