RU2655789C1 - Method of pre-treating processing of spring grains (options) - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Method is proposed for the presowing treatment of spring grain seeds, which includes treating the seeds with at least one microbial culture. As a microbial culture use: Pseudomonas sp., Bacillus sp., Eisenia fetida earthworm coprolites Phosphate-mobilizing bacteria. In this case, the seed treatment is carried out with a solution of a microbial culture with a concentration of 10⁷–10⁸ kl/ml at the rate of 100 v.c. of the preparation per 10,000 seeds v.c.

EFFECT: this method of presowing treatment of spring grain seeds helps to reduce the damage of spring cereal crops by root rot agents, with the subsequent increase in yield and the improvement of grain quality.

9 cl, 3 tbl, 7 ex

Description

The invention relates to agriculture, and in particular to methods of combating fungal diseases of cultivated crops of spring crops caused by soil micromycetes, to increase the productivity and quality of the resulting grain. It can be used for pre-sowing treatment of spring grain seeds in environmentally friendly technologies for growing plants.

A known method of protecting winter crops from root rot and dwarf rust, RF patent No. 2461199 A01N 65/00, C12N 1/20, C12R 1/01, C12R 1/39, publ. 09/20/2012.

The method includes treating the seeds with a mixture consisting of the fungicidal strain Pseudomonas fluorescens 17-1, deposited in the GNU VNII agricultural microbiology No. 622D, and the growth-promoting strain Sphingobacterium spiritivorum 38-22 deposited in the GNU VNII agricultural microbiology under No. 620D and fungi : 1: 0.5, moreover, fungicide Vincitum is used in an amount of 150 ml per hectare seed rate. The invention improves the efficiency of plant protection against root rot and dwarf rust.

The disadvantage of this method is that it includes the use of two strains of microorganisms and a fungicidal preparation in a complex ratio of components. The use of the chemical three-component fungicide Vincit as a part of the preparation does not allow to fully attribute this mixture to biological plant protection products and growth regulators.

Known tool for presowing seed treatment, RF patent No. 2295219, AC 1/00, publ. 03/20/2007.

Means for presowing treatment of seeds includes an aqueous solution of the natural mineral bischofite and additionally contains microbial fertilizer. The ratio of components, wt.%: Bischofite 7-15, microbial fertilizer 9-10, water - the rest. Using the invention will improve crop yields and product quality while maintaining the ecological and biological balance of the environment. As a microbial fertilizer, rhizoenterin, misorin, flavobacterin, etc. can be used, the new product increases growth-regulating activity, the seeds are provided with a set of nutrients, including trace elements, enzymes, amino acids, their immunity and protection against pests is formed, germination and germination energy are increased. All this leads to increased yields and product quality.

A disadvantage of the known invention is that bischofite is hygroscopic, therefore, crystals quickly absorb moisture in the air and spread out. In addition, the lack of clear data on microbial cultures and their concentration in the proposed tool does not allow to standardize the method of application of the tool in agriculture on an industrial scale.

A known method of presowing seed treatment patent No. 2243639 A01C 1/00, A01C 1/06, publ. 02/20/2005.

When treating seeds, first, an aqueous suspension of the adhesive and fine peat in the amount of 0.3-0.5 of the mass fraction of seeds are applied to the seeds. Then, macro-, micronutrient fertilizers and a growth stimulant are added to the aqueous suspension of the adhesive. After that, a mixture of bentonite and peat in the ratio of their mass fractions of 0.14-0.64 and an aqueous suspension of the adhesive with macro-, micronutrient fertilizers and growth stimulant are applied alternately to peat-coated seeds. Treated seeds are run in a spray bottle and dried. Using the invention will improve the quality of seed treatment before sowing.

A disadvantage of the known invention is a large number of sequential actions in the processing of seeds.

Closest to the claimed invention is a method of combating pathogens of plant diseases, RF patent No. 2130265, A01N 63/00, A01C 1/00, publ. 05/20/1999.

