RU2477596C2 - Method to stimulate growth and protect small-fruit crops against diseases caused by fungic pathogens - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method to stimulate growth and to protect small-fruit crops against diseases caused fungic pathogens includes treatment of plants with a biopreparation in a liquid form by soaking roots of seedlings prior to planting, or their sprinkling after planting, or sprinkling of plants in the period of vegetation and fruiting, or sprinkling of soil around plants with its further soaking with water. The biopreparation is a mixture of strains of bacteria B. subtilis VKPM B-10641, B. amyloliquefaciens VLPM B-10642, B. licheniformis VKPM B-10561 and B. licheniformis VKPM B-10562 or a mixture of strains of bacteria B. subtilis VKPM B-10641, B. amyloliquefaciens VKPM B-10642 and B. licheniformis VKPM B-10562 with a titre of each strain of not less than 10⁵ CFU/ml in the form of a water suspension.

EFFECT: invention provides for higher protection of small-fruit crops against diseases caused by fungic pathogens, due to use of a mixture of strains of different types of bacteria of Bacillus type, having higher antagonistic activity, and also provision of the possibility of stimulation of growth of small-fruit crops.

5 cl, 10 tbl, 8 ex

Description

The invention relates to methods of stimulating the growth and protection of berry crops from diseases caused by fungal pathogens, and can be used in agricultural microbiology, agricultural biotechnology, plant protection.

A known method of growing and protecting plants (RF Patent No. 2154935, IPC A01G 1/00, publ. 08/27/2000), including soil preparation, planting or sowing plants, periodic cultivation, and characterized in that they carry out preplant planting of seeds and tubers a mixture of activators, immunostimulants, antagonists and biofertilizers [Avertrop, Agat-25 or Rizoplan, Ampelomycin, Herbamine, Diprin or Nematol, Complex biological fertilizer (KBU), Symbiont-Universal) in half doses of the recommended doses for this drug (mixture 1), this same mix combined with biological fertilizers (Biohumus, Root mixture in recommended doses) are added to the wells before planting, trichogram production waste or viral biological product production waste (dead butterflies) with sapropel or with rotted chicken droppings, or with powder from naturally fallen, are introduced into the soil together with biological products leaves or needles (mixture 2), in the future with mixture 1, periodic ground spraying or watering of vegetative plants (every two weeks) is carried out with preliminary spreading of vermicompost and application to the soil The root mixture (in the same standards), the soil is populated with a complex of microorganisms, microbiological antagonists contained in biological products [Alirin-B, Alirin-S, Batsifit, Gliokladin, Mikostop, Narcissus, Nematofagin or Nematofagin-A (activated supernatant - waste from bi Diprin), Pentofag, Rizoplan-F, various forms of Trichodermin, Trichothecin, Phytoflavin, Phytoflavin-L] (mixture 4), in half doses recommended for this drug, which is added to the wells before planting, then periodic (1 h in two weeks) spraying or watering the plants; they are introduced as elements of the fauna of predators and entomophages (Afidiuses, Ambliseyus, Ladybugs, Camels, Gall midges, Gold-eye, Lisephlebuses, Sulfides, Phytoseyulyus) - complex 1 - by periodic release in half doses of the recommended beginning for the preparation and microorganisms that are active Avertrop, Verticilin, Cephalosporin, Entomorphine, Bicol, Bitoxibacillin, Boverin, Vertimex, Mikoafidin-T, Turitsid, Entoftorin) (mix 5), in half doses from recommended for this drug by periodic treatments - spraying or watering; Before spraying with Diprin and / or Nematol, sodium alginate is used to prevent drying and death of nematodes, and when using entomophages, at the beginning of the growing season of growing agricultural crops, complexaceous and / or umbrella plants are additionally planted in the rows of the main crops, which are an additional source of nutrition for adult entomophages.

The disadvantage of the above analogue is the complexity and cost of reproducing the method of plant protection.

A known method of biological plant protection using the example of potatoes, which includes treating tubers and potato plants during the growing season with a biological product mixed with an adhesive, characterized in that for processing potato tubers, planriz is used as a biological product at a rate of 1000 ml per ton of tubers, and 1 ha for processing plantings during the growing season use a mixture of biologics Planriz in the amount of 0.5 l and Bancol in the amount of 0.2 l, diluted in 300-350 l of Zamankul mineral water, while using as an adhesive corn paste in an amount of 1-1.5% of the volume of the mixture (RF patent No. 2343667, IPC A01C 1/00, A01N 63/00, published on January 20, 2009).

However, in this method there is no data on the possibility of stimulating the growth and protection of berry crops from diseases.

A known method of growing plants on soils depleted of nitrogen and trace elements, comprising treating seeds and / or vegetating plants with a biological product containing a suspension of bacteria of the Pseudomonas strain, characterized in that a mixture of suspensions of the Pseudomonas species 7G, 7G2K and 17-2 strains taken in a ratio of 1: 2: 1 with a concentration of 2.5-5.0 × 10 ¹⁰ cells / ml, while the seed treatment is carried out at the rate of 30-50 ml of suspension per 1 ton of seeds, and the processing of plants in the phase of active growth at the rate of 30 -75 ml / ha (RF patent No. 2403748, IPC A01N 63/00, published on November 20, 2010).

However, in this method there is no data on the possibility of stimulating the growth and protection of berry crops from diseases.

