RU2735429C1 - Bacterial fertilizer - Google Patents

Abstract

FIELD: agriculture; biotechnology.

SUBSTANCE: invention relates to agricultural microbiology and biotechnology, namely to new bacterial fertilizers having stimulating effect on growth of plants under unfavourable agroecological conditions. A bacterial fertilizer is proposed, containing bacterial cells and residues of nutrient medium with metabolites, and as bacteria it contains a strain of bacteria Pseudomonas oryzihabitans B3S, deposited in the collection of the Federal State Budgetary Scientific Institution the All-Russian Research and Development Centre of the Agricultural Microbiology under No. RCAM 04752 and a strain of bacteria Variovorax paradoxus AV-10, deposited in the collection of the Federal State Budgetary Scientific Institution the All-Russian Research and Development Centre of the Agricultural Microbiology under No. RCAM 04753. Ratio of bacterial cells of said strains from 2:1 to 1:2 with titre of 1.5–3 billion CFU/ml in amount of 0.5 to 2.0 % of volume of fertilizer, residues of nutrient medium with metabolites are the rest.

EFFECT: fertilizer provides for growth of plants and increased yield of agricultural crops under unfavourable ecological conditions.

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Description

The invention relates to agricultural microbiology and biotechnology, namely to new bacterial fertilizers that stimulate plant growth in unfavorable agro-ecological conditions.

Known use in agriculture of various, primarily mineral fertilizers, which are introduced into the soil in the form of solutions, powder or granules. (US 33244500, 1966, RU 2043320, 1992, RU 2076866, 1997; RU 2138164, 1999; http://agronomiy.ru/udobreniya.html). A common disadvantage of such fertilizers is a relatively short period of validity due to their destruction by soil water, the presence of environmental problems.

In the conditions of difficult agro-ecological conditions in Russia, it is important to increase the adaptive properties of agricultural crops. At the same time, an important factor in increasing the yield (productivity) of plants can be the accelerated energy of seed germination, an increase in their germination, the accelerated development of the root system, which ensures an improvement in their nutrition and, as a consequence, an increase in plant weight. To solve this problem, we are constantly searching for effective and environmentally friendly biologically active agents that stably affect the growth and development of plants. To intensify production without the use of chemicals, modern plant growing is interested in searching for drugs of biological and, in particular, microbiological origin to create drugs on their basis that increase the adaptive capacity of plants to stress factors.

It is known to use bacterial fertilizers based on various strains of microorganisms or their metabolites, such as (SU 1473345, 1989, RU 1806123, 1991, RU 2041867, 1992, etc.).

Moreover, in most cases, monostrains are used, which limits the range of application of such fertilizers.

One of the promising microorganisms for bacterial fertilizers are Pseudomonas strains. In particular, the known strain of microorganisms Pseudomonas species, intended for obtaining bacterial fertilizer (RU 2051586,1996) and the strain of Pseudomonas putida, deposited in the CMPM VNIIGENETIKA No. VKPMV-4308 (RU 2130264, 1999). The disadvantage of these strains is a relatively small effect in increasing the yield of both grain and vegetable, and fodder crops.

Known strain Pseudomonas brassicacearum 26W (RU 2453596, 2012), deposited VKPM under number B-10388. As a result of using this strain as a fertilizer, it is possible to increase the yield of a number of cereals, vegetables and forage crops by an average of 15-20%, in particular wheat, rye, millet, cucumbers, tomatoes, corn, amaranth and rapeseed. However, the use of this fertilizer in arid regions was not effective enough.

More promising is the use of a number of microorganisms forming an association as fertilizers. Thus, it is proposed (RU 2552064, 2015) to use a bacterial association, including strains of microorganisms Bacillus mycoides var. V.A. VNIISKhM No. D138 and Azotobacter vinelandii var. NP VNIISKhM No. D24 and composite composition of components potassium lignohumate, trace elements, succinic and oxalic acids).

However, the effectiveness of this association is not effective enough for use in unfavorable agro-ecological conditions, in particular, in the case of drought, the presence of heavy metals or oil hydrocarbons in the soil.

