RU2572342C1 - Method of growing sugar beet - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention is a method of growing sugar beet roots on low-humus sod-podzolic soils of the Chuvash Republic, and comprises minimum tillage based on different-depth disking and shallow ploughing of preceding crop to a depth of 6-10 cm with BDM-6 and PLL-10-25; pre-sowing cultivation by 8-10 cm with a cultivator KBM-10,8; sowing with combined seeding unit Amazone; pre-sowing treatment of sugar beet seeds with water solutions of Baikal EM 1 at a concentration of 0.005%, Zircon at a concentration of 0.00048%, and Epin at a concentration of 0.0005% and spraying with working solutions of regulators of plant growth and development at the rate of 300 l/ha in the stage of 4-5 pairs of true leaves, and in closing of the leaves of sugar beet plants in rows; hoeing between the rows twice and treatment with herbicides "Betanal Trio" (1.2 l/ha) + "Caribou" (30 g/ha), "Betaren" Express AM or "Panthera" at a dose of 1.0 l/ha and "Lorneta" 0.3 l/ha; fractional application of mineral fertilisers in doses of N₆₀P₆₀K₆₀ and N₆₀P₃₀K₃₀ at sowing and before the first inter-row cultivation, respectively.

EFFECT: invention enables to improve germinating energy, germinating capacity, to accelerate the growth processes, the rate of the phenophases, and to obtain stable high yield of sugar beet roots on low-humus sod-podzolic soils, while maintaining 17-18 percent content of sucrose in them.

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Description

The invention relates to agriculture, in particular to a method for cultivating sugar beets on sod-podzolic soils in the weather and climatic conditions of the Chuvash Republic, and is intended to increase the gross harvest of root crops while maintaining the percentage of sucrose in them.

A known method of cultivating sugar beets, based on pre-sowing tillage, row sowing and tillage before beet sprouts. In this case, sowing is carried out according to a four-row scheme with a combined row spacing of 20 × 40 × 20 cm and a tramline [1]. A distinctive feature of the proposed method is the scheme of sowing sugar beets and the absence in the cultivation technology of the use of growth regulators.

Also known is a method of presowing treatment of seeds and plants of sugar beet during the growing season with an aqueous solution of glycine with a drug concentration of 45-55 mg / l. At the same time, the consumption of glycine solution for spraying is 300-350 l per 1 hectare of sugar beet crops. When using the proposed method, the activation of the natural protective mechanisms of sugar beet root crops is achieved, the synthesis of plastic substances is enhanced, due to which the timing of the onset of technical ripeness is accelerated, the root crop productivity is increased, but sugar beet sugar is reduced [2].

There is a method of stimulating the growth and development of sugar beet root crops, including presowing seed soaking and double spraying of vegetative plants with an aqueous solution of succinic acid at a concentration of 400 mg / l. Succinic acid stimulates an increase in sugar beet productivity and its resistance to leaf apparatus diseases [3]. The disadvantage of the proposed method is that this drug does not provide the necessary resistance of sugar beet root crops to diseases, as well as maintaining the sugar content characteristic of the variety in them.

The scientific literature describes a method of stimulating the growth and development of sugar beet root crops, which involves pre-sowing seed soaking and double spraying of sugar beet crops with an aqueous solution of a protein stimulant - a product of hydrolysis of collagen-containing raw materials, including 8 amino acids and low molecular weight peptides - Belkosin M in a concentration of 125-175 mg [four]. The disadvantage of this method is that this drug does not provide the necessary resistance to diseases during the growing season and storage, as well as increase productivity and sugar content. In addition, due to its chemical composition, Belkozin M, when dissolved in water, is unstable and forms a gel-like precipitate in water over a short period of time (up to several hours), which requires short processing times, and if they are disturbed, it significantly reduces the effect of the stimulant .

A method for regulating the growth of sugar beets has been patented, which involves treating sugar beet crops by spraying with solutions of 3 - [(4-methyl-phenyl) carboxamido] -1,4,6-trimethyl-5-R-pyrazolo- [4,5-b] pyridines in the phase of 6-8 leaves and when closed in rows [5]. The disadvantages of this method are the length of the process of obtaining organic compounds and compliance with special safety measures when spraying crops of sugar beets.

A known method of cultivating sugar beets, including presowing treatment of seeds with 20-50% extract from germinating seeds of winter wheat for 24-36 hours at a temperature of 18-20 ° C. To soak 1 kg of sugar beet seeds, 12-30 kg of wheat seeds are germinated. The extract is stored in a dark place in a glass container for no more than 3 days [6]. The disadvantages of this method are its complexity, lack of effectiveness in protecting sugar beets from damage by cercosporosis, peronosporosis, erysiphosis and rust, as well as the limited shelf life of the biological product.