A known method of stimulating the growth and protection of plants from diseases, including treating the seeds with a composition of bacterial cells of a microorganism of the genus Pseudomonas in the form of a complex of strains of Pseudomonas Species 7G, Pseudomonas Species 7G 2K, Pseudomonas Species 17-2 and physiologically active components, characterized in that as physiologically the active components use the Darina humic fertilizer, the ratio of bacterial strains is 0.7: 1.5: 0.7-1.5: 0.7: 1.5, the concentration of bacterial cells is 2-5 · 10 ¹⁰ cells / ml, the ratio of the complex strains and "Darina" is 1: 1-1: 1.8, composition A ju is prepared before seed treatment by diluting a three-day Chlorella Vulgaris in a culture fluid, moreover, 2.3-2.7 ml of a complex of bacteria strains are used to treat 1 ton of seeds, and the working solution consumption rate is 10-12 liters per ton of grain and leguminous crops and 70 -80 liters per ton of potato tubers (RF patent No. 2291620, IPC A01G 5/00, published on January 20, 2007).

However, in this method there is also no data on the possibility of stimulating the growth and protection of berry crops from diseases.

The closest analogue (prototype) is a method of protecting fruit and berry crops from diseases, including treating them with a liquid preparation containing a mixture of the culture fluid of the bacterial strain Bacillus subtilis 24 D (VNIISCHM 129) at a concentration of 5 · 10 ⁹ cells / ml, humates and trace elements described in the patent of the Russian Federation (RF patent No. 2216173, IPC A01N 63/00, publ. November 20, 2003). The method is used on berry bushes, fruit trees. 50 ml of the drug is taken and diluted in two liters of water. This solution is watered with 2-3 trees / shrubs or 100 m ^{2 of} strawberry plantings.

However, this method has insufficient effectiveness in protecting berry crops due to the use of a drug based on one strain of bacteria Bacillus subtilis 24D (VNIISKHM 129), and there is no data on stimulating plant growth using the prototype method.

The technical result is to increase the protection of berry crops from diseases caused by fungal pathogens by using a mixture of strains of different types of probiotic bacteria with high antagonistic activity and more diverse forms of plant treatment, as well as providing the possibility of stimulating the growth of berry crops.

The specified technical result is achieved by the fact that in the method of stimulating the growth and protection of berry crops from diseases caused by fungal pathogens, including treating the berry crops with a biological product in liquid form, according to the invention, the plants are treated by soaking the roots of the seedlings before planting, or spraying them after planting, or spraying plants during the growing season and fruiting, or spraying the soil around the plants, followed by soaking it with water, and a mixture of tank strains is used as a biological product ery B. subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642, B.licheniformis VKPM B-10561 and B.licheniformis VKPM B-10562 or a mixture of bacterial strains B. subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642 and B.licheniformis VKPM B-10562 with a titer of each strain of at least 10 ⁵ CFU / ml in the form of an aqueous suspension. When stimulating the growth and protecting strawberries from fungal diseases, it is planted in the soil after soaking the roots of seedlings in an aqueous suspension of the drug containing a mixture in equal proportions of bacterial strains: B.licheniformis strain VKPM B-10562; B. subtilis strain VKPM B-10641; B. amyloliquefaciens VKPM B-10642 strain with a titer of each strain equal to 10 ⁵ CFU / ml, and fruiting plants of strawberries are sprayed with an aqueous suspension of the preparation containing a mixture in equal proportions of bacterial strains: B.licheniformis VKPM B-10562; B.subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642 with a titer of each strain equal to 10 ⁶ CFU / ml.

When stimulating the growth of seedlings of sea buckthorn, the soil between plants is sprayed with an aqueous suspension of the drug containing a mixture in equal proportions of bacterial strains: B.licheniformis VKPM B-10562; B.subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642 with a titer of each strain equal to 10 ⁶ CFU / ml, followed by soaking the soil to a depth of 10-15 cm with irrigation water.

When protecting plantings of raspberries or black currants from diseases, plantings are sprayed with an aqueous suspension of the drug containing a mixture in equal proportions of the bacterial strains B.licheniformis VKPM B-10561; B.licheniformis VKPM B-10562; B.subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642 with a titer of each strain equal to 10 ⁶ CFU / ml, with a flow rate of an aqueous suspension of 500 l per 1 ha.

When stimulating the growth of blackcurrant seedlings, the soil between plants is sprayed with an aqueous suspension of the preparation containing a mixture in equal proportions of bacterial strains: B.licheniformis VKPM B-10561, B.licheniformis VKPM B-10562; B.subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642 with a titer of each strain equal to 10 ⁶ CFU / ml, followed by soaking the soil between plants to a depth of 10-15 cm by irrigation with water.

The bacterial strains used in the claimed method belong to the applicant and are deposited in the All-Russian Collection of Industrial Microorganisms of FSUE GosNII Genetics:

- Bacillus subtilis, which provides restoration of the microbiocenosis of the soil and the gastrointestinal tract of animals, which has bactericidal, fungicidal, and virucidal activity and deposited in the All-Russian Collection of Industrial Microorganisms of the Federal State Unitary Enterprise GosNII Genetics under registration number VKPM B-10641 (certificate of deposit is attached);

- Bacillus amyloliquefaciens VKPM B-10642, which provides restoration of the microbiocenosis of the soil and the gastrointestinal tract of animals, has bactericidal and fungicidal activity and is deposited in the All-Russian Collection of Industrial Microorganisms Federal State Unitary Enterprise State Research Institute for Genetics under registration number VKPM B-10642 (reference);

- strains of Bacillus licheniformis, providing restoration of the microbiocenosis of the soil and the gastrointestinal tract of animals with bactericidal and fungicidal activity and deposited on March 18, 2010 at the All-Russian Collection of Industrial Microorganisms (VKPM) FSUE GosNIIGenetika respectively under No. VKPM: V-10561, B- 10562.

