Bacterial strain Bacillus mojavensis PS17 for producing higher yield and protection of agricultural plants against phytopathogenic fungi

Abstract

The proposed solution refers to agricultural biotechnology and microbiology. It represents Bacillus mojavensis PS17 strain that was isolated from the seeds of the Sadokat variety of spring wheat and was deposited in the National Bioresource Center - Russian National Collection of Industrial Microorganisms (NBC VKPM), NRC “Kurchatov Institute” - GosNIIgenetika under registration number VKPM B-13415. The strain has a broad spectrum of activity against plant pathogenic fungi and improves the yield of agricultural crops. The strain is non-toxic to animals, exhibits growth-stimulating activity for plants and can be used to produce of biopreparations on the basis thereof for the protection of plants from diseases caused by fungal pathogens.

Claims

1. Bacterial strain Bacillus mojavensis PS17 which possesses fungicidal activity with respect to plant pathogenic fungi and increases yield of agricultural crops, permits to broaden the spectrum of means of biological protection of plants against diseases, and was deposited in the National Bioresource Center - Russian National Collection of Industrial Microorganisms (NBC VKPM), NRC “Kurchatov Institute” - GosNIIgenetika under registration number VKPM B-13415.

Description

EXEMPLARY EMBODIMENTS OF THE INVENTION

Example 1 Study of Antagonistic Activity of Bacillus Mojavensis PS17 Strain

[0021] Antagonistic activity of Bacillus mojavensis PS17 strain was studied with use of confrontational method. The block with mycelium of tested fungus was put in the centre of Petri dishes with medium King B, and, by injection, strain Bacillus mojavensis PS17 was planted at a distance of 2-3 cm; as negative control, strain Pseudomonas putida PCL1760 was used, which was also planted by injection, and which does not produce any antagonistic substance suppressing development of micromycetes (FIGS. 1-5). Petri dishes were placed for 48-72 hours into thermostat under temperature 25° C. so that micromycetes and bacteria can develop. Observations were held on Day 2 to 5 depending on growth rate of phytopathohen.

[0022] The method of determination of antagonistic activity is considered as qualitative, where presence or absence of antagonistic properties is determined by occurrence of zones of growth suppression of test cultures around colonies of tested microorganisms. This is connected to the fact that in these conditions of test setup, antagonism between microorganisms is realized through production of various antimicrobial metabolites by them. In their turn, the metabolites infuse in feed medium, therefore their accumulation in a specific point of feed medium and, accordingly, a size of zone where manifestations of antagonism are observed, depends of a volume of medium, as well as on quality and density of agar.

[0023] The results of determination of antagonistic activity of Bacillus mojavensis PS17 strain are summarized in FIGS. 1-5. There, the following are represented as variants: 1) - Bacillus mojavensis PS17 strain, 2) Pseudomonas putida PCL1760. As test culture of micromicetes, the following are used: FIG. 1 - Trichoderma asperellum RECB-74F, FIG. 2 - Fusarium equisety, FIG. 3- Penicillum sp., FIG. 4 - Fusarium sporotrichoides, FIG. 5- Fusarium oxysporum ZUM2407.

[0024] The results of determination of antagonistic activity demonstrated that all test cultures of micromycetes used in the study showed sensitivity to metabolites of Bacillus mojavensis PS 17 strain, which manifested as occurrence of zones of growth of test cultures. According to the information provided, Bacillus mojavensis PS17 strain is antagonist and possesses broad spectrum of activity.

Example 2. Laboratory Tests for Phytotoxicity and Growth-Promoting Activity of Bacillus mojavensis PS17 strain.