Some of these problems can be solved by using metabolites in the fertilizer.

Closest to the claimed composition is a fertilizer (RU 2157798, 2000) containing Bacillus mucilaginosus cells strain VKMB 1451D, a sorbent and the remains of a culture liquid with metabolites. The ingredients are contained in the fertilizer in the following ratio per 1 g of substance: Bacillus mucilaginosus cells strain VKMB 145ID 1-100 million, sorbent 0.2-0.4 g, the rest of the culture liquid with metabolites - the rest.

However, the use of this fertilizer in arid regions was not effective enough.

The technical problem solved by the authors was to obtain a bacterial fertilizer that provides a higher crop yield in unfavorable agroecological conditions.

The technical result is achieved by creating a bacterial preparation based on bacterial strains Pseudomonas oryzihabitans B3S and Variovorax paradoxus AV-10.

The bacterial strain Pseudomonas oryzihabitans B3S, deposited in the Collection of the FGBNU All-Russian Research Institute of Agricultural Microbiology on December 15, 2012 under No. RCAM 04752. The bacterial strain Variovorax paradoxus AV-10, deposited in the Collection of the FGBNU All-Russian Research Institute of Agricultural Microbiology on December 15, 2012 under No. RCAM on the deposit ...

The fertilizer contains bacterial cells in a ratio of 2: 1 to 1: 2 (optimally at a ratio of 1: 1) with a content of cells with a titer of 1.5-3 billion CFU / ml in an amount of 0.5 to 2.0% of the volume, the remains of the nutrient medium with metabolites - the rest.

The use of fertilizers with a different ratio of bacterial cells and a lower titer does not allow achieving the necessary effect on plant growth. Obtaining a drug with a higher titer is not economically feasible.

The drug is used as follows. Plant seeds were treated with a fertilizer suspension at the rate of 600 grams of the drug per 1 ton of seeds - 7 days before sowing.

The tests carried out have shown that the inventive strain provides higher efficiency in comparison with analogues in various agro-climatic conditions. The industrial applicability of the strain is illustrated by the following examples.

Example 1. Strains Pseudomonas oryzihabitans B3S (strain 1) and Variovorax paradoxus AV-10 (strain 2) were grown in a fermenter to a concentration of 10 ⁹ cells per 1 ml of solution. Then the resulting suspension was mixed in the ratio of 2: 1 (preparation 1), 1: 1 (preparation 2) 1: 2 (preparation 3) and bacterization of seeds was carried out at the rate of 1 ml of preparation per 1 kg of seeds. The test results are shown in examples 2-3.

Example 2. The results of testing the bacterial fertilizer according to example 1 in growing experiments. Plants were grown in vessels containing 5 kg of sod-podzolic soil: humus - 1.5-1.9%; total nitrogen - 0.16-0.22%; movable phosphorus - 50-68 mg P ₂ O _5/100 g; mobile potassium - 43-69 mg K ₂ O / 100 g; pH 5.9-6.2. Fertilizers were applied to the soil in an amount (mg / kg): NH ₄ NO ₃ - 200; KCl - 200; MgSO ₄ - 60; H ₃ VO ₃ - 3; MnSO ₄ - 3; ZnSO ₄ - 3; Na ₂ MoO ₄ - 1.5. Barley seeds were sterilized with a mixture of hydrogen peroxide and ethyl alcohol (1: 1) for 3 min, sown in the soil and simultaneously inoculated with aqueous suspensions of bacteria ( ¹⁰⁷ cells / ml) in an amount of 1 ml per seed. The suspensions were prepared using the biomass of bacteria grown on agar nutrient medium. Vegetation experiments were carried out in the summer in a greenhouse with natural light and temperature conditions. In the germination phase, 6 equally developed plants were left in each vessel. Soil moisture was maintained at the level of 60% (optimal soil moisture) and 30% (insufficient soil moisture - imitation of drought) of the full field moisture capacity by regular watering of vessels by weight. When determining the yield of plants, the replication in all experiments was 4-fold.

