RU2186847C2 - Strain of micromycetus trichoderma viridae 23 showing fungicide property for preparing complex biopreparation with fungicide and bacterial fertilizer property, method of preparing complex biopreparation, complex biopreparation with fungicide and bacterial fertilizer property - Google Patents

Abstract

FIELD: agriculture microbiology, phytopathology, farming. SUBSTANCE: invention proposes the strain of micromycetus Trichoderma viride 23 showing an antagonistic activity with respect to phytopathogenic fungi, the complex preparation with properties of fungicide and bacterial fertilizer, a method of the biopreparation preparing. Strain Trichoderma viride 23 is obtained by analytical selection of natural isolates selected after incubation of wash-off from peach surface on agarized medium. In preparing the preparation containing this strain 10 g (ml) of culture Trichoderma viride 23 grown on liquid nutrient medium Chapek-Dox are added to sterile beet pulp comprising nutrient supplements (K₂HPO₄, carbamide, chalk, sucrose) taken in total amount 2.4 g/100 of biopreparation. The obtained mixture is stirred and 10 g (ml) of culture Az. chroococcum, strain 2E-16, grown on liquid nutrient medium Fedorov with molasses and a mixture of trace elements Zn, Fe, Mo, Cu, Mg, Mn taken in the amount 0.1% (totally) are added to the mixture as an aqueous solution. The mixture is stirred thoroughly and remained for addition growing at the same temperature at periodic stirring 2-3 times per 24 h. The obtained preparation used for plant growth decreases their vulnerability with diseases and promotes to yield increase. EFFECT: strain indicated above, improved method of biopreparation preparing, valuable properties. 3 cl, 7 tbl

Description

 The invention relates to biotechnology, agricultural microbiology, phytopathology and can be used in agriculture, forestry, horticulture and vegetable growing.

 Known strain Trichoderma viride. F 3273 D (1), which has fungicidal properties, its disadvantage is the limited spectrum of action.

 A known method for producing a complex biological product with the properties of a fungicide and nitrogen bacterial fertilizer, where sapropel is used as a substrate for the carrier (2); The disadvantage of this method and drug is the difficulty in preparing sapropel (coagulation, dehydration, aging for several months) and its inconsistent composition.

 Known biological product based on Azotobacter chroococcum strain 92 (3), which detects the properties of nitrogen fertilizer and fungicide due to the ability of the culture to synthesize an antibiotic; The disadvantage of this biological product is the need to optimize the production conditions for the manifestation of the properties of the fungicide.

 The aim of the present invention is to improve the soil, increase its fertility, reduce the technogenic load on the soil with chemical plant protection products, reduce the consumption of mineral fertilizers and plant protection products, improve the environmental situation, increase the yield and quality of cultivated products, as well as reduce soil fatigue.

 This goal is achieved by the fact that get a new biological product with higher fungicidal activity and nitrogen fixation due to the use of Trichoderma viride micromycete. 23 pcs. (collection С-03, collection of BIOFLORA CJSC) with high fungicidal activity and nitrogen-fixing bacteria Azotobacter chroococcum pcs.2E-16 (collection B-05, collection of BIOFLORA CJSC) (4).

 A new strain of Trichoderma viride.23 was obtained by analytical selection of natural isolates selected after incubation on an agar medium with flushes from the surface of a peach. The strain is stored in the Museum of Cultures of CJSC "BIOFLORA", has S-03.

 Cultural and morphological characteristics of the strain Trichoderma viride, piece 23 (C-03) and the known strain Trichoderma viride, F 3273D are given in table. 1 and 2.

Deep cultivation on a rocking chair, n = 220 rpm, t = 26 ± 2 ^o C, 96 hours.

 Physiological and biochemical characteristics of the strain Trichoderma viride, pc. 23 (C-03) and the known strain of Trichoderma viride, F 3273 V are shown in tables 3 and 4.

 Using the agar block method (5), it was found that the activity spectrum of the claimed strain against phytopathogenic microorganisms is higher than that of the prototype.

 By direct counting in the Goryaev’s chamber, the productivity of the claimed strain was determined in comparison with the prototype. The results of the strain productivity are presented in Table 4.

 Attitude to carbohydrates. The inventive strain assimilates sucrose, fructose, glucose, lactose, glycerin, maltose.

 Attitude to nitrogen: The inventive strain grows on media containing mineral (oxidized and reduced) nitrogen, amine (organic) nitrogen.

 The discovered properties of the Trichoderma viride, C-03 strain in combination with the properties of the Azotobacter chroococcum strain pcs. 2E-16 (collection B-05, collection of BIOFLORA CJSC) made it possible to develop a new complex biological product with the properties of a fungicide and bacterial fertilizer, and a method for its preparation.

Examples of carrying out the invention are given below.
Example 1. The strain Trichoderma viride, pcs. 23 were grown in a liquid nutrient medium having a composition, g / l:
molasses - 30 g; NaNO ₃ - 2 g; To ₂ NRA ₄ - 2 g; MgSO ₄ • 7H ₂ O - 0.5 g; KCl - 0.5 g; FeSO ₄ • 7H ₂ O - 0.01 g.

Growth was carried out in flasks on a circular shaker at 220 rpm for 72 hours (growing temperature 26 ± 1 ^o C). The resulting liquid culture was used in further work to obtain a biological product.

