RU2654569C2 - Microbiological composition for increasing crop yiled and protecting them from pests and diseases - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: microbiological composition for increasing crop yield and protecting them from pests and diseases comprises the following in 1 g of dry starch-sucrose mixture: 2 billion of viable spores and bacteria cells B. subtilis 26D (ARRIAM 128), 1 billion. B. thuringiensis ssp. thuringiensis (PMBC V5689) and 1 billion. B. thuringiensis ssp. kurstaki (PMBC V6066).

EFFECT: invention enables to increase crop yield.

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Description

Safe for human health and well-being of the environment protection of crops from pests and diseases is one of the necessary components of the so-called “organic farming”. The main components of this method of combating pests are currently biological products.

It is known that representatives of the two main kingdoms of organisms are capable of causing significant harm to crop production - insects and microscopic fungi. To combat the former, bioinsecticides are used as safe means, and biofungicides are used as the second.

Obviously, the most effective biological pesticides (biopesticides) will be those that exhibit a triple effect from the application: they reduce the spread of fungal diseases, pests, and increase crop yields. A convenient form of such biological products is solid, powdery, since liquid preparations require storage in a hermetically sealed container under special conditions, and the container itself, now in the form of plastic, creates a new task for its safe disposal, while powders can be stored in paper bags or bags made of cardboard, which can then be disposed of by burning.

Thus, it is necessary to solve the problem of creating a powdered preparation of biological origin, which at the same time has the ability to reduce the spread of fungal diseases, insect pests, increase crop yields when processing vegetating plants, since insects predominantly affect crops during vegetation.

The most effective basis for such drugs is the microorganisms themselves, which suppress the spread and development of phytopathogenic fungi and pests, i.e. possessing antagonistic activity and entomopathogenic properties, as well as stimulating plant growth. For example, the bacterial strain Bacillus thuringiensis VKPM B-9790 is known, which has multiple pesticidal activity, namely insecticidal activity against beetle larvae, fungicidal activity against root rot pathogens - Fusarium graminearum, Rhizoctonia solani and other phytopathogenic fungi. The disadvantage of the strain is the lack of ability to increase crop yields.

As a means of a complex effect on harmful coleopteran insects and phytopathogenic fungi, the strain B. thuringiensis var. darmstadiensis No. 25 (BtH ₁₀ No. 25) [2]. According to this invention, the microorganism can be used in the manufacture of a multifunctional plant protection product from harmful coleopteran insects and phytopathogenic fungi. The invention also improves the germination of plant seeds. However, the phytoregulatory activity of preparations based on this strain is manifested only during pre-sowing soaking of seeds of agricultural crops, which does not allow processing vegetative plants.

A known strain of B. Thuringiensis, showing the ability to suppress the development of powdery mildew on the flag leaf and stem rust of vegetative plants [3]. But this bioagent was isolated by the authors from the internal tissues of wheat plants, i.e. It is its companion and does not allow to protect other cultures.

At the same time, another bacterial strain Bacillus subtilis AQ713 was isolated [4], which exhibits fungicidal and fungistatic activity against a wide range of phytopathogenic fungi that infect different cultures, but exhibits insecticidal activity only against fleas, which does not allow its use, for example, for reduction in thrips, Colorado potato beetle, etc.

Kazakh scientists have created a bacterial drug "Thuringin-F" complex action by growing a strain of B. thuringiensis var. thuringiensis 20/3 [5]. This drug can protect plants from leaf-eating insects, stem nematodes and pathogens of plant root diseases, but it does not allow to fight against phytopathogens that infect leaves.

Also known are preparations based on consortia of microorganisms, for example, from four strains of soil antagonist bacteria: Bacillus polymixa, B. thuringiensis, Pantoea agglomerans, P. chlororatis [6]. A preparation based on such a composition of microorganisms can be used in open and closed ground conditions, at all stages of plant growth to effectively suppress the development of gray rot and powdery mildew of tomato and cucumber, bacterial clover cancer, vascular cabbage bacteriosis, angular spotting of cucumber, fusarium wilting of tomato, helminthosporosis of barley, root rot of cotton, however, it is intended to populate the plant rhizosphere and does not have insecticidal activity.