It was found that under conditions of optimal soil moisture, the strain significantly increased the aboveground mass of peas and the mass of potato tubers (Table 1). Barley inoculation was more effective compared to control and analog. Under conditions of insufficient soil moisture, the strain had a positive effect on the growth and yield of the tested plants.

The positive effect of inoculation, expressed as a percentage of control, was significantly more pronounced under conditions of insufficient soil moisture. This indicated the anti-stress effect of the studied strains, which can manifest itself under drought conditions. The complementarity of the beneficial properties of the studied strains will enhance the anti-stress effect and increase the stability of the positive effect of the strains on the growth of inoculated plants. The results obtained showed that the claimed composition helps to stimulate plant growth, especially in conditions of lack of moisture. The best results were obtained with drug 2.

Example 3. Field tests. The tests were carried out in the fields of MTS AGRO LLC, Novokhopersky District, Voronezh Region in 2015. Climatic zone - steppe with the use of spring wheat seeds, Trizo variety, 2nd reproduction. A variety of Lutescens. The variety used is early maturing, resistant to leaf rust, slightly affected by powdery mildew and helminthosporiosis; resistant to lodging, shedding and sprouting. Experimental conditions - soil: leached medium-thick medium loamy, medium-humus soil, humus according to Tyurin - 3.24%, nitrate nitrogen - 8.3 mg / kg, phosphorus - 64 mg / kg, potassium - 150 mg / kg, pH water 6 , 46. The predecessor is steam. Fertilizer background - 100 kg / ha ammonium nitrate. Presowing treatment - cultivation to a depth of 5-7 cm, the seeding rate of spring wheat is 5.0 million germinating grains per hectare, spring barley - 4 million.

We used preparation 2 with a ratio of strains Pseudomonas oryzihabitans B3S (STRAIN 1) and Variovorax paradoxus AV-10 1: 1, cell concentration 3.0 billion CFU / ml, the proportion of cells 0.7% of the volume, the content of nutrient medium residues and metabolites - 99, 3%.

The processing of spring wheat seeds was carried out in advance at the warehouse 5-7 days before sowing (April 28). Control lots of grain were treated with a mixture: Stinger Trio-0.5 l / t + Tiara-0.5 l / t + Polydon complex-0.1 l / t + Polydon bioprofi-1.0 l / t + Pamer 0.05 l / t with a working solution consumption of 10 l / t.

In the experimental variant, preparation 2 was added to the used working mixture in an amount of -1.0 l / t. We also carried out foliar feeding of the plants in the phase of the end of tillering and the beginning of stem emergence - June 18 at a dose of 1 l / ha (consumption of the working solution 300 l / ha).

The counts and observations were carried out according to the methods of the State variety testing of agricultural crops, 1983.

Crop accounting is continuous, produced by the Don harvester. The harvest is brought to 100% purity and 14% moisture. The statistical assessment of the reliability of the results obtained was carried out on the basis of analysis of variance at a 95% significance level.

Table 2. Yield and quality of spring wheat p. Trizo when using a microbiological preparation based on the strains of Pseudomonas oryzihabitans B3S and Variovorax paradoxus AV-10 (field B-017, 14 ha, without feeding with ammonium nitrate)

The results obtained showed the promise of the proposed fertilizer, especially in conditions of lack of moisture.

Claims (2)

1. Bacterial fertilizer containing bacterial cells and remnants of a nutrient medium with metabolites, characterized in that as bacteria it contains the bacterial strain Pseudomonas oryzihabitans B3S deposited in the collection of the All-Russian Research Institute of Agricultural Microbiology under No. RCAM 04752, and the bacterial strain Variovorax paradoxus AV-10 , deposited in the Collection of the All-Russian Research Institute of Agricultural Microbiology under No. RCAM 04753, with a cell ratio from 2: 1 to 1: 2 with a titer of 1.5-3 billion KOE / ml in an amount of 0.5 to 2.0% of the fertilizer volume, the remains of the nutrient medium with metabolites - the rest. 2. Bacterial fertilizer according to claim 1, characterized in that the ratio of bacteria cells in the fertilizer is 1: 1.