The bacterial culture of Azotobacter chroococcum pcs. 2E-16 was grown on a liquid nutrient medium containing, g / l:
To ₂ NRA ₄ - 0.3 g, CaNRO ₄ - 0.2 g; NaCl - 0.5 g, CaCO ₃ - 5 g; To ₂ SO ₄ - 0.2 g, MgSO ₄ • 7H ₂ O - 0.3 g. Growth was carried out in flasks on a circular shaker at 220 rpm for 48 hours (growing temperature 28 ± 1 ^o C).

 A mixture of trace elements was added to the resulting liquid Azotobacter chroococcum culture piece 2E-16; Zn, Fe, Mo, Cu, Mn, Mg, Co in an amount of 0.1% (total), i.e. 10 mg in the form of an aqueous solution, and was further used to obtain a complex biological product.

Example 2. In a solid-phase substrate (beet pulp) containing nutritional supplements (K ₂ NRA ₄ , urea, chalk, molasses in a total amount of 2.4 g per 100 g of biological product), 10.0 g (ml) of Trichoderma viride culture, pcs. . 23 grown as described above. The resulting mixture was stirred and introduced into it 10.0 g (ml) of a culture of Azotobacter chroococcum pcs. 2E-16, prepared to obtain a complex biological product, as described above. The mixture was thoroughly mixed, left to grow at a temperature of 26 ± 2 ^o C for 4 days with periodic stirring 2-3 times a day.

After growing, the weight of the preparation remains practically unchanged due to moisture loss during evaporation during the growing process. The resulting preparation contains:
- dispute - 15.3 • 10 ⁹ / g,
- Azotobacter chroococcum cells pcs. 2E-16 - 4.8 • 10 ⁹ / g,
- nutritional supplements 2.4% (K ₂ NRA ₄ , urea, chalk, molasses),
- trace elements), 1%,
- the remains of the nutrient medium Azotobacter chroococcum pcs. 2E-16,
- the remains of the nutrient medium Trichoderma viride, pcs 23,
- beet pulp up to 100 g,
- the humidity of the drug is 45-60%.

 Example 3. Checked the biological activity and effectiveness of the drug by the method of wells, comparing it with the activity of the original strains that make up the basis of the drug.

 The results of the experiment are presented in table. 5.

 Example 4. The preparation obtained as described in example 2 was treated with strawberry planting upon detection of the first signs of Botrytis cinerea. As a prototype used sapropel (2). The drug was scattered in the experimental plot using a spreading machine at the rate of 10.0 kg / ha. Biometric, morphophysiological and phytopathological observations, as well as examination of strawberry plantings were carried out in the process of growth, plant development and ripening of berries. The results of the experiments are presented in table. 6.

 Example 5. A biological product obtained as described in Example 2 in the spring treated winter wheat crops upon detection of "snow mold" (Fusarium sp.). The biological product was mixed with 10 times the amount of water and watered crops. Biometric, morphophysiological surveys of wheat sowing were carried out during the vegetation of plants.

 The results of the experiments are presented in table. 7.

 Thus, the claimed strain of Trichoderma viride and the resulting new biological product by the present method have the ability to suppress the phytopathogenic microflora of the soil while acting as a bacterial nitrogen fertilizer, provide increased yield and the ability to reduce the consumption of nitrogen fertilizers. In this case, a synergistic interaction of the two strains with respect to the suppression of phytopathogens is observed. The composition of the biological product ensures its ecological purity due to the physiological properties of the microbial culture strains included in its composition. Nutrient additives are completely consumed both in the process of growing the drug and in soil microflora when the drug is introduced into the soil. Microorganisms - the basis of a biological product become a healing factor for planting and soil.

Sources of information
1. RF patent 2013055, publ. 05/30/94. Bull. 10.

 2. RF patent 2081866, publ. 20.06.97. Bull. 17.

 3. A.S. USSR 922105, publ. 23.04.82. Bull. fifteen.

 4. Application for patent of the Russian Federation 99112161, priority 04.06.99. Positive decision of 07/27/01.

 5. Jozsef Segi. In the book. Methods of soil microbiology. M .: Kolos, 1983, p. 173.

Claims (3)

 1. The strain of micromycete Trichoderma viride, pcs.23 (collection C-03, collection of CJSC "BIOFLORA"), which has antagonistic activity against phytopathogenic fungi, to obtain a biological product. 2. A method of obtaining a complex biological product with the properties of a fungicide and bacterial fertilizer containing Azotobacter chroococcum, characterized in that in the solid phase substrate is beet pulp containing nutritional supplements (K ₂ HPO ₄ , urea, chalk, molasses in an amount of 1.2-3, 5% by weight of the substrate), add Trichoderma viride micromycete culture, pcs.23 (С-03, collection of CJSC BIOFLORA) in the amount of 8-14% by weight of the solid-phase substrate, mix and add 5-12% of the Azotobacter chroococcum culture pcs. 2E-16, (B-05, collection of CJSC "BIOFLORA") containing trace elements Zn, Fe, Mo, Cu, Mn, Mg, Co, in an amount of 0.1-0.4% in total (of the amount of Azotobacter chroococcum), the resulting mixture is mixed and grown.  3. A complex biological product with the properties of a fungicide and bacterial fertilizer obtained according to claim 2.

Images