RU2025484C1 - Strain phizobium sp (ononis) for preparing fertilizer for restharrow - Google Patents

Abstract

FIELD: the invention relates to agricultural microbiology and biotechnology, preparation of agents for increasing the yield of legumes, more specifically rest harrow and is concerned with a new strain for preparing said agents. SUBSTANCE: the strain Rhizobium sp (ononis) is isolated from the nodules of restharrow plants. Said strain is deposited under No.5502 in the collection of the All-Russian Research Institute of Agricultural Machinery. In order to prepare a fertilizer, the strain is grown on a medium containing pea broth and sugar for 3 days, the resulting culture medium is mixed with peat based on the initial titer of bacteria of 0.15-0.8 billion/g peat in the peat and a moisture content of 45- 50% and kept at 10-15 C in darkness. EFFECT: increased yield of legumes, more specifically restharrow. 3 tbl

Description

 The invention relates to agricultural microbiology and biotechnology, in particular to microbiological means of increasing the yield of legumes.

 Analis arvensis field stalnik is a valuable medicinal bean crop rich in alkaloids, especially a lot of them in the roots of the plant. Tincture of the roots is used as a hemostatic agent for hemorrhoids, the stalnik is also included in the drug collection to reduce blood sugar in diabetes. The natural populations of the stalnik are insignificant, and the demand for raw materials is great, therefore, in recent years it has been intensively introduced into the culture, occupying more and more large areas in farms engaged in the cultivation of medicinal plants.

 The most important biological feature of the steal, like all legumes, is its ability to use atmospheric nitrogen in symbiosis with nodule bacteria, due to which it can satisfy a significant part of the need for this element due to biological nitrogen fixation. However, when the sown area under the stalnik is expanded, when it is first sown in a crop rotation, only a slight infection of its roots with a natural population of nodule bacteria occurs, and therefore the plants only partially realize their natural nitrogen-fixing potential. To obtain high yields in these conditions, it is necessary to use mineral nitrogen fertilizers, which negatively affects both the cost of production and the quality of medicinal raw materials and the environmental situation.

 At the same time, it is known that one of the reservoirs for increasing the productivity of legumes, including steel, can be the strengthening of the process of biological nitrogen fixation in them by treating seeds with breeding strains of nodule bacteria. However, to date, active and specific strains of nodule bacteria have not been proposed to enhance symbiotic nitrogen fixation in stalnik.

 Field stalnik in its systematic position belongs to the clover tribe, which also includes alfalfa. Therefore, we investigated the ability of strains of nodule bacteria of clover, strain 1326 (348a) and alfalfa, strain 1723 (425a) to form nodules on the roots of steel plants. It turned out that not one of the tested strains was virulent with respect to steel.

 The aim of the invention is to obtain a strain of Rhizobium sp (Ononis) active nitrogen-fixing steel microsymbionite to enhance the process of symbiotic nitrogen fixation and increase the productivity of this culture.

 As such a strain, the strain VNIISKhM 3502 nodule bacteria of the steel is proposed.

 Strain 3502 was isolated from nodules of plants of the stalnik of the local population, which grew on chernozem at the Ukrainian zonal plant of medicinal plants of the All-Union Institute of Medicinal Plants (Poltava region).

 The strain is identified by the identifier Bergi.

 Strain Rhizobium sp. (Ononis) 3502 is deposited and stored in the All-Union Collection of Nodule Bacteria of the All-Russian Research Institute of Agricultural Microbiology under the number 3502 (collection index in the World Catalog of Rhizobium Collections - SIAM).

Strain 3502 grows on nutrient media of the following composition:
1. Pea agar, g / l: peas 100.0; sucrose 20.0; arag agar 20.0, pH 6.8-7.0.

2. Mannitol-yeast agar, g / l: mannitol 10.0; K ₂ NRA ₄ 0.5; MgSO ₄ x 7 H ₂ O 0.2; NaCl 0.1; 0.4 yeast extract; agar-agar 15.0, pH 6.8-7.0.

 Morphological and cultural properties. Bacteria of strain 3502 are gram-negative, have the shape of small sticks with rounded ends, motile. The size of the cells of a five-day culture on mannitol-yeast agar is 2.4-3.6 x 0.7 - 0.8 μm. The culture is fast growing.

 The bar on mannitol-yeast agar is plentiful, whitish, slimy, flowing. Colonies appear on the 5th day., Of the same type, round, white, convex, mucous, 1-2 mm in diameter.