The method consists in the fact that seeds or vegetative plants are treated with a preparation consisting of a mixture of cell suspensions of strains of Pseudomonas sp. 7G, Pseudomonas sp. 7G2K, Pseudomonas sp.17-2, taken in a ratio of 25: 20: 25-40: 50: 50 with a titer of (2-5) × 10 ¹⁰ cells / ml at a flow rate of 10-50 ml of suspension per 1 ton of seeds or 20 -50 ml of suspension per 1 ha in case of treatment of vegetative plants. The drug is prepared 3-7 days before use, and before use it is diluted with water to the desired concentration. The method provides protection of plants from fungal and bacterial diseases, allows to reduce the consumption rate of the drug by 10-100 times and increase the yield of agricultural plants.

A disadvantage of the known invention is that the method uses a complex mixture of three strains of microorganisms. All strains use a rather high titer of microorganisms (2-5) × 10 ¹⁰ cells / ml.

The technical problem of the claimed invention is the development of a method of pre-sowing treatment of spring grain seeds (options):

- contributing to the reduction of the defeat of spring crops by root rot pathogens;

- accelerating the growth and development of plants with a subsequent increase in yield and improving the quality of grain.

The specified technical result is achieved by the fact that the method of pre-sowing treatment of spring grain seeds includes the treatment of seeds with at least one microbial culture, and the following microbial cultures are used: Pseudomonas sp., Bacillus sp., Phosphate-mobilizing bacteria isolated from coprolites of earthworms Eisenia fetida while seed treatment is carried out with a solution of microbial culture with a concentration of 10 ⁷ -10 ⁸ cells / ml at the rate of 100 hours drug per 10,000 hours seed.

As a microbial culture, use Bacillus sp., Or a mixture of Pseudomonas sp. And phosphate-mobilizing bacteria, taken in the ratio 1: 1, or a mixture of Pseudomonas sp. and Bacillus sp., Taken in the ratio 1: 1.

The specified technical result is also achieved by the fact that the method of pre-sowing treatment of spring grain seeds involves treating the seeds with at least one microbial culture, and as a microbial culture use: Pseudomonas sp., Phosphate-mobilizing bacteria isolated from coprolites of earthworms Eisenia fetida, while before seed treatment in 100 hours a solution of microbial culture with a concentration of 10 ⁷ -10 ⁸ cells / ml is injected with a natural mineral:

- bentonite in an amount of 2 parts by weight or

- glauconite in an amount of 150 parts by weight with the addition of 2 hours CMC glue (carboxymethyl cellulose) dissolved in 50 parts by weight water,

and the specified estimated amount of the mixture of the components of the drug is treated with 10,000 hours. seed.

Before treatment in a solution of microbial culture, which is used as Pseudomonas sp. and phosphate-mobilizing bacteria, introduce bentonite in the following ratio of the mixture of components, including:

Pseudomonas sp. fifty phosphate mobilizing bacteria fifty bentonite 2

Before treatment, bentonite is introduced into a solution of a microbial culture, in which phosphate-mobilizing bacteria are used, in the following ratio of the mixture of components, including:

phosphate mobilizing bacteria one hundred bentonite 2

Before treatment, a solution of microbial culture, which is used as Pseudomonas sp., Is injected with glauconite and CMC glue (carboxymethyl cellulose), in the following ratio of the mixture of components, including:

Pseudomonas sp. one hundred glauconite 150 CMC glue (carboxymethyl cellulose) 2 water fifty

Before treatment in a solution of microbial culture, which is used as Pseudomonas sp. and phosphate-mobilizing bacteria, enter glauconite and CMC glue (carboxymethyl cellulose), in the following ratio of the mixture of components, including:

Pseudomonas sp. fifty phosphate mobilizing bacteria fifty glauconite 150, CMC glue (carboxymethyl cellulose) 2 water fifty

Disclosure of the invention

Used in the claimed method, microbial cultures: Pseudomonas sp., Bacillus sp., And phosphate mobilizing bacteria belong to the group of rhizobacteria (PGPR microflora), which are natural symbionts of agricultural plants. Presowing seed treatment with preparations based on them induces reactions of nonspecific resistance of plants to many diseases of fungal, bacterial and viral origin, including root rot. In addition, Pseudomonas sp., Bacillus sp. and phosphate-mobilizing bacteria produce substances of growth-promoting nature, which contribute to the improvement of the morphometric parameters of plants and thereby increase the yield of spring cereals, in particular spring barley and wheat, and also improve the quality of seeds. In addition, phosphate-mobilizing bacteria also improve the phosphorus nutrition of plants by producing phosphatase enzymes that promote the mobilization (release) of mineral and organic phosphate compounds in a form accessible to plants.