One of the simple ways to solve this problem may be to combine in one product two powdered microbiological preparations with different activity and complementary properties. Such drugs include, for example, the domestic biofungicide phytosporin (B. subtilis 26D strain, BashInkom NPP LLC), according to the invention No. 2099947 [7], which can be produced in powder form, as well as bitoxibacillin bioinsecticide (B. thuringiensis ssp. thuringiensis BtH ₁ 98, LLC PO Sibbiofarm), also in powder form. Both drugs are approved for use in Russia as the basis of biopesticides, but each of them shows only one property in relation to pests. Moreover, it is known that treatment of plants with a preparation based on strain B. subtilis 26D also increases the yield of crops due to the presence of growth-promoting activity in bacteria [8]. However, data on the results of the use of a complex preparation consisting of two biopesticides with satisfactory properties are not known in the open press, and therefore we chose this mixture as a prototype.

The problem posed above is solved by the fact that in order to increase the yield of agricultural crops and protect them from pests and diseases, a microbiological composition is proposed containing 2 billion viable spores and bacterial cells of B. subtilis 26D (VNIISKhM 128), 1 in dry starch-sucrose mixture billion B. thuringiensis ssp. thuringiensis (VKPM B5689) and 1 billion B. thuringiensis ssp. kurstaki (VKPM B6066).

Strain B. thuringiensis subsp. thuringiensis B5689 (synonymous with strain VNIIVEA-177) was isolated from the larva of the gadfly of the Tyumen region, deposited in the All-Russian collection of industrial microorganisms of the State Scientific Center of the Russian Federation State Research Institute of Genetics and Breeding of Industrial Microorganisms (GosNIIgenetika) and was obtained from the specified collection.

Strain B. thuringiensis ssp. kurstaki B6066 (synonym for strain T03A001, HD73) was deposited in the All-Russian Collection of Industrial Microorganisms of the State Scientific Center of the Russian Federation Federal State Budgetary Institution State Research Institute of Genetics and Breeding of Industrial Microorganisms (GosNIIgenetika) and was obtained from this collection.

The composition is prepared as follows. A preparation containing spores and bacterial cells of the B. subtilis 26D strain is obtained by culturing the microorganism in a liquid semi-synthetic medium, and then drying it together with a starch-sucrose mixture, according to the procedure described in V.D. Nedorezkova (2003). Get a drug containing at least 4 billion viable spores in 1 g of powder. Preparations containing cells and spores of B. thuringiensis ssp. thuringiensis (VKPM B5689) and B. thuringiensis ssp. kurstaki (VKPM B6066) is obtained by culturing the corresponding bacteria in a commercial L-medium according to Miller, for example, DIFCO company, then a dry preparation of starch-sucrose mixture is obtained according to the method described in V.D. Nedorezkova (2003). Preparations are obtained containing, respectively, at least 4 billion viable spores of B. thuringiensis ssp. thuringiensis (VKPM B5689) and B. thuringiensis ssp. kurstaki (VKPM B6066) in 1 g of each powder.

Then the powders are mixed in a mass ratio of 2: 1: 1 (containing, respectively, B. subtilis 26D (VNIISKhM 128); B. thuringiensis ssp. Thuringiensis (VKPM B5689); B. thuringiensis ssp. Kurstaki (VKPM B6066)), get dry a mass containing in 1 g of 2 billion viable spores and bacterial cells of B. subtilis 26D (VNIISCHM 128), 1 billion B. thuringiensis ssp. thuringiensis (VKPM B5689) and 1 billion B. thuringiensis ssp. kurstaki (VKPM B6066). A microbiological composition (MS) is obtained containing B. subtilis 26D bacteria with biofungicidal properties and the ability to increase crop yields, as well as the indicated B. thuringiensis ssp. thuringiensis (VKPM B5689) and B. thuringiensis ssp. kurstaki (VKPM B6066), exhibiting insecticidal properties and belonging to the group of microorganisms of hazard class IV, which, according to the passports of these strains stored in the All-Russian collection of industrial microorganisms, allows the use of bacteria as the basis of bioinsecticides.