The following is a description of the proposed method.

A method of stimulating the growth and protection of berry crops from fungal diseases is as follows. The method includes treating the berry crops with a biological product in liquid form by soaking the roots of the seedlings before planting, or spraying them after planting, or spraying the plants during the growing season and fruiting, or spraying the soil around the plants with its subsequent soaking with water.

The following options are used as a biological product:

The drug number 1. A mixture in equal proportions of bacterial strains B. subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642 and B.licheniformis VKPM B-10562 with a titer of each strain of at least 10 ⁶ CFU / ml in the form of an aqueous suspension.

The drug number 2. A mixture in equal proportions of bacterial strains B. subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642, and B.licheniformis VKPM B-10562 with a titer of each strain of at least 10 ⁶ CFU / ml in the form of an aqueous suspension.

The drug number 3. A mixture in equal proportions of bacterial strains B. subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642, B. licheniformis VKPM B-10561 and B. licheniformis VKPM B-10562 with a titer of each strain of at least 10 ⁶ CFU / ml in the form of an aqueous suspension. When stimulating the growth and protecting strawberries from diseases, it is planted in the soil after soaking the roots of seedlings in an aqueous suspension of preparation No. 1 at the rate of 9-10 l of an aqueous suspension per 3000 roots of strawberries. The soaking time of one batch of strawberry roots is 2 hours.

To protect the fruiting plants of strawberries, for example, from gray rot, it is sprayed with an aqueous suspension of the preparation No. 2. The flow rate of the working fluid at the rate of 500 l / ha is 50 ml / m.

When stimulating the growth of seedlings of sea buckthorn, the soil between plants is sprayed with an aqueous suspension of the preparation No. 1 at the rate of 40 liters of an aqueous suspension of the preparation for 4000 roots, followed by soaking the soil to a depth of 10-15 cm with irrigation water.

When protecting plantings of raspberries or black currants from diseases, plantings are sprayed with an aqueous suspension of preparation No. 3 with a flow rate of an aqueous suspension of 500 l per 1 ha.

When stimulating the growth of blackcurrant seedlings, the soil between plants is sprayed with an aqueous suspension of the preparation No. 3 at the rate of 700 roots of seedlings per 10 l of the aqueous suspension of the drug, followed by soaking the soil between the plants to a depth of 10-15 cm by irrigation with water.

Below are the experimental data in examples 1-8, confirming the effectiveness of the use of the proposed method.

Example 1

The effectiveness of bacterial strains of the drug No. 1, used in the claimed method, was studied when growing strawberries of the garden variety Yuniya Smayds by the effect on the growth, development and phytosanitary condition of crop plantings. Dates of planting strawberries - from the 3rd decade of May to mid-June. The concentration of the applied strains in the experimental variants is 10 ⁵ CFU / ml. The number of processed plants is 3000 pieces per 1 variant (processing with one strain). The method of applying the strains is by soaking the root system of strawberry seedlings in a working fluid containing the strain at a concentration of 10 ⁵ CFU / ml. The flow rate of the working fluid for 1 option is 9 liters. Exposition - 2 hours.

We studied the effect of strains on the survival rate, growth, development of young plants and the defeat of their white spotting. Plants grown in the mother liquor of the Agricultural Gardens of Siberia were used to bookmark the experiment. In the dug seedlings, the root system was immersed in the solutions of the studied strains for 2 hours immediately before planting at a permanent place in the production quarter of the farm.

When taking into account at the end of the growing season, the degree of damage to plants by white spotting (pathogen Ramularia tulasnei Sacc, Hyphomycetales, Deuteromycota) when treated with B. amyloliquefaciens VKPM B-10642, B.licheniformis VKPM B-10562, B. subthenis VPKM B-10641 decreased 2.0-2.4 times.

On young leaves that grew after planting on the production quarter, the degree of damage was extremely low 0.1-1.9%, that is, there were single spots. The prevalence of symptoms was markedly reduced in variants using strains — in variants using B. subtilis strains VPKM B-10641 and B.licheniformis VKPM B-10562 — 7.2 and 9 times, respectively. According to this indicator, the biological treatment efficiency was, respectively, 86 and 89%.

Thus, the treatment with bacterial strains of B. amyloliquefaciens VKPM B-10642, B. licheniformis VKPM B-10562, B. subtilis VPKM B-10641 of drug No. 1 exerted an antidepressant effect and increased the resistance of strawberry plants to white spotting.

A significant effect of treatment with bacterial strains on plant biomass was shown. The total biomass of 1 plant significantly increased 1.7 times (table 1) in the variant with the use of B. amyloliquefaciens VKPM B-10642 strain (23.2 g) relative to the control (13.4 g). After removing old leaves from the plants that had formed even before the experimental treatment, the differences became even more pronounced. In the control, the biomass of one plant was 7.0 g; in the variant with strain B. amyloliquefaciens VKPM B-10642 - 12.5 g (an increase of 1.8 times); in the variant with B. subtilis strain VPKM B-10641 - 12.2 g (1.7 times); in the variant with B.licheniformis strain VKPM B-10562 - 11.7 g (1.7 times).