Before sowing, spring grain seeds are treated with a microbial culture, the active ingredient of which is Pseudomonas sp., Bacillus sp. and phosphate mobilizing bacteria. Mentioned bacteria were previously isolated from coprolites of earthworms Eisenia fetida.

In the inventive method for the treatment of spring grain seeds, together with microbial cultures of the mentioned microorganisms, bentonite or glauconite is used.

Glauconite is a mineral species from the hydromica group. The chemical composition is K (Fe, Mg) (H ₂ O) ₂ [Si ₃ , _8-3.5 Al _0.2-0.5 O ₁₀ ]. Contains up to 9.5% K ₂ O and up to 4.5% MgO. Glauconites contain an increased amount of certain trace elements - boron (up to 300 g / t with an average content of 100 g / t in sedimentary rocks), vanadium (650 and 150 g / t, respectively), as well as copper, manganese and others [Grishin P.N. ., Kravchenko V.V. Kravchenko I.P. Agronomic ores and unconventional mineral raw materials (interactive course): Textbook / comp .: Grishin PN, Kravchenko VV Kravchenko I.P. - Saratov: Publishing House - Saratov State Agrarian University., 2011. - 176 p.].

Used bentonite brand PBMB (LLC "Bentonite Khakassia"). The company's raw material base is the 10th Khutor, the best bentonite clay deposit in Russia [www.b-kh.ru]. Mineral composition: montmorillonite, kaolinite, hydromica, quartz, alkaline feldspar, mica, calcite. The average chemical composition of bentonite in%: SiO ₂ - 59.68; Al ₂ O ₃ - 18.63; Fe ₂ O ₃ - 3.93; CaO - 2.769; MgO - 2.43; K ₂ O - 1.62; Na ₂ O - 0.98; FeO — 0.67; TiO ₂ - 0.59; SO ₃ 0.16; P ₂ O ₅ - 0.12; MnO - 0.05. The presence of basic nutrients (potassium, phosphorus), macroelements (calcium, magnesium) and microelements (manganese) in bentonite in a water-soluble form contribute to the development of positive changes already at the initial phase of ontogenesis of spring grains.

The introduction of the clay mineral glauconite into a solution of microbial cultures in the declared amounts is not only mechanical in nature. Due to their porosity, clay minerals allow microorganisms to occupy the surface of these pores, distribute along them and maintain their viability in the best way. Glauconite is composed of coarse particles. Introducing it together with CMC glue (carboxymethyl cellulose) in the declared amounts into a solution of microbial cultures allows to obtain a paste that is used to process spring grain seeds. Clay CMC (carboxymethyl cellulose) is used as a paste to better attach particles of glauconite to the seeds.

As a result of pre-sowing seed treatment by the claimed method, the growth-regulating activity of rhizobacteria is increased, the seeds are provided with a set of nutrients, including trace elements, their immunity is formed and seed damage by pathogens decreases. All this leads to an increase in the yield and quality of spring grain products.

Isolation of strains: Pseudomonas sp. and Bacillus sp. into a pure culture.

Pure cultures of the microorganisms used were obtained by isolating Eisenia fetida earthworms from coprolites, for which direct seeding was carried out from a mixed average sample of coprolite on meat-peptone agar, followed by a series of passages on the same medium and final transfer to test tubes for oblique agar. Belonging of the isolated bacteria to the genus Pseudomonas sp. and Bacillus sp. determined in accordance with the morphological characteristics of colonies and cells, as well as the biochemical properties of microorganisms. Bacilli are producers of various biologically active substances: enzymes, antibiotics, vitamins, etc. Since they secrete enzymes into the culture fluid, obtaining their preparations is not particularly difficult. Many species have antagonistic properties and produce most of the antibiotics known today.

Phosphate-mobilizing bacteria were isolated into a pure culture according to the above scheme, using Muromtsev's medium with reprecipitated phosphates as a nutrient medium. The phosphate mobilizing activity of bacteria was evaluated by the diameter of the phosphate precipitate dissolution zone formed around the colonies.

Obtaining accumulative cultures of bacteria

Cumulative bacterial cultures were obtained by liquid-phase cultivation of bacteria isolated into a pure culture in King B medium in 250 ml flat-bottomed flasks with 100 ml of medium in a thermostatic shaker. Cultivation temperature + 28 ... 30 ° С, duration - 3 days. Aeration was carried out by mixing the medium on a rocking chair (180-200 rpm). Cultivation was continued until a bacterial titer of 10 ⁸ -10 ⁹ cells / ml was reached.