[0025] For testing of phytotoxicity and growth-promoting properties of Bacillus mojavensis PS17 strain, were used wheat grains of grade Simbircite. To do so, grains were soaked in cell suspension grown on rich LB medium, which consists of 10 g/L of bactotrypton, 5 g/L of yeast extract and 10 g/L of sodium chloride. The ready medium was sterilized for 40 minutes under 110° C. After soaking, seeds have been placed in a vessel on filter paper wetted with tap water. Seeds have been incubated for 7 days under temperature of 23° C. with photoperiod of 16 hours. The plants were collected and the length of the roots was measured. The results of experiments demonstrated that Bacillus mojavensis PS17 strain added lengths of wheat stems and roots (Table 1).

TABLE-US-00001 Effect of Bacillus mojavensis PS17 on biometrics of wheat crops of grade Simbircite Variant Experiment 1 Experiment 2 Wheat grass Control 142.9±2.9 141.6±3.6 Bacillus mojavensis PS17 146.5±14.9 151.6±6.3 Wheat roots Control 100.9±5.8 102.5±2.4 Bacillus mojavensis PS17 127.5±7.7 126.0±8.9

Example 3 Compatibility With Beneficial Microorganisms

[0026] Study of compatibility of Bacillus mojavensis PS17 strain with beneficial bacteria Pseudomonas fluorescens RECB-14B, Streptomyces resistomycificus RECB-31B, Pseudomonas fluorescens RECB-44B, Bacillus mojavensis RECB-50B, Trichoderma asperellum RECB-74F on rich and minimal media. As a result of confrontation tests, it was shown that from the specified list of beneficial microorganisms, the Bacillus mojavensis PS 17 strain suppresses the growth of Trichoderma asperellum RECB-74B, Streptomyces resistomycificus RECB-31B and Bacillus amyloliquifaciens RECB-95B strains. At the same time, the growth of Bacillus mojavensis PS17 strain was suppressed by Streptomyces resistomycificus RECB-31B and Bacillus amyloliquifaciens RECB-95B strains. Absence of suppression of growth of strains Pseudomonas fluorescens RECB-14B and Pseudomonas fluorescens RECB-44B by Bacillus mojavensis PS17 strain and, vice versa, absence of suppression of growth of Bacillus mojavensis PS17 by Pseudomonas fluorescens RECB-14B and RECB-44B strains indicate possibility to use this microorganism with other pseudomonas-based biologics.

Example 4. Evaluation of Efficiency of Treatment of Crops of Summer Wheat With Bacillus Mojavensis PS17 Strain In Field Conditions

[0027] The studies were conducted in experimental fields of the Kazan State Agrarian University. The subject of study was spring wheat grade Ecada 66. Efficiency of crop spraying during growing period was studied. As experimental variant, biopreparation on basis of Bacillus mojavensis PS17 was used with consumption rate of 1.0 L/ha. Production of the biopreparation was held on laboratory shaking machine Innova 40R (Eppendorf) under temperature of 37° C., incubation period 17 hours at rotation of 180 rpm. Medium to make preparations was liquid feed medium LB, Luria broth. Titer was at least 2.5*109 CFU/ml Variant threated with water was used as control. Standard was registered biological preparation Rhizoplane on basis of Pseudomonas fluorescens strain AP-33 with consumption rate of 1 L/ha. Agrotechnology of spring wheat growing was generally accepted for the zone of Predkamie in the Republic of Tatarstan (Russia). Consumption rate of tank mix was 200 L/ha. Treatment was conducted twice, during paniculation stage and blooming stage of wheat.

[0028] Use of different treatment options affected development of leaf mycotic diseases (Table 2) and prevalence of ears (Table 3) with diseases.

TABLE-US-00002 Development of leaf diseases and biological efficiency of their control with use of bioagents on summer wheat (in 14 days after treatment), %, 2018 Variant Development of disease, % Biological efficiency, % Septoria leaf blotch true mildew Septoria leaf blotch true mildew Control 13.0 2.5 Rhizoplane 15.1 1.0 0 60.0 Bacillus mojavensis PS17 10.0 0.5 23.1 80.0

[0029] In terms of control of leaf diseases, use of Bacillus mojavensis PS17 caused a more prominent effect on decreasing of development of Septoria leaf blotch and true mildew as compared to standard biofungicide Rhizoplane.

