RU2074604C1 - Potato field fertilizing method - Google Patents

Abstract

FIELD: agriculture, cultivation of row crops. SUBSTANCE: method involves presow applying of band of microbe preparation mixed with compost to zone of future plant row into preliminarily cut furrows; covering furrows with soil. Microbe preparation is mixed with compost directly in the process of application, with ratio of mixed substances, weight parts, of 1:8,000 - 15,000. Bacteria culture of Pseudomonas or Azotobacter or Seratia may be used as microbe preparation. EFFECT: increased yield, improved quality of potato by efficient usage of microbe preparation and compost and adequate potato rootage development conditions. 2 cl, 2 dwg

Description

 The invention relates to agriculture, in particular to methods of fertilizing the soil when growing row crops, for example potatoes.

 Known methods for fertilizing the soil when growing row crops with microbial preparations, by applying them to the surface of the seeds of the main or integumentary crop, to flowers, leaves of plants with or without adhesives.

 In this case, microbial preparations can be used both in pure form or in a mixture with organic and organic-mineral fertilizers.

 The disadvantage of these methods is the lack of cheap and non-toxic adhesives, the negative effect on the vital activity of microorganisms of solar radiation and seed treatment with fungicides.

 There is also known a method of fertilizing row crops, including making compost for autumn plowing, which is pre-mixed with a microbial preparation.

 The closest in technical essence is a method of fertilizing row crops, including dispersion in the field of pre-mixed with compost microbial mass.

 The disadvantages of the known methods is the increased consumption of fertilizer, the deterioration of its quality due to preliminary mixing of the microbial mass with compost, as well as the decrease in yield and product quality due to poor contact of the fertilizer with the root system of the plant.

 The aim of the invention is to increase the yield and quality of potatoes by ensuring the effective use of the microbial preparation and compost for fertilizing potato plants and improving the development conditions of the root system of potatoes.

 The essence of the invention is a method of fertilizing potatoes, including the introduction of a microbial preparation mixed with compost on the soil surface before sowing in the zone of the future row of plants with tape in preformed grooves with their subsequent incorporation, while mixing the microbial preparation with compost is carried out during their introduction into the row in the ratio : mass. parts: 1: 8,000 15,000.

 The proposed solution meets the eligibility criteria of the invention: novelty, inventive step, industrial applicability, because this set of essential features was not previously known, this technology is not obvious to specialists, and can be repeatedly reproduced and used in agriculture for fertilizing potatoes.

The method is as follows:
As a culture of microorganisms, a bacterial culture of Pseudomonas, Azotobacter, Seratia is used.

In the field on sod-podzolic sandy loam soil, the efficacy of nitrogen-fixing microorganisms obtained at the All-Russian Research Institute of Agricultural Microbiology was studied: Extrasol N 15, Co. containing a titer of bacteria of the genus Pseudomonas, 12, 15 • 10 ⁹ pcs / g and 22 • 10 ⁹ pcs / g .

Azotbacter N12 bacteria titer Azotobacter 3 • 10 ⁹ pcs / g.

Seration N 218-titer of bacteria Seratia 9,24 • 10 ⁹ pcs / g

 The indicated preparations were introduced together with peat compost (30 t / ha) locally into the growth zone of the roots of Anosta potatoes in doses of 952 g / ha, 1904 g / ha, and 4760 g / ha of 1 2 and 5 doses, respectively. (table 1).

Per potato tuber, from 63.4.10 ⁶ to 2.33 ^o 10 ⁹ microorganisms were introduced.

 The method is carried out by a device containing an energy tool installed on the frame 1 of the gun furrowers 2, containers 3 and 4 for compost and microbial preparation, respectively. Each container 3, 4 has a metering device 5, 6, interconnected by a chain drive for the simultaneous supply of compost and microbial preparation (fit 1).

 The capacity 4 for the microbial preparation has a sleeve 7, the outlet 8 of which is located above the ramp board 9, located at an angle to the capacity 3 for compost.

 Seeding furrows with fertilizer and planting potatoes can be carried out by any known planting unit, containing shortcuts installed in front of the planting device for filling furrows.

 When the device is moving, the furrowers 2 form a furrow in the zone of the future row of plants. Compost is fed from the tank 3 to the ramp board 9. From the tank 4 along the sleeve 7 to the ramp board 9 is fed a microbial preparation. A mixture of compost with a microbial preparation is introduced into the furrow with a continuous tape. During the movement of the planting unit, furrows are sealed with zagotachami and potato tubers are planted.

 The dose of compost is regulated by the metering device 5 and the speed of the energy tool.

 The dose of the microbial preparation is regulated by the dosing device 6 of the sector type based on the introduction of the drug from 500 to 5000 t / ha.

The introduction of microbial preparations had a positive effect on the field germination of potatoes. On average, according to the options for making microbial preparations, it was 88%, while in the control without microbial preparations it did not exceed 83%
The proposed method allows to increase the yield of potatoes by 18.36 kg / ha, while the highest yield of potatoes for most preparations (with the exception of drug No. 15) was obtained with a maximum microbial load (Table 1). Combined use of peat and dung compost 30 t / ha and preparations of extrasol KO or sera N 218 at a dose of 4760 g / ha increased the potato crop by 55 kg / ha or 43%. The increase in the yield of bacterial fertilizers against organic fertilizers reached 36 kg / ha or 25%
In FIG. 2 shows the comparative effectiveness of nitrogen and bacterial fertilizers, where crop increases are shown from: 1 azotobacter N 12, 2 - extrasol N 15, 3 extrasol KO, separation N 218.

 Comparison of crop increases from the use of bacterial fertilizers with crop increases from nitrogen shows that according to the effect on the crop, the application of 4760 g / ha of extrasol KO and separation of N 218 is equivalent to the use of 36 kg / ha of nitrogen fertilizers (Fig. 2).

 Extrasol N 15 and azotobacter N 12 were characterized by lower nitrogen-fixing activity. Data on the content of mineral nitrogen in the soil of potato rhizosphere testify to an improvement in the nitrogen nutrition of potato plants using microbial preparations. When using the drug extrasol KO, the nitrogen content in the soil during the potato budding phase was 5.0 mg / kg, during flowering 14.4 mg / kg, while in the control, without the drug, 2.9 and 6.2 mg / kg

 Under the influence of bacterial fertilizers, the removal of nitrogen by the potato crop increased by 4.2 10.6 kg / ha.

 When using microbial preparations, similarly to nitrogen fertilizer, there is a tendency to a decrease in the dry matter, starch and an increase in the content of nitrate nitrogen in potato tubers (Table 2).

 In the 1992 experiment, inoculation of potato seeds with extrasolum KO without the introduction of organic fertilizers did not lead to an increase in yield. At the same time, against the background of peat-and-dung compost, the yield increase from the microbial preparation amounted to 17 kg / ha.

 Thus, the above studies indicate the effectiveness of the proposed method for growing potatoes. The combined application of bacterial and organic fertilizers led to an increase in the productivity of potato crops by 34 43%

Claims (2)

 1. A method of fertilizing potatoes, including applying to the soil surface a microbial preparation mixed with compost, characterized in that the fertilizing is carried out before sowing in the zone of the future row of plants with tape into preformed grooves with their subsequent incorporation, while mixing the microbial preparation with compost is carried out in the process of making them in a row in a mass ratio of 1: 8 15.  2. The method according to p. 1, characterized in that as a microbial preparation using a culture of bacteria Pseudomonas, or Azotobacter, or Seratia.

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