RU2732627C1 - Agent for increasing cold resistance and productivity of plants - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention relates to agricultural biotechnology. Strain of Bacillus cereus microorganism VKPM B-12401 can be used as an agent for increasing cold resistance and productivity of plants.

EFFECT: invention increases germinating capacity, germination power and cold resistance of agricultural plants.

1 cl, 2 tbl, 2 ex

Description

The invention relates to agricultural biotechnology, in particular to a strain of microorganisms for obtaining an agent used to increase the cold resistance and productivity of plants.

Agricultural crops are exposed to late spring frosts and frequent drops in temperature, as a result of which the productivity of plants decreases to 50% (Korovin A.I. General regularities of the effect of low soil temperatures and frosts at the beginning of the growing season on mineral nutrition and the effectiveness of fertilizers // Plant resistance to low positive temperatures and frosts and ways to increase it. M., 1969. S. 144-152). This is mainly due to the disturbance of physiological processes at the level of the cell and the plant as a whole (Zauralov O.A., Lukatkin A.S. Tissue and cellular aspects of cold resistance and cold damage of thermophilic plants // Success of modern biology. 1996. V. 116 . Issue 4. P. 418-431).

Various methods are used to increase the cold resistance of plants: optimization of mineral nutrition, hardening of plants and seeds, treatment of crops and seeds with substances that increase their cold resistance. It is known to soak seeds and treat crops with microelements (manganese, molybdenum) and growth regulators - aauxins, gibberellins, retardants (Deeva V.P. The role of physiologically active substances in the regulation of adaptive reactions of individual genotypes to unfavorable environmental factors // Regulators of plant growth and development. Kiev 1989, p. 214). The disadvantages are the limited scale of their production and high cost.

Known drug cytokinin type Kinetin, which increases the cold resistance of plants (Zauralov OA Determination of the effectiveness of growth regulators to increase the cold resistance of heat-loving plants // Agrochemistry. 1997. 2). The disadvantages are low solubility in water, high concentrations used in processing, high cost.

It was revealed that the substances of the general formula

it is proposed to use it as a means for regulating plant growth (USSR patent 555824, class A01N 5/00: A01N 9/20, 27.06.1977).

It is known to use an aqueous solution of dropp - N-phenyl-N '- (1,2,3-thiadiazolyl-5) -urea - to increase the yield of berry crops. According to this method, raspberry and grape plants are treated in the flowering phase with the drug dropp at a concentration of 0.001-0.025% until completely wetted (USSR inventor's certificate 1323073, class A01N 47/36, 15.07.1987).

A known method of preparing mother plants of fruit and berry crops for grafting using the defoliant dropp - N- (1,2,3-thiadiazolyl-5 -) - N-phenylurea - at a concentration of 0.005-0.01%. Thanks to the use of an aqueous solution of this preparation, the yield of rooting cuttings increased and their quality improved. This increased the yield of planting material per unit area of the nursery and cultivation facility (AS 1371674, class A01N 47/36, 03/04/1985).

Known means for increasing cold resistance of plants - thidiazuron | N-phenyl-N '- (1,2,3-thiadiazol-5-yl) urea] formula (patent 2195809).

Modern highly efficient crop production is interested in finding preparations of biological and, in particular, microbiological origin to intensify production without the use of plant protection chemicals and fertilizers in order to obtain environmentally friendly products and reduce the harmful impact on the environment.

The objective of the invention is the use of a microorganism strain isolated from permafrost in agriculture as a phytostimulator of plants to increase germination, germination energy, cold resistance and morphometric parameters, after pre-sowing seed treatment.

This problem is solved by the fact that the bacterial strain Bacillus cereus 9-08-CH9 isolated from samples of permafrost rocks of the halocene period is taken as a plant phytostimulator.

The Bacillus cereus strain 9-08-CH9 was identified and deposited in the All-Russian Collection of Industrial Microorganisms of the Federal State Unitary Enterprise GosNIIGenetics under No. B-12401 (a copy of the deposit certificate is attached). Strain Bacillus cereus 9-08-СН9 was isolated from permafrost (gray ferruginous sand below the peat horizon, sampling depth 2 m below the coastal vegetation cover) on the right bank of the Chara River, 9 km upstream of the river from the village of Novaya Chara (Chita Region. ), coordinates: N560 45, 688 ', E 1180 11, 440'.

The Bacillus cereus 9-08-CH9 strain is characterized by the following cultural-morphological and physiological-biochemical characteristics.

Cultural and morphological characteristics of the Bacillus cereus strain 9-08-CH9. Colonies on timing agar are matte, rough, small, with an uneven edge. Gram-positive rods have a central spore location.

Conditions and composition of media for growing Bacillus cereus strain 9-08-CH9. The cultivation of the specified strain is carried out in a thermostat by seeding bacterial cells by streaking into standard test tubes on a canted nutrient agar for the cultivation of microorganisms (GRM agar (Obolensk, TU 9398-020-78095326-2006)) or nutrient agar for the cultivation of a wide range of microorganisms (LLC " SPC "Biocompass-S", Uglich, TU 9385-001-64786015-2012)) under aerobic conditions, in a thermostat at t ° from +25 to + 36 ° C for 18-24 hours. All cultivation work is carried out while maintaining sterility.