A known method of growing sugar beets, including spraying vegetative plants 3-4 times, starting with the appearance of 8-10 leaves, with an aqueous solution of GibberROS with a concentration of 50-100 mg / l at a dose of 15-30 g / ha. The method provides an increase in the yield of sugar beets by 23-25% and a decrease in the susceptibility of plants to cercosporosis, peronosporosis, erysiphosis and rust [7]. The disadvantages of this method are its complexity, the duration of the process of obtaining polygibberellin biological product.

A method of cultivating sugar beets is patented, which includes the treatment of vegetative plants with a biological product containing a mixture of suspensions of strains of Pseudomonas species 7G, 7G2K, and 17-2, taken in a ratio of 1: 2: 1 with a concentration of 2.0-2.4 × 10 ¹⁰ cells / ml In this case, an additional stage of pre-sowing seed treatment is carried out at the rate of 50-75 ml of suspension per 1 ton of seeds, and treatment of vegetative plants is carried out at the rate of 50-75 ml / ha [8]. The method allows to reduce the incidence and increase the yield of plants, but does not have a significant effect on increasing the sugar content of root crops.

The closest to the claimed method prototype is a method of cultivating sugar beets, including presowing treatment of seeds or vegetative plants with the growth regulator "Albit", which is a viscous flowing paste containing a hydrolyzate of live bacteria Pseudomonas aureofaciens 18-20; bacterial hydrolyzate of Bacillus megaterium 39-40; solution of macro- and microelements; coniferous extract; chlorophyll-carotene paste. During pre-sowing treatment, the seeds are treated with a solution of the preparation until their surface is completely wetted at a rate of consumption of 30-40 g / t of seeds, and during the processing of vegetative plants, 30 g / ha of crops, the first treatment of vegetative plants is carried out during the closing of the rows, and the second 20 days after the first [9]. The method allows to increase the yield of root crops by 18-31% and reduce the damage to plants by cercosporosis. The disadvantages of this method are the complexity of the preparation, high consumption rates and low efficiency of the method in relation to plant protection against fungal and bacterial diseases.

The invention is aimed at solving the following problem - the development of a method of increasing the yield of sugar beets on sod-podzolic soils in the weather and climate of the Chuvash Republic by using fertilizers and growth regulators.

The problem is solved in that the proposed method for increasing the yield of sugar beet root crops for the subsequent extraction of sucrose from them includes the selection of varieties and hybrids of sugar beets zoned in Chuvashia; presowing seed treatment and treatment of vegetative plants with growth regulators in the phase of 4-5 pairs of true leaves; the combined use of inter-row treatment with double fractional application of complex mineral fertilizers and chemical weeding with herbicides with the optimal scheme for the Volga-Vyatka sowing region.

The novelty of the proposed technical solution and the inventive step consists in the fact that until now, in the existing recommendations for cultivating sugar beets, this crop was supposed to be grown only on chernozems and, in extreme cases, dark gray forest soils.

The authors for the first time developed a technological scheme for the cultivation of sugar beet root crops on small humus sod-podzolic soils of the Chuvash Republic, which includes: minimal tillage based on multi-depth disking and peeling of the predecessor to a depth of 6-10 cm BDM-6 and PLL-10-25; presowing cultivation of 8-10 cm cultivator KBM-10.8; sowing with the Amazone combination sowing unit; presowing treatment of sugar beet seeds with aqueous solutions of Baikal EM 1 preparations in 0.005% concentration, Zircon - 0.00048%, Epin - 0.0005% concentrations; double-row cultivating between rows and treatment with the Betanal trio herbicide (1.2 l / ha) + Caribou (30 g / ha), Betaren Express AM and Panther at a dose of 1.0 l / ha and Lornet 0.3 l / ha (or their analogues); fractional application of mineral fertilizers in doses of N ₆₀ P ₆₀ K ₆₀ and N ₆₀ P ₃₀ K ₃₀ during sowing and before the first inter-row cultivation, respectively. In addition, during the growing season, it is recommended to spray growth regulators with working solutions at the rate of 300 l / ha in the phase of 4-5 pairs of real leaves and when closing the leaves of sugar beet plants in rows.

The studies were carried out on sod-podzolic light loamy soils with a low humus content (1.95%), a high content of mobile phosphorus (170 mg / kg) and exchange potassium (140 mg / kg), and a slightly acidic soil solution (6.2). The object of the study was the sugar beet variety Ramona single-seeded RMS-73.

The Chuvash Republic belongs to the temperate zone in terms of heat supply, and in the slightly arid subzone of the arid zone in terms of humidity (hydrothermal coefficient 1.1-1.2). The average annual air temperature is 2.9-3.1 ° C; the sum of the positive temperatures above 10 ° C - 2100-2350 ° C; amount of precipitation - 220-380 mm; the duration of the growing season (daily average temperatures of 5 ° C and above) of most cultivated plants in the republic is not more than 170-175 days; stable snow cover appears in the second decade of November and lasts for 145-155 days.

