RU2561528C1 - Method of storing bacterial fertilisers for inoculation of pea seeds - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of storing bacterial fertilisers for inoculation of pea seeds comprises the use of organic substances with the inclusion of the micro-nutrient. The nodule bacteria together with roots and the soil are removed from the rhizosphere of the plants during the period of their mass development, mixed with zeolite-containing clay Irlit 7, previously saturated for 8-10 hours with dolomite meal at a rate of 5:2 and molasses at a rate of 2-3 kg per hectare, and the resulting mixture is stored in a dark room of no lower 8-10°C and in spring prior to sowing the pea seeds are treated with the prepared composition at a rate of 3-4 kg per hectare rate.

EFFECT: invention enables to simplify the method, to extend the shelf life, and to enhance the vitality of nodule bacteria.

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Description

The invention relates to agriculture, namely to the storage of nitrogen-fixing nodule bacteria for inoculation of pea seeds.

A known method of seed inoculation, in which the seeds before sowing are treated with bacterial fertilizers prepared on the basis of nodule bacteria that live on the root system of legumes. For the activation of nitrogen-fixing bacteria, microelements are added that are added to rhizotorfin during seed treatment (Recommendations on the cultivation of perennial herbs on seeds. - All-Russian Research Institute of Feed, M., 1998. P. 6).

However, the well-known drug risotorfin is not durable (shelf life is not more than 6 months), and some strains die long before sowing.

This reduces their effect in the formation of nodules on the roots. Used microadditives increase the cost of inoculation.

There is also known a method in which a uterine culture is grown on a specific medium, consisting of a decoction of peas, glucose and a number of trace elements that are added to peat in liquid form (Khotyanovich A.V. Methods for the cultivation of nitrogen-fixing bacteria, methods for producing and using preparations based on them. Methodical recommendations. - Leningrad. - 1991).

The disadvantage of this method is its low efficiency, since in the presence of a complex of microelements used (phosphorus, potassium, magnesium, calcium), the vital activity of bacteria decreases.

The closest technical solution is a method in which peat filled with a liquid solution of sodium selenate is used for storage (patent No. 2265000 published November 27, 2005, IPC C05F 11/08).

In the prototype method, the technical solution is complicated by the fact that for growing the uterine culture, a liquid nutrient medium is prepared, poured into flasks and sterilized, placed for storage in bottles of 5-10 liters filled with a nutrient medium including glucose, corn extract and other substances and after receiving a suspension of bacterial cells, sieved peat is added.

The technical result is a simplification of the method, lengthening the shelf life and increasing the viability of nodule bacteria.

The technical solution of the claimed object is achieved by the fact that nodule bacteria along with the roots and soil are extracted from the rhizosphere of plants during the period of their mass development. The bacteria are mixed with zeolite-containing clay Irlit 7, pre-saturated for 8-10 hours with dolomite flour in a ratio of 5: 2 and molasses at the rate of 2-3 kg per hectare, and the resulting mixture is stored in a dark room at least 8-10 ° C and in spring when sowing peas, seeds of the prepared composition are treated at the rate of 3-4 kg per hectare.

The method is as follows.

During the period of maximum development of nitrogen-fixing nodules (flowering phase), they dig up the roots of pea plants in the range of 0-20 cm of the upper soil layer (within 8-10 plants per hectare rate of future sowing) together with the soil. The crushed roots with the soil are mixed with a pre-saturated substrate consisting of zeolite-containing clay iritite 7, dolomite flour (Mq Co ₃ and Ca CO ₃ ) in a ratio of 5: 1, and molasses - sugar production waste at a rate of 3-4 kg per hectare.

Clay Irlit 7 has an acid reaction (pH 3.8) and contains (%): silicon - 52.6; aluminum - 28.1; iron (3 valent) - 2.18; calcium - 3.05; magnesium - 1.71; potassium - 2.09; sodium - 1.1; phosphorus - 0.5; other trace elements from 0.1 to 0.5 (sulfur, potassium, copper, cobalt, molybdenum, zinc, selenium and others).

The macro- and micronutrients contained in the clay Irlit 7 stimulate the absorption of magnesium by plants and are in forms accessible to plants. Dolomite flour is a waste of a lime plant, contains 18-20% of magnesium.