Physiological and biochemical characteristics of the Bacillus cereus strain 9-08-CH9: catalase +, oxidase +, growth on YSA +, lecithinase-, gelatinase-, blood agar +, hemolysis +, MPB +, MPA +, anaerobic growth-, growth on citrate environment +. glucose K +, arabinose K +, xylose K +, starch-, casein +, reduction of nitrates +, hydrogen sulfide-, indole-.

Antibiotic sensitivity of Bacillus cereus strain 9-08-CH9 # B-12401. The claimed strain is sensitive to penicillin, erythromycin, nalidixic acid, lincomycin, streptomycin resistant.

The shelf life of the Bacillus cereus 9-08-СН9 # В-12401 strain seeded in test tubes on a nutrient medium in a refrigerator (2 ° С-5 ° С) is 2 months.

The bacterial strain Bacillus cereus 9-08-CH9 No. B-12401 is not zoopathogenic or phytopathogenic.

The bacterial strain Bacillus cereus 9-08-СН9 was tested for its ability to increase germination, germination energy, cold resistance and morphometric parameters of soybean, wheat, recultivating plants after pre-sowing seed treatment.

The achievement of the specified technical result of the invention was carried out as follows.

The cultivation of the bacterial strain Bacillus cereus 9-08-CH9 was carried out as described below. The bacterial strain was streaked in 5 test tubes on a beveled nutrient agar prepared by the standard method (GRM agar, Obolensk, TU 9398-020-78095326-2006) and cultured in a thermostat for 24 hours at t = 26 ° C. Then the microorganisms were washed out from each tube with 5 ml of distilled water. The concentration of microorganisms was determined by the culture method of serial dilution by the number of CFU on agar nutrient medium in Petri dishes (Gerhard, 1984). After determining the number of cells of bacteria Bacillus cereus 9-08-CH9 in the original stock suspension, the density of the cultures was brought to a working concentration of 1-3⋅10 ⁷ or 1-3⋅10 ⁹ CFU in 1 ml of sterile distilled water. For the preparation of working aqueous suspensions of the bacterial strain Bacillus cereus 9-08-CH9 from mother suspensions under production conditions, tap water is suitable.

Under laboratory conditions, plant seeds (n = 100) were placed in 50 ml of bacterial suspension for 2 hours. Sowings were carried out in sand of fraction 2, twice calcined at t = 250 ° C for an hour. In separate vegetation cuvettes with a volume of 3 liters, 25 seeds were sown and watered once with 50 ml of the bacterial suspension. The experiment was repeated 4 times. The seeds were germinated under laboratory conditions at a temperature of 22 ± 1.5 ° C. When determining cold resistance, plant seeds were germinated at a temperature of + 10 ± 1.5 ° C and + 5 ± 1.5 ° C for 10 days in 4 repeated experiments, 100 seeds each. On the 5th day, the germination energy was determined, on the 10th day - the laboratory seed germination. On the 20th day of the experiment, the morphophysiological parameters of the plants were measured.

Statistical processing of the obtained data was carried out using the SPSS ver. 11.5. for Windows ".

The measurement results are shown in Tables 1 and 2.

Example 1

The claimed strain increased the germination energy of soybeans by 8.9%, laboratory germination by 4.4%, led to an increase in the shoot length of seedlings by 22% and the mass of shoots by 6.9%. The level of cold resistance during germination of sprouts at a temperature of 10 ± 1.5 ° С increased by 4.8%. The number of soybean sprouts with signs of the disease and the number of weak sprouts decreased significantly by 45% and 58%, respectively, which indicates the activation of plant defense mechanisms.

Example 2

The claimed strain during pre-sowing treatment of Irgina wheat seeds germinated at t = 5 ± 1.5 ° C has a significant positive effect on germination, shoot length, coleoptile length, shoot weight, root length, number of roots and level of cold resistance of seedlings. The level of cold resistance at the specified germination temperature in repeated experiments when treating seeds with a bacterial strain varied from 104.5% to 121.5%, with 38-46% in control. Seed germination increases more than 4 times, the length of the shoot, shoot mass, root length, the level of cold resistance of seedlings increases 2.6 times, the length of the coleoptile, the number of roots 1.5 times.

The claimed invention allows the use of the Bacillus cereus strain 9-08-CH9. isolated from permafrost, as a phytostimulant for the development of biological products in order to increase the morphophysiological indicators of plants: plant growth and development, increase the energy of seed germination, their germination, stimulate the development of the root system, increase cold resistance, including for areas of risky agriculture.

The above research results confirm the achievement of the technical result and the compliance of the claimed strain with the criteria of novelty, inventive step, industrial applicability.

Claims (1)

Application of the microorganism strain Bacillus cereus 9-08-CH9, deposited in the All-Russian Collection of Industrial Microorganisms of the Federal State Unitary Enterprise GosNIIGenetics under registration number B-12401 as a means to increase cold resistance and productivity of plants.