 The line on bean agar is plentiful, whitish, slimy. Colonies appear on the 5th day., Of the same type, white, round, convex, mucous, 1-2 mm in diameter.

 Physiological and biochemical properties.

 Symbionite. Macrosimbionite is a legume plant stalnik.

Attitude to:
a) oxygen - aerob; b) T maximum 36 ^° C; minimum 4 ^о С, optimal 26-28 ^о С; c) pH maximum 7.5, minimum 6.0, optimal 6.8-7.0. Carbon sources
ge Glucose A _R (-) Lactose _AK (-) Maltose _AK (-) Sucrose _AK (-) Arabinose _AK (-) Rhamnose _AK (-) Galactose _AK (-) Dulcitol _AK (-) sorbitol A _K (-) Mannitol A _R (-) Xylose - Cellulose - Starch -
Sources of nitrogen NaNO ₃ + (NH ₄ ) ₂ SO ₄ + MPA -
Nitrogen is fixed in symbiosis with the steel.

 Another characteristic physiological features.

 It does not dilute gelatin.

 Milk with litmus does not peponize, the color of litmus milk does not change, it causes the formation of a mucous zone. At 1.5% NaCl in the medium, bacterial growth is inhibited; at 2% NaCl in the medium it does not grow.

 The signs of the strain are stable. The strain is not pathogenic.

Strain 3502 is stored on pea agar with the above composition and passaged 1 time in 6 months when stored at 4 ° ^C.

Examples of carrying out the invention
The symbiotic properties of strain 3502 — virulence, nitrogen-fixing activity, and the effectiveness of symbiosis — were evaluated under microvegetation and vegetation experiments.

 Virulence was determined by the number and quality of nodules formed on the roots of the steamers when inoculated with nodule bacteria under microvegetation experience.

 Nitrogen-fixing activity was determined by the value of acetylene reductase activity on intact nodules.

 The effectiveness of symbiotic nitrogen fixation was determined by the total accumulation of nitrogen by plants on the vessel. This indicator consists of the yield of the green mass of steel plants and the content of nitrogen in them, which was determined using the Kieltex-auto system, Tekator (Sweden).

 PRI me R 1. Microvegetation experience.

In large tubes (200 x 20 mm) add 12 ml of Krasilnikov-Korenyako agar medium, g / l: K ₂ HPO ₄ 1,0; MgSO ₄ x 7 H ₂ O 1.0; Ca ₃ (PO ₄ ) ₂ 0.2; FeSO ₄ traces; a mixture of trace elements according to M.V. Fedorov 1 ml. The composition of the solution of trace elements, g / l: H ₃ BO ₃ 0,05; (NH ₄ ) ₂ MoO ₄ 0.05; KCl 0.005; NaBr 0.005; ZnSO ₄ x 7 H ₂ O 0.003; Al ₂ (SO ₄ ) ₃ x 7 H ₂ O 0.003; MnSO ₄ 0.002.

 Tubes with medium were sterilized in an autoclave.

 Steel seeds were scarified in sandpaper, then sterilized with concentrated sulfuric acid for 12 minutes, then rinsed abundantly with sterile water and laid out on moistened sterile paper filters in Petri dishes for germination. After 3 days, the seedlings under aseptic conditions were laid out 2 in test tubes with medium. The experiments were performed in sixfold repetition.

Nodule bacteria for plant inoculation were grown on jambs with bean agar of the specified composition for 3 days. at 28 ^about C and suspended in a solution of trace elements. On the next day after laying the seeds, 1 ml of inoculum containing 10 ⁷ cells was added to each tube. Plants were grown in a phytotron at 18-22 ^{° C} for 6 weeks. At the end of the growing season, the cotton-gauze plugs in the tubes were replaced with sealed rubber caps, through which 5 ml of acetylene was introduced into each tube. After 3 days, intravital acetylene reductase activity was determined on a Tsvet-100 gas chromatograph. The nitrogenase activity of nodules, which characterizes the nitrogen-fixing activity of the strain, is expressed in micromoles C ₂ H ₄ for 1 / day. on 2 plants. The results are presented in table. 1.

 The data table. 1 show that strain 3502 is virulent on steel; it forms nodules typical of this plant on its roots. The studied strains of nodule bacteria of alfalfa and clover are not virulent on this bean plant. Strain 3502 is an active nitrogen-fixing microsymbiont of steel, as indicated by high acetylene reductase activity.