In variants with B. subtilis strains VPKM B-10641 and B.licheniformis VKPM B-10562, a significant (P <0.05) increase in biomass of the plant root system (rhizomes and roots) was also found to be 1.4-1.5 times.

The length of the aerial part significantly increased in the variant with the B. amyloliquefaciens VKPM B-10642 strain (1.4 times - by 7.0 cm) and with the B.licheniformis strain VKPM B-10562 (1.2 times - 3.1 cm).

The length of the root system significantly increased in the variants with the B. amyloliquefaciens VKPM B-10642 strain (by 14%) and in the variant with the B. subtilis strain VPM B-10641 (21%).

table 2 The effect of bacterial strains of drug No. 1 on the biomass and length of strawberry plants in a production experiment (SCA "Gardens of Siberia", September 14, 2010) Biomass, g Length cm Option common no old leaves root system aerial parts the roots Control (no processing) 13,4 7.0 3.2 19.1 15.1 B. amyloliquefaciens VKPM B-10642 23.2 * 12.5 * 4.2 26.1 * 17.2 * In subtilis VPKM B-10641 18.6 12.2 * 4.9 * 22.8 18.2 * B.licheniformis VKPM B-10562 19.0 11.7 * 4,5 * 23.2 * 16,4 The drug No. 1 based on a mixture of strains 20.3 12.1 * 4,5 * 24.0 * 17.3 * NDS ₀₅ 6.5 3,7 1,1 3.9 2.0

Thus, the data obtained show the presence of a stimulating effect on all 3 tested strains of drug No. 1 on various parameters of the growth and development of strawberry plants, as well as on white spotting.

Example 2

The positive effect of B. amyloliquefaciens VKPM B-10642 and B. subtilis VPKM B-10641 strains of preparation No. 1 was established when planting on rooting of lignified buckthorn cuttings. The planting dates of sea buckthorn cuttings in the experiment are 2 decades of May. The concentration of the applied strains in the experimental variants is 10 ⁵ CFU / ml. The number of processed plants - 4000 pieces per 1 option. The method of applying bioagents is spraying the surface of the soil with a working fluid containing bioagent, followed by soaking the soil to a depth of 10-15 cm by watering. The flow rate of the working fluid for 1 option is 40 liters.

A test of the action of bacterial strains on the rooted buckthorn cuttings was carried out on plants of the variety Abundant.

No harmful background of the development of diseases or pests during the growing season was revealed on the buckthorn cuttings.

It was revealed that the length of the annual growth of the aerial part (along the length of the main shoot) in the control was 28.4 cm (Table 3; Fig. 1). Under the influence of treatment with B. amyloliquefaciens VKPM B-10642 strain, a statistically significant (P <0.05) increase in growth by 3.8 cm (20%) occurred, under the influence of B. subtilis VPKM B-10641 strain by 4.3 cm (by 22%).

The length of the root system in the control was 26.2 cm. When the B. amyloliquefaciens VKPM B-10642 strain was treated, the root system was significantly extended by 6.9 cm (26%), when the B. subtilis VPKM B-10641 strain was treated, it was 8, 9 cm (34%).

Table 3 The effect of treatment with bacterial strains of drug No. 1 on the growth and development parameters of lignified sea-buckthorn cuttings (cultivar Obilnaya, nursery of the Siberian Agricultural Gardens of Siberia, September 25) Option The length of the annual growth, cm The length of the root system, cm The average biomass of 1 plant, g % to control Control (no processing) 28,4 26.2 12,2 - B. amyloliquefaciens VKPM B-10642 34.2 * 33.1 * 16.3 * 33.6 B.subtilis VPKM B-10641 34.7 * 35.1 * 16.3 * 33,2 B.licheniformis VKPM B-10562 28.0 30,2 12.6 33.3 The drug No. 1 based on a mixture of strains 32.3 * 32.8 * 15.1 33.3 NDS ₀₅ 5,0 4.4 4.1

The biomass of one plant in the control was 12.2 g. In the variants treated with B. amyloliquefaciens VKPM B-10642 and B. subtilis VPKM B-10641 strains, the biomass of 1 plant reached 16.3 g (an increase of 33-34%).

Thus, strains of B. amyloliquefaciens VKPM B-10642 and B. subtilis VPKM B-10641 of preparation No. 1 had a pronounced stimulating effect on the rooting of lignified shanks of sea buckthorn.

Example 3

Model experiment on fruiting strawberries on an area of 20 m ² on the effect on the gray rot of fruits. The option for each strain of drug No. 2 includes 20 fruiting plants of wild strawberries located in 2 adjacent rows on an area of 1 m ² , as well as control without treatment. Bioagents are applied by spraying at the beginning of fruit ripening on the 3rd decade of June (3-5 days before the 1st harvest). The concentration of the applied strains of the preparation No. 2 in the experimental variants is 10 ⁶ CFU / ml. The flow rate of the working fluid at the rate of 500 l / ha is 50 ml / m ² . Individual plants are evaluated in a repetition of 20 copies in each variant.