TABLE-US-00003 Prevalence of ear diseases and biological efficiency of their control with use of bioagents on summer wheat during dough stage, %, 2018 Variant Development of disease, % Biological efficiency, %8 dark mildew Septoria leaf blotch dark mildew Septoria leaf blotch Control 2.0 5.1 Rhizoplane 1.5 2.1 25.0 58.8 Bacillus mojavensis PS17 1.1 1.8 45.0 64.7

[0030] In terms of control of ear diseases, preparation on basis of Bacillus mojavensis PS17 surpassed significantly standard biofungicide Rhizoplane by efficiency of control of mycotic diseases.

[0031] Treat of crops with Bacillus mojavensis PS17 conclusively increased yield of spring wheat by 0.53 t/ha, which significantly exceeds the results obtained with use of standard biofungicide Rhizoplane (Table 4).

TABLE-US-00004 Yield of summer wheat of grade Ecada 66, t/ha, 2018 Variant Yield, t/ha Yield increment t/ha % Control 2.48 Rhizoplane 2.57 0.09 3.8 Bacillus mojavensis PS17 3.01 0.53 21.3 HCP.sub.05 0.08

[0032] Therefore, using double treatment during crop growing period of endophytic bacteria Bacillus mojavensis PS17 with consumption rate of 1 L/ha causes prominent effect on decrease of attack by main diseases on spring wheat crops and results in growth of yield.

Example 5. Evaluation of Efficiency of Pre-plant Treatment of Potato Tubers With Bacillus Mojavensis PS 17 Strain In Field Conditions

[0033] Subject of study was potato grade Veneta, reproduction of super-elite seeds. Options of tuber treatment before planting were studied. Experiment layout: 1. Control - without treatment. 2. Chemical preparation standard - 290 sc (imidacloprid + pencycuron) Prestige (0.7 L/t). 3. Biological preparation - Rhizoplane on basis of Pseudomonas fluorescens AP-33 (1 L/t). 4. Biopreparation on basis of endophytic bacterium Bacillus mojavensis PS17 (1.0 L/t). Number of replications in experiments - four times. Consumption rate of working liquid - 20 L/t. Tubers were treated immediately before planting.

[0034] The results of treatment for prevalence of sprouts with brown patch is represented in Table 6.

TABLE-US-00005 - Prevalence of potato sprouts with brown patch and biological efficiency of control with use of tuber treatment, %, 2018. Variant Disease count Biological efficiency, % P* R** P R Control 27.4 6.4 Prestige 5.1 0.6 81.4 90.6 Rhizoplane 12.1 2.4 55.8 62.5 Bacillus mojavensis PS17 5.5 0.7 79.9 89.1 Note: * P - prevalence of disease, %; ** R - development of disease, %.

[0035] In terms of efficiency of control of brown patch, preparation in basis of Bacillus mojavensis PS17 surpassed standard biofungicide Rhizoplane and underperformed insignificantly as compared to chemical preparation Prestige.

[0036] Maximum productivity (Table 7) was obtained when preparation on basis of Bacillus mojavensis PS17 was used. While as compared to chemical standard, no plausible difference in terms of yield was found in the variant, then, as compared to standard biofungicide Rhizoplane, total yield increment made 3.1 t/ha.

TABLE-US-00006 Yield of potato grade Veneta with use of tuber treatment, t/ha, 2018. Variant Yield, t/ha Addition to control t/ha % Control 15.5 Prestige 23.3 7.8 50.2 Rhizoplane 20.6 5.1 33.0 Bacillus mojavensis PS17 23.7 8.2 53.0 HCP.sub.05 0.08

[0037] Therefore, bacterial strain Bacillus mojavensis PS17 possesses fungicidal activity with respect to plant pathogenic fungi and increases yield of agricultural crops, which will permit to broaden the spectrum of means of biological protection of crops against diseases.

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