Example 1. Treatment of seeds with a microbial culture preparation containing Bacillus sp.

Liquid microbial cultures, such as Bacillus sp., Isolated from coprolites of Eisenia fetida earthworms, are adjusted to a concentration of 10 ⁷ -10 ⁸ cells / ml. Next, the seeds were sprayed with a solution of Bacillus sp. in the amount of 100 parts by weight (100 g) of the drug per 10,000 hours (10 kg) of seeds with a manual sprayer.

The results of the field experiment, see tables 1-3, example 1.

Example 2. Seed treatment with a preparation containing two microbial cultures of microorganisms, namely Pseudomonas sp. and phosphate mobilizing bacteria, taken in a ratio of 1: 1.

Isolated from coprolites of earthworms Eisenia fetida, Pseudomonas sp. H phosphate-mobilizing bacteria are brought to a concentration of 10 ⁷ -10 ⁸ cells / ml and taken in a ratio of 1: 1, namely 50 parts by weight (50 g) solution of Pseudomonas sp. and 50 hours (50 g) solution of Bacillus sp. Next, the preparation is treated with a hand sprayer seeds in an amount of 10,000 hours. (10 kg). The results of the field experiment, see tables 1-3, example 2.

Example 3. Seed treatment with a preparation containing two microbial cultures of microorganisms, namely Pseudomonas sp. and Bacillus sp., taken in a 1: 1 ratio.

Isolated from coprolites of earthworms Eisenia fetida, Pseudomonas sp. H Bacillus sp. with a concentration of 10 ⁷ -10 ⁸ cells / ml take in a ratio of 1: 1, namely 50 parts by weight (50 g) of a solution of the strain Pseudomonas sp. and 50 hours (50 g) solution of Bacillus sp. Next, the preparation is treated with a hand sprayer seeds in an amount of 10,000 hours. (10 kg).

The results of the field experiment, see tables 1-3, example 3.

Example 4. Seed treatment with a preparation containing two microbial cultures of microorganisms, namely Pseudomonas sp. and phosphate-mobilizing bacteria and the mineral bentonite.

Bentonite was added to a solution of two cultures of microorganisms: Pseudomonas sp. and phosphate-mobilizing bacteria in an amount of 2 hours That is, for 100 hours (100 g) of a solution of microbial culture, including 50 hours. (50 g) solution of Pseudomonas sp. And 50 parts by weight (50 g) of a solution of phosphate-mobilizing bacteria with concentrations of 10 ⁷ -10 ⁸ cells / ml, 2 parts by weight were added. (2 g) bentonite. Finely dispersed bentonite is used, and its introduction into a solution of microbial cultures makes it possible to freely spray the resulting preparation through a sprayer. Next, 10 kg of grain was sprayed with a hand sprayer prepared by the preparation.

The results of the field experiment, see tables 1-3, example 4.

Example 5. Seed treatment with a preparation containing phosphate mobilizing bacteria and the mineral bentonite.

Fine bentonite was added to the solution of the microbial culture of phosphate-mobilizing bacteria of the declared concentration in an amount of 2 parts by weight That is, for 100 hours (100 g) of a solution of the microbial culture of phosphate-mobilizing bacteria was added 2 parts by weight (2 g) bentonite. Next 10,000 hours (10 kg) grains were sprayed with the prepared preparation by a manual sprayer.

The results of the field experiment, see tables 1-3, example 5.

Example 6. Seed treatment with a preparation containing Pseudomonas sp., Clay mineral glauconite, CMC glue (carboxymethyl cellulose).

Prepare a preparation of the specified composition as follows: take 150 parts by weight (150 g) glauconite, 100 parts by weight (100 g) of a solution of the microbial culture of Pseudomonas sp. Declared concentration and 52 hours. (52 g) CMC glue solution. The CMC glue solution is prepared as follows: take a sample of 2 parts by weight (2 g) of dry CMC glue and dissolved in 50 parts by weight (50 g) of water. In the resulting preparation, 10,000 vol. (10 kg) spring grain seeds.

The results of the field experiment, see tables 1-3, example 6.