The absorption of magnesium by plants is significantly affected by the reaction of the soil solution, which at Irlit 7 is pH - 3.8. The aluminum silicates contained in it: aluminum and silicon, contribute to the transition of magnesium into an inaccessible state. The addition of dolomite flour and Irlit 7 in a ratio of 5: 2 reduces acidity, and the reaction of the medium becomes neutral due to the high calcium content in the waste of the lime plant. With this value of the substrate, the process of ammonium nitrification is accelerated, mobile forms of aluminum are brought into an inactive state. The conversion of the ammonium ion into a neutral form enhances the flow of magnesium into the plant.

The lack of magnesium inhibits, first of all, the synthesis of nitrogen-containing compounds, mainly chlorophyll.

Magnesium-containing substrate has a positive effect on the activation of vital activity of nodule bacteria, in particular Rhizobium.

Magnesium is an element that regulates the flow of nutrients into the plant. A sufficient amount of magnesium in plants in the initial period prevents the accumulation of heavy metals.

With magnesium deficiency, the root system, on which nodule bacteria develop, is primarily affected. With a lack of magnesium in the soil solution, root growth responds to this factor three days after sowing. Consequently, seeds treated with a substrate containing magnesium develop under favorable conditions with a sufficient amount of macro- and microelements. Irlit 7, having prolonging properties (slowly giving away), ensures the growth of plants with a sufficient amount of chemical elements in a mixture with stored nitrogen-fixing bacteria.

Zeolite-containing clays, including Irlit 7, have high sorption properties, high heat-accumulating effect and low water loss, which allows you to save microorganisms in favorable thermal and wet conditions.

Molasses, added to the substrate, is a waste of sugar production, contains 9% nitrogenous substances, 58-60% carbohydrates (mainly sugars), 7-10% ash, calcium salts (Ca ₂ O - 1.5). The reaction is pH 7-8.

Within 8-10 hours, Irlit 7, mixed with dolomite flour and molasses, is filled with nutrients, especially magnesium compounds. After such enrichment of the irlitic substrate, it is mixed with the crushed roots of the selected nitrogen-fixing nodules along with soil taken from the rhizosphere of pea plants.

The prepared substrate is stored in a dark room at least 8-10 ° C. Before sowing, pea seeds are mixed with the prepared substrate at the rate of 3-4 kg per hectare rate of peas (150-200 kg / ha). Such a dose is justified by the need of pea plants for macro- and microelements contained in the substrate.

Example 1. Zeolite-containing clay Irlit 7 in an amount of 100 kg, 20 kg of dolomite flour and 2 kg of molasses were mixed and left for 10 hours to saturate the substrate with chemicals. In the field, the best, well-developed plants (8 pieces) were selected, the roots were dug up together with nodules and soil and mixed with the prepared substrate in a dark room at a temperature of at least 8-10 ° C. In the spring, seeds of peas of the Tyumenets variety were processed in an amount of 200 kg per hectare with a substrate at the rate of 4 kg / ha.

Example 2. Prepared a substrate based on 1 hectare of sowing. The clay Irlit 7 was crushed in an amount of 100 kg. It was mixed with dolomite flour in an amount of 20 kg. Additionally introduced molasses at the rate of 3 kg. The thoroughly mixed mass was held for 10 hours. 10 well-developed pea plants were selected for crops. They dug them together with the root system, placed them on a tarpaulin together with the soil, crushed them, mixed them with the prepared substrate and left them until spring in a dark room at a temperature of 10-12 ° C. In the spring, pea seeds in an amount of 150 kg were mixed with a substrate at the rate of 3 kg per hectare.

Based on the results, it should be concluded that without additional costs for biofertilizers, you can get them not only in pure form, but also enriched with nutrients that stimulate the growth and development of peas.

Claims (1)

A method of storing bacterial fertilizers for inoculation of pea seeds, including the use of organic substances with the inclusion of a microelement, characterized in that the nodule bacteria along with the roots and soil are extracted from the rhizosphere of the plants during their mass development, mixed with zeolite-containing clay Irlit 7, previously saturated for 8-10 hours with dolomite flour in a ratio of 5: 2 and molasses at the rate of 2-3 kg per hectare, and the resulting mixture is stored in a dark room at least 8-10 ° C and in the spring before sowing peas batovat prepared composition at the rate of 3-4 kg per hectare.