In a model experiment to test the effect of bacterial strains of the preparation No. 2 on the defeat of strawberry fruits with gray rot (pathogen Botrytis cinerea Pers., Hyphomycetales, Deuteromycota), the plants were processed on June 26 in the loading phase - the beginning of fruit ripening. The experimental plants of the Junia Smydes cultivar (20 plants in each variant) were sprayed once, the preparation was applied to the entire aboveground part and to the soil surface in rows. The first ripe fruits formed on July 2-3. The lesions were recorded in 2 terms, before the mass gathering of berries - July 10 and July 15. Estimated in each period of 250-300 fruits in each version.

In the 1st observation period (July 10), under the influence of the B. subtilis strain VPKM B-10641, the damage to the berries by gray rot significantly (P <0.05) decreased 1.7 times (BE = 41%), under the influence of strain B. licheniformis VKPM B-10562 - 2.5 times (BE = 61%). In the 2nd observation period (July 15), the effect of the strains manifested itself even more clearly. All 3 tested strains significantly reduced the damage by gray rot from 2.2 to 3 times, with BE = 54-61%.

Thus, all 3 tested strains of preparation No. 2 showed approximately the same effectiveness against gray rot of strawberry fruits: B. amyloliquefaciens VKPM strain V-10642 had a pronounced effect on the increase in the aerial part and the increase in the biomass of strawberries and sea buckthorn, on the increase in the roots of sea buckthorn, and this strain reduced the gray rot damage of strawberries; B. subtilis strain VPKM B-10641 increased the biomass and length of the roots of wild strawberries and sea buckthorn, increased the length of the annual growth of the above-ground system in sea buckthorn, reduced the lesion spottedness of leaves and the strawberry gray rot; B.licheniformis strain VKPM B-10562 caused an increase in biomass of the strawberry root system, effectively influenced against fungal spotting of the aboveground strawberry system, as well as against gray rot of strawberry berries.

Example 4

In order to protect berry crops during the growing season from fungal diseases, the raspberries of the Zorenka Altai variety were twice treated with an aqueous suspension of the preparation No. 3 (B.licheniformis VKPM B-10561; B.licheniformis VKPM B-10562; B. subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642) against purple spotting. Plants treated with water were used as a control.

The results of the influence of the drug No. 3 on the development of purple spotting in the field experiment are presented in table 4.

Under the influence of biological products, the prevalence and development of the disease decreased by 1.5-1.7 and 1.6-1.8 times compared with the control. A deep defeat of raspberry shoots this year was not noted. The development of the disease in the control did not exceed the economic threshold of harmfulness (EPV) (EPV - 25%). Yield increase 0.1 t / ha.

Thus, tests have shown that B. licheniformis strains - VKPM B-10561 and VKPM B-10562 and B. subtilis strains VKPM B-10641, B. amyloliquefaciens VKPM B-10642 of drug No. 3 actively inhibit the development and prevalence of purple spotting and can to be agents of biological control of the causative agent of purple raspberry spotting.

Table 4 The influence of strains of B. subtilis, B. licheniformis and Bacillus amyloliquefaciens of drug No. 3 on the defeat of raspberries with purple spotting Option Prevalence,% Development,% Productivity, t / ha The control 75.0 18.7 1.4 Strain B.licheniformis-VKPM B-10562 42.5 10.6 1,5 Strain B.licheniformis-VKPM B-10561 45.0 11.3 1,5 Strain B.subtilis VKPM B-10641 42.5 11.9 1,5 Strain B. amyloliquefaciens VKPM B-10642 47.5 11.9 1,5 The drug No. 3 based on a mixture of strains 44,4 11,4 1,5 Topaz 0.1% 40 11.3 1,5 NDS ₀₅ 3.0

Example 5

Raspberry treatment is directed against the underlying culture disease, purple spotting, when the first symptoms of the disease appear. A single treatment - when the first symptoms of the disease appear. The concentration of the applied strains of the preparation No. 3 in the experimental variants is 10 ⁶ CFU / ml. The method of applying bioagents is ground mechanized spraying (MT3-80 + OVG-2200). The flow rate of the working fluid at the rate of 500 liters per 1 ha - 125 liters per option.

In a production experiment to test the effect of bacterial strains on damage to raspberries by fungal diseases, the treatments were carried out on July 15, 2010. The preparation was applied to plants with a tractor sprayer OVG-2200.

At the time of treatment, the plants observed single symptoms of Septoria (pathogen Septoria rubi (West.) Sacc, Spaeropsidales, Deuteromycota) on the leaves. By the term of the 1st registration, carried out on July 28, the degree of defeat of Septoria in the control reached 10%, the prevalence of the disease - 15% (Table 5). It has been proven that the prevalence of the disease in the variant with the B. amyloliquefaciens VKPM B-10642 strain is 1.6 times higher, with the B. licheniformis VKPM B-10562 strain 1.5 times.

Table 5 The effect of bacterial strains of the drug No. 3 on the defeat of raspberry leaves with septoria (%, SCA "Gardens of Siberia", July 28) Options The prevalence of leaves,% The degree of damage,% Control (no processing) 15.0 10.0 B. amyloliquefaciens VKPM B-10642 9.3 * 8.8 B.subtilis VPKM B-10641 11.0 12.0 B.licheniformis VKPM B-10562 10.0 * 8.0 The drug No. 3 based on a mixture of strains 10.1 * 9.0 NDS ₀₅ 4.6 F _f <F ₀₅

Later, during August, the development of the disease in all cases practically did not occur due to dry, relatively cool weather. Against this background, with the 2nd accounting (final) - on August 21, the trends of damage reduction were less pronounced and were not statistically confirmed (table 6). In general, defeat of septoria, including in the control variant, was weak and did not have a harmful effect.