Example 7. Seed treatment with a preparation containing two microbial cultures: Pseudomonas sp. and phosphate mobilizing bacteria and clay mineral glauconite.

Prepare a paste of the indicated composition as follows: take 150 g of glauconite, 100 ml of a solution of microbial culture, consisting of 50 ml of a solution of Pseudomonas sp., 50 ml of a solution of phosphate-mobilizing bacteria and 52 parts by weight (52 g) CMC glue solution. The CMC glue solution is prepared as follows: take a sample of 2 parts by weight (2 g) of dry CMC glue and dissolved in 50 parts by weight (50 g) of water. In the resulting preparation, 10,000 vol. (10 kg) spring grain seeds.

The results of the field experiment, see tables 1-3, example 7.

The effectiveness of the processing of seeds of spring barley and wheat by microbial cultures, their combinations or microbial cultures on a solid carrier (clay glauconite or bentonite) in a field experiment.

Field experiments were carried out at the Luchanovsky field hospital of SibNIISHKhiT. The soil is gray forest medium-podzolized. The experiment was repeated three times. The plot area is 40 m ² , the accounting area is 32 m ² .

In the field experiment, seeds of spring barley of the Acha variety and wheat of the Irgina variety were used. The seeding rate for wheat was 6.5 million / ha, for barley 5.5 million / ha. The results of the field experiment are presented in tables 1-3.

Claims (16)

1. A method for pre-sowing seed treatment of spring grain, comprising treating the seeds with at least one microbial culture, characterized in that the following is used as the microbial culture: Pseudomonas sp., Bacillus sp., Phosphate-mobilizing bacteria isolated from coprolites of earthworms Eisenia fetida, wherein the seed treatment is carried out with a solution of microbial culture with a concentration of 10 ⁷ -10 ⁸ cells / ml at the rate of 100 hours. drug per 10,000 hours seed. 2. The method according to p. 1, characterized in that as a microbial culture using Bacillus sp. 3. The method according to p. 1, characterized in that as a microbial culture using a mixture of Pseudomonas sp. and phosphate mobilizing bacteria, taken in a ratio of 1: 1. 4. The method according to p. 1, characterized in that as a microbial culture using a mixture of Pseudomonas sp. and Bacillus sp., taken in a 1: 1 ratio. 5. A method for pre-sowing treatment of spring grain seeds, comprising treating seeds with at least one microbial culture, characterized in that the following is used as a microbial culture: Pseudomonas sp., Phosphate-mobilizing bacteria isolated from coprolites of earthworms Eisenia fetida, while before treatment seeds in 100 hours a solution of microbial culture with a concentration of 10 ⁷ -10 ⁸ cells / ml is injected with a natural mineral: - bentonite in an amount of 2 parts by weight or - glauconite in an amount of 150 parts by weight with the addition of 2 hours CMC glue (carboxymethyl cellulose) dissolved in 50 parts by weight water, and the specified estimated amount of the mixture of the components of the drug is treated with 10,000 hours. seed. 6. The method according to p. 5, characterized in that before processing into a solution of a microbial culture, which is used as Pseudomonas sp. and phosphate-mobilizing bacteria, introduce bentonite in the following ratio of the mixture of components, including: Pseudomonas sp. fifty phosphate mobilizing bacteria fifty bentonite 2 7. The method according to p. 5, characterized in that before treatment in a solution of a microbial culture, which is used phosphate-mobilizing bacteria, bentonite is introduced in the following ratio of the mixture of components, including: phosphate mobilizing bacteria one hundred bentonite 2 8. The method according to p. 5, characterized in that before processing in a solution of a microbial culture, which is used as Pseudomonas sp., Glauconite and CMC glue (carboxymethyl cellulose) are introduced in the following ratio of the mixture of components, including: Pseudomonas sp. one hundred glauconite 150, CMC glue (carboxymethyl cellulose) 2 water fifty 9. The method according to p. 5, characterized in that before treatment in a solution of a microbial culture, which is used as Pseudomonas sp. And phosphate-mobilizing bacteria, glauconite and CMC glue (carboxymethyl cellulose) are introduced in the following ratio of the mixture of components, including: Pseudomonas sp. fifty phosphate mobilizing bacteria fifty glauconite 150 CMC glue (carboxymethyl cellulose) 2 water fifty