 The materials cited indicate that stalnik plants are capable of entering into effective symbiosis only with specific strains of nodule bacteria; therefore, nonspecific strains were not used in further experiments.

 PRI me R 2. Vegetation experience in the sand.

The experiment was carried out on non-sterile river sand in six-kilogram vessels in four repetitions. Salts were added according to Pryanishnikov, g / kg of sand: KCl 0.15; MgSO ₄ x 7 H ₂ O 0.06; CaHPO ₄ 0.172; MnSO ₄ 0.003; boric acid 0.008; (NH ₄ ) ₂ MoO ₄ 0.001; NH ₄ NO ₃ 0.24 (0.2 of the total norm of nitrogen). The seed treatment before planting is the same as for the micro-vegetation experiment.

To inoculate the seed pure culture of bacteria grown on a shaker in the bean broth at ²⁸ ° C for 3 days. The grown suspension was applied to steel seeds laid out in holes made in the sand of each vessel. In each vessel, 20 ml of suspension was added with a titer of 5 x 10 ⁷ cells.

 The results are presented in table. 2.

 As can be seen from the table. 2, strain 3502 enters into effective symbiosis with steel, enhances the process of symbiotic nitrogen fixation, due to which the yield of green mass of plants, nitrogen content and the quality of plant materials increase significantly.

 PRI me R 3. Obtaining a drug based on strain 3502.

 Preparation of liquid seed culture. Liquid culture is grown on a rocking chair in rocking flasks for 3 days. on the medium of the following composition, wt.%: pea broth 10.0; food sugar 0.5. The pH after sterilization is 6.4-6.8. The medium is sterilized at 1 atm for 30 minutes. The bacteria titer is 4-5 billion cells in 1 ml.

 To obtain a liquid culture, the strain is grown on beveled agar for 3 days. The grown mass of cells is washed off with sterile water and used as an inoculum. After microbiological control, culture fluid from flasks is used for mixing with peat.

Peat preparation. Ground peat, neutralized with chalk to a pH of 6.8-7.0, with a moisture content of 30-40% in plastic bags of 200-400 g, is sterilized by gamma radiation at a dose of 2.5 Mrad. Sterile peat in bags is inoculated with an injection of culture fluid based on the initial bacterial titer in peat of 0.15-0.8 billion / g of peat and humidity of 45-60%. Then the contents in the packets are mixed. Rizotorfina stored at 10-15 ^{° C} in a dark place away from toxic chemicals.

 Characteristics of the finished product.

 Rizotorfin for steel on the proposed strain is in appearance a moistened loose mass of dark color, odorless, insoluble in water. Rizotorfin contains 3-4 billion bacteria in 1 g of peat. The shelf life of the drug is 6 months from the date of manufacture. The consumption of the drug is 200 g per hectare portion of seeds.

 PRI me R 4. The use of risotorfin for the treatment of steel seeds.

 The effectiveness of the symbiotic nitrogen fixation of strain 3502 was also determined in a vegetative experiment on the soil in terms of the yield of dry green mass and the nitrogen content in it.

 The experiments were laid on sod-podzolic soil in six-kilogram vessels in four repetitions. Mineral fertilizers were added according to Pryanishnikov analogously to example 2. Nitrogen was added in an amount of 0.2 from the norm. The steel seeds were sterilized in the same way as in Example 2, they were treated with rhizotorfin made on the basis of strain 3502. The preparation was applied at a dose of 200 g per hectare portion of seeds. Method of application: 200 g of rhizotorfin is diluted in 1 liter of tap water and, without allowing to settle, thoroughly mixed to evenly distribute the drug. Risotorfin-treated seeds are sown on moist soil the same day.

 10 seedlings were left in each vessel. The results of the experiments are presented in table. 3.

 The data table. 3 confirm that strain 3502 is a highly effective symbiotic nitrogen fixator. Improving the nitrogen nutrition of inoculated stalnik plants due to a more intensive supply of biological nitrogen has a positive effect on both the crop yield and its quality.

 Thus, the strain of Rhizobium sp. (Ononis) 3502 significantly increases the nitrogen-fixing ability of the steel, increases its yield and improves the quality of the crop by increasing the protein content in it. This indicates that strain 3502 is an active nitrogen-fixing microsymbiont of steel and can be used to increase yield.

Claims (1)

 The bacterial strain Rhizobium sp. (Ononis) VNIISCHM 3502 for fertilizer under the stalnik.

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