Table 6 The effect of bacterial strains and drug No. 2 on the defeat of raspberry leaves with septoria (%, SCA “Gardens of Siberia”, accounting on August 21) Options The prevalence of leaves,% The degree of damage,% Control (no processing) 17.0 11.0 B. amyloliquefaciens VKPM B-10642 11.6 6.8 B.subtilis VPKM B-10641 12,2 6.2 B.licheniformis VKPM B-10562 13.0 11.0 The drug No. 2 based on a mixture of strains 12.3 8.0 NDS ₀₅ F _f <F ₀₄ F _f <F ₀₅

The prevalence of purple spotting (pathogen Didymella applanata (Nessl) Sacc., Dothideales, Ascomycota) in the experiment was slightly higher than Septoria. The first signs of the disease were detected during the laying of the experiment on July 15. The growth of the defeat in the control began from the end of the 3rd decade of July, in the experimental variants - in August. As a result, when accounting for the control on August 21, the prevalence of the disease was 44.0%, development - 12.5% (table 7). A significant (P <0.05) decrease in the prevalence of purple spotting was revealed in the variants with the B. subtilis strain VPKM B-10641 (1.6 times, BE = 36.4%) and with the B.licheniformis strain VKPM B-10562 (in 2.0 times, BE = 50.0%). A significant decrease in the lesion by 1.8 times was confirmed in the variant with B.licheniformis strain VKPM B-10562 also in terms of the development of the disease.

As a result of a series of experiments (field, model, production), a general picture of the effects of the use of bacterial strains in different cultures was revealed.

Table 7 The effect of bacterial strains and drug No. 2 on the defeat of raspberry stalks with purple spotting (%, SCA “Gardens of Siberia”, accounting on August 21) Options The prevalence of the disease,% BE,% The development of the disease,% The control 44.0 12.5 B. amyloliquefaciens VKPM B-10642 36.0 18.2 10.0 B.subtilis VPKM B-10641 28.0 * 36,4 9.0 B.licheniformis VKPM B-10562 22.0 * 50,0 7.0 * Drug No. 2 (a mixture of strains) 28.7 34.9 8.7 NDS ₀₅ 15.7 - 4.7

Strains of B. amyloliquefaciens VKPM B-10642, B. subtilis VPKM B-10641, B.licheniformis VKPM B-10561, B.licheniformis VKPM B-10562 of drug No. 3 reduced raspberry damage by various spots caused by fungal pathogens, in particular purple spotting .

Example 6

In order to protect berry crops during the growing season from fungal diseases, we double-treated the Galinka blackcurrant with an aqueous suspension of B.licheniformis VKPM B-10561; B.licheniformis VKPM B-10562; B.subtilis VKPM B-10641; B. amyloliquefaciens VKPM B-10642 of drug No. 3 against septoria. Plants treated with water were used as a control.

Field trials of all the studied strains against the defeat of currant septoriasis showed that the development of the disease decreased by 2.5 times compared with the control - 15% on July 10th.

Counts during the growing season show that the development of the disease in variants with strains did not exceed 15% in the middle of the growing season and ranged from 18 to 20% at the end of the growing season, however, in the control, plant damage reached 27%. At the end of the third decade of August, the incidence of septoria with the use of biological products did not exceed 40%, and in the control reached 55%.

The biological efficacy of B. licheniformis strains - VKPM B-10561 and VKPM B-10562 on July 10 was 68% and 79%, respectively, under the influence of the strain Bacillus subtilis VKPM B-10641 about 85%, and Bacillus amyloliquefaciens VKPM B-10642 - 70% . By July 17, the biological effectiveness of Bacillus licheniformis VKPM B-10561, VKPM B-10562 was the same and amounted to 67%. The biological efficiency of B. subtilis VKPM B-10641 was 77%, and B. amyloliquefaciens VKPM B-10642 was 67 - 68%.

Example 7

The positive effect of B. amyloliquefaciens VKPM B-10642, B. licheniformis VKPM B-10562, B.subtilis VPKM B-10641 strains of preparation No. 1 was found to be positive when planting on the rooting of lignified blackcurrant cuttings. The planting dates of currant cuttings in the experiment are 2 decades of May. The concentration of the applied strains in the experimental variants is 10 ⁵ CFU / ml. The number of processed plants - 700 pieces per 1 option. The method of applying bioagents is spraying the surface of the soil with a working fluid containing a bioagent, followed by soaking the soil to a depth of 10-15 cm by watering. The flow rate of the working fluid for 1 option is 10 liters.

The test of the effect of bacterial strains of the preparation No. 3 on the rooting cuttings of black currant was carried out on plants of the cultivar Ksyusha.

During the growing season, the state of the plants was monitored, which did not reveal a harmful background of infectious diseases and pests. The final assessment of the state of plants was carried out at the end of the growing season on September 25. In this case, the evaluated plants were dug up, measured and weighed.

In the control, the length of the vegetative growth of the main shoot was 14.4 cm (table 8). Under the influence of treatments with B. amyloliquefaciens VKPM B-10642 and B. licheniformis VKPM B-10562 strains, no significant differences were found for this parameter. Under the influence of the B. subtilis strain VPKM B-10641, the increase significantly (P <0.05) increased by 4.5 cm (1.4 times).