To assess the solution of this problem, the obtained MS was used to process vegetative plants of spring wheat of the Vatan variety (table 1) and potato of the Roka variety (table 2). Crops were grown according to the generally accepted agricultural technique of cultivating them in the South Urals.

As a prototype, a mixture of dry commercial preparations phytosporin (manufacturer LLC NVP BashIncom, spore and B. subtilis 26D cells (VNIISCHM 128) 2 billion / g) and bitoxibacillin (manufacturer PO Sibbiopharm LLC, spore content B. thuringiensis, was used) ssp.thuringiensis 20 billion / g). The drugs were used in doses recommended by their manufacturers - in the amount of 1 kg per 1 ha of crops. Powders were suspended in water at the rate of 300 l of suspension per 1 ha. The plot area was 50 square meters. m, spraying of crops was carried out using a backpack sprayer. Accounting for the spread of diseases and insect pests was carried out according to the recommendations [10-12]. Accounting for productivity was carried out by continuous harvesting from the plots of the economic part of the crop. The results of the comparative use of MS and prototype are shown in tables 1 and 2.

As can be seen from the results of tests on spring wheat crops (table 1) with a double use of the MS preparation with fewer spores and bacterial cells (1 billion CFU / g versus 10.5 billion CFU / g) and lower consumption (2 kg / ha MS against 4 kg / ha of prototype) a large increase in productivity is achieved (4.2 times more than that of the prototype). At the same time, there is an equal (against thrips) or higher (beetle goose, powdery mildew, root rot) degrees of biological effectiveness in protecting against harmful organisms, both against subsoil organs disease (root rot) and leaf disease (powdery mildew).

Greater efficiency of using MS (twice with a total consumption of 2 kg / ha) against an insect pest (Colorado potato beetle) and disease (late blight) in comparison with the prototype (twice with a total consumption of 4 kg / ha) was obtained when testing on potato plantings (table 2) . With an equal increase in productivity (NDS ₀₅ indicates the absence of significant differences in comparison with the prototype), the processing of MS plants allows to increase the total yield of starch as a technical product by 1.49 tons per hectare more in comparison with the prototype.

According to the results, the developed MS allows to significantly improve the properties of the mechanical mixture of the known biofungicide and plant growth stimulator phytosporin and the bio-insecticide bitoxibacillin, allowing even with a twofold decrease in the number of MS, as well as a ten-fold decrease in the concentration of microorganisms in its dry preparation, to obtain the best effect for seven out of nine indicators with the equality of two. The technical effect of the invention is achieved by the fact that instead of the strain B. thuringiensis ssp. thuringiensis BtH ₁ 98 strain B. thuringiensis ssp. thuringiensis (VKPM B5689), and the composition was supplemented with a strain of B. thuringiensis ssp. kurstaki (VKPM B6066), which together allows achieving the above effects in plant protection and increasing productivity, while it is possible to reduce the concentration of spores and microorganism cells in 1 g of the drug by 2.75 times in comparison with the prototype, which refers to the sign of “significant result".

Bibliography

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Claims (1)

Microbiological composition to increase crop yields and protect them from pests and diseases, containing 2 billion viable spores and bacterial cells of B. subtilis 26D (VNIISCHM 128), 1 billion B. thuringiensis ssp. In 1 g of dry starch-sucrose mixture. thuringiensis (VKPM B5689) and 1 billion B. thuringiensis ssp. kurstaki (VKPM B6066).