Table 8 Influence of treatment with the bacterial strains of preparation No. 1 on the growth parameters and biomass of lignified blackcurrant cuttings (cultivar Ksyusha, nursery of the Agricultural Gardens of Siberia, September 25) Option The length of the annual growth, cm The length of the root system, cm Biomass 1 plants g % to control Control (no processing) 14,4 20.7 12.1 - B. amyloliquefaciens VKPM B-10642 14.5 23.8 * 13.7 11.9 B.subtilis VPKM B-10641 19.9 * 24.9 * 18.8 * 54.1 B.licheniformis VKPM B-10562 15.4 23.5 * 14.1 15,2 The drug No. 1 based on a mixture of strains 16.6 24.1 * 15,5 27.1 NDS ₀₅ 2.1 1.8 3.4

The length of the root system in seedlings in the control averaged 20.7 cm; under the influence of treatments with strains, the length of the roots significantly increased. In particular, under the influence of the strain B. amyloliquefaciens VKPM B-10642 - by 3.1 cm (15%), under the action of the strain B. subtilis VPKM B-10641 - by 4.2 cm (20%), under the action of the strain B.licheniformis VKPM B-10562 - 2.8 cm (14%). In the control variant, the average biomass of 1 plant was 12.1 g. In the experimental variants, the biomass increased under the influence of treatments.

However, the increase in biomass relative to control was reliably proved only under the action of the B. subtilis strain VPKM B-10641 by 6.7 g (54.1%).

Thus, the greatest effect on the effect of blackcurrant on plants during the rooting of lignified cuttings was achieved using B. subtilis strain VPKM B-10641 of drug No. 1.

Example 8

Blackcurrant treatment is directed against septoria and anthracnose. A single treatment - when the first symptoms of the disease appear. The concentration of the applied strains of the preparation No. 3 in the experimental variants is 10 ⁶ CFU / ml. The method of applying bioagents is ground mechanized spraying (MT3-80 + OVG-2200). The flow rate of the working fluid at the rate of 500 liters per 1 ha - 125 liters per option.

In a production experiment to test the effect of bacterial strains on the defeat of blackcurrant by fungal diseases, treatments were carried out on July 15, 2010. The preparation was applied to plants with a tractor sprayer OVG-2200.

At the time of treatment on currant plants, single spots of anthracnose damage (pathogen Gloeosporium ribis (Lib.) Mont, et Desm., Melanconiales, Deuteromycota) were observed by 3-5% of the total number of leaves. By the date of the first registration - July 28, the degree of damage in the control reached 14.5%, the prevalence of the disease - 17.6% (table 9). In terms of the prevalence of the disease, a tendency toward a decrease in this indicator by 1.4-1.5 times relative to the control was outlined for this period. According to the degree of anthracnose damage, the differences 2 weeks after spraying were significantly (P <0.05): the degree of leaf damage under the influence of the strain B. amyloliquefaciens VKPM B-10642 decreased 3.2 times, B. subtilis VPKM B-10641 - 2 , 3 times, B.licheniformis VKPM B-10562 - 2.2 times.

Until the 3rd decade of August there was a 2-fold increase in the prevalence of anthracnose in the control variant - to the level of 34.6%. The differences with the control in the end turned out to be significant (P <0.05) for all the strains used: under the influence of the strain B. amyloliquefaciens VKPM B-10642, the prevalence of anthracnose decreased 3.8 times, under the influence of the strain B. subtilis VPKM B-10641 - in 1.6 times, under the influence of the strain B.licheniformis VKPM B-10562 - 2.3 times.

Table 9 The effect of bacterial strains of drug No. 2 on the defeat of blackcurrant leaves with anthracnosis and septoria (SCA "Gardens of Siberia") Options Anthracnose,% Septoria,% leaf prevalence degree of damage BE,% leaf prevalence degree of damage BE,% July 28th August 21 July 28th August 21 August 21 August 21 The control 17.6 34.6 14.5 23.3 - 23.0 17.0 - B. amyloliquefaciens VKPM B-10642 11.9 9.2 * 4.6 * 6.0 * 74,2 15,2 6.6 * 61.2 B.subtilis VPKM B-10641 12.9 21.6 * 6.3 * 13.2 * 43.3 16,0 9.2 * 45.9 B.licheniformis VKPM B-10562 11.6 15.2 * 6.5 * 7.8 * 66.5 17.0 10.0 * 41.2 The drug No. 2 based on a mixture of strains 12.1 15.3 * 5.8 * 9.0 * 61.3 16.1 8.6 * 49.4 NDS ₀₅ options 9.3 4.8 - F _f <F ₀₅ 5,0 - NDS ₀₅ by timing 6.6 3.4 - - - -

Similarly, differences appeared with the control and in terms of the degree of disease damage. In the control, the degree of damage amounted to 23.3%. Under the influence of the strain B. amyloliquefaciens VKPM B-10642, this indicator significantly decreased 3.9 times (BE = 74%), under the influence of the strain B. subtilis VPKM B-10641 - 1.8 times (BE = 43%), under the influence of the strain B. licheniformis VKPM B-10562 - 3.0 times (BE = 67%).

The defeat of the leaves with white spotting (septoria, pathogen Septoria ribis Desm., Spaeropsidales, Deuteromycota) was found in early August. By August 21, the disease spread to all plants growing in the experimental plot, affecting 23.0% of the leaves. In variants with the use of bacterial strains, a tendency to a decrease in the prevalence of the disease manifested itself in 1.6 - 1.7 times, and in terms of the degree of damage, the effect was reliably proved in all 3 strains. Under the influence of treatment with the strain B. amyloliquefaciens VKPM B 10642, the degree of damage to septoria decreased 2.6 times (BE = 61%), B. subtilis VPKM B-10641 - 1.8 times (BE = 46%), B. licheniformis VKPM B-10562 - 1.7 times (BE = 41%). Thus, treatment of B. licheniformis strain VKPM B-10562 was most effective against septoria and, in general, leaf blots of black currant.

As a result of a series of experiments (field, model, production), a general picture of the effects of the use of bacterial strains of drug No. 3 on different cultures was revealed: B. amyloliquefaciens VKPM strain B-10642 had a pronounced effect on the growth of blackcurrant roots. In addition, this strain reduced the defeat of various cultures by spotting caused by fungal pathogens; B. subtilis strain VPKM B-10641 increased the biomass and the length of the roots of black currant, increased the length of the annual growth of the aerial system in black currants, and reduced the incidence of leaf spots on all cultures; B. licheniformis strain VKPM B-10561 caused an increase in root length in blackcurrant cuttings, and effectively suppressed the development of blackcurrant fungal spots.

The positive effect of treatment with bacterial strains and drug No. 3 based on these strains on the growth parameters and biomass of berry crops is presented in table 10.

Table 10 The effect of treatment with bacterial strains and drug No. 3 based on these strains on the growth parameters and biomass of berry crops Option The length of the annual growth, cm The length of the root system, cm Biomass 1 plants g % to control Control (no processing) 15.1 22.0 12.0 - B. amyloliquefaciens VKPM B-10642 14.2 24.7 * 13.9 11.5 B.subtilis VPKM B-10641 16.8 * 24.9 * 18.4 * 15.3 B.licheniformis VKPM B-10562 15.0 24.8 * 16,0 13.3 B.licheniformis VKPM B-10561 16,0 24.6 * 16,2 13.5 The drug No. 3 based on a mixture of strains 15,5 24.7 16.1 13,4 NDS ₀₅ 14.3 20,2 12.0 -

Claims (5)

1. A method of stimulating the growth and protection of berry crops from diseases caused by fungal pathogens, including treating the plants with a biological product in liquid form, characterized in that the plants are treated by soaking the roots of the seedlings before planting, or spraying them after planting, or spraying the plants during the growing season and fruiting, or spraying the soil around plants with its subsequent soaking with water, and as a biological product use a mixture of bacterial strains B. subtilis VKPM B-10641, B. amyloliquefaciens VKPM B-10642, B.licheniformis VKPM B-1056 1 and B.licheniformis VKPM B-10562 or a mixture of bacterial strains B.subtilis VKPM B-10641, B. amyloliquefaciens VKPM B-10642 and B.licheniformis VKPM B-10562 with a titer of each strain of at least 10 ⁵ CFU / ml as an aqueous suspensions. 2. The method according to claim 1, characterized in that when stimulating the growth and protecting strawberries from diseases caused by fungal pathogens, it is planted in the soil after soaking the roots of seedlings in an aqueous suspension of the drug containing a mixture in equal proportions of bacterial strains: strain B. licheniformis VKPM B-10562, strain B. subtilis VKPM B-10641, strain B. amyloliquefaciens VKPM B-10642 with a titer of each strain equal to 10 ⁵ CFU / ml, and fruiting plants of strawberries are sprayed with an aqueous suspension of the preparation containing the mixture in equal proportions of bacterial strains : B.licheniformis VKPM B-10 562, B. subtilis VKPM B-10641, B. amyloliquefaciens VKPM B-10642 with a titer of each strain equal to 10 ⁶ CFU / ml. 3. The method according to claim 1, characterized in that when stimulating the growth of seedlings of sea buckthorn, the soil between the plants is sprayed with an aqueous suspension of a preparation containing a mixture in equal proportions of bacterial strains: B.licheniformis VKPM B-10562, B. subtilis VKPM B-10641, B .amyloliquefaciens VKPM B-10642 with a titer of each strain equal to 10 ⁶ CFU / ml, followed by soaking the soil to a depth of 10-15 cm with irrigation water. 4. The method according to claim 1, characterized in that when protecting the plantings of raspberry or blackcurrant from diseases caused by fungal pathogens, the plantings are sprayed with an aqueous suspension of the drug containing a mixture in equal proportions of bacterial strains: B.licheniformis VKPM B-10561, B. licheniformis VKPM B-10562, B. subtilis VKPM B-10641, B. amyloliquefaciens VKPM B-10642 with a titer of each strain of 10 ⁶ CFU / ml with an aqueous suspension of 500 l per 1 ha. 5. The method according to claim 1, characterized in that when stimulating the growth of blackcurrant seedlings, the soil between the plants is sprayed with an aqueous suspension of the preparation containing a mixture in equal proportions of bacterial strains: B.licheniformis VKPM B-10561, B.licheniformis VKPM B-10562, B.subtilis VKPM B-10641, B. amyloliquefaciens VKPM B-10642 with a titer of each strain of 10 ⁶ CFU / ml, followed by soaking the soil between plants to a depth of 10-15 cm with watering.