Field and production experiments to assess the method for increasing the yield of sugar beet root crops by using the growth regulators Albit, Baikal EM 1, Zircon and Epin were carried out from May to October 2010-2013. The years of field research differed both in heat supply and in the amount of precipitation, which made it possible to study the formed agrocenoses of sugar beet most fully.

The results of laboratory studies conducted on sugar beet seeds showed the high efficiency of growth regulators Baikal EM 1, Zircon and Epin to increase germination energy and germination, which were determined according to the method described in GOST 22617.2-94, “Sugar beet seeds. Methods for the determination of germination, single-shootness and benignity "(table. 1; 2).

In general, the treatment of sugar beet seeds with growth regulators allows to accelerate the appearance of single seedlings and reduces the time of appearance of the bulk of seedlings (table. 3). So, during the pre-sowing treatment with biological products Baikal EM 1 and Epin, the first seedlings on the plots appeared already on the 10th day. The "fork" phase in such plants occurs on the 13th day, which further contributes to the appearance of true leaves on the 4th-5th day at the beginning of the growing season.

Sugar beet seeds treated with growth regulators Baikal EM 1, Zircon and Epin were distinguished by early amicable shoots and the fastest passage of the plant development phenophases - the “fork” phase, the formation of the 1st, 2nd, 3rd, 4th and 5th th pair of leaves, closing leaves in rows and row-spacings, achieving biological and technical ripeness in comparison with the control variant. From which a tendency toward an increase in the rate of growth processes in plants treated with these growth regulators is clearly traced. At the same time, the authors noted the greatest growth-promoting effect in growth regulators Baikal EM 1 and Epin (Table 4).

In turn, the increase in the speed of life processes in plants treated with biological products Baikal EM 1, Zircon and Epin externally resulted in the predominance of experimental plants over the control variant by such indicators as plant height - by 2.1-2.8 cm; the average length of the sheet is 2.5-2.8 cm; the average width of the sheet is 1.0-1.5 cm; the leaf surface area is 0.09-0.12 m ² / m ² , the length of sugar beet root crops is 0.5-0.8 cm (Table 5-6).

All of the above, ultimately, had a positive effect on the productivity of experimental sugar beet plants. The maximum (32.3 t / ha) yield of root crops was obtained on the variant with the use of the plant growth and development regulator Epin, and the minimum (28.5 t / ha) on the control variant (Table 7). As for sugar content, in all experimental variants using biological products Baikal EM 1, Zircon and Epin sugar content increased by 0.1% compared with the control.

Thus, the maximum (5.59 t / ha) sugar collection was provided by the variant using the Epin growth regulator, and the minimum (4.90 t / ha) - the control variant with the Albit preparation.

At the next stage, we calculated the economic indicators of the use of growth regulators in the cultivation of sugar beets, which also showed the advantages of the Giant over existing analogues (Table 8).

The highest (46.4%) level of profitability was obtained by treating seeds and plants of sugar beet with the growth regulator Epin. By 1.5 and 6.4% he was inferior to options with the processing of biological products Baikal EM 1 and Zircon. The smallest (32.3%) level of profitability by the authors was noted on the control option.

When studying the agrochemical parameters of soils, the authors found a positive dynamics in the content and accumulation of some nutrients (nitrogen and phosphorus), as well as their compounds after using Baikal EM 1 (Table 9). The latter is due to the presence in the biological product of microorganisms capable of binding atmospheric nitrogen to nitrate compounds and converting the sparingly soluble components of the soil into forms assimilable to plants, which subsequently directly affects the yield and product quality.

In turn, microorganisms and soil biota contributed to the improvement of agrophysical indices of sod-podzolic light loamy low humus soils in agrocenoses of sugar beet in the Chuvash Republic (Table 10).

In general, we can state the positive dynamics of changes in the processes of biotransformation of organic matter in the soil, which is especially important when intensifying agricultural production to maintain qualitative indicators of fertility of the humus-poor lands of the Volga region.

Information sources

1. RF patent No. 2090029, class А01В 79/02, 09/20/1997.

2. RF patent №2337544, class A01N 37/44.

3. Dvoryankin EA The influence of growth stimulants on the development of crop diseases // Sugar beet, 2003, No. 4. - S. 29-31.

4. Sapronov N.M., Morozov A.N., Tsukanov V.N., Kutsakova V.E., Murashev SV. Biostim-M to increase the productivity and technological qualities of root crops // Sugar beet, 2005, No. 6. - S. 27-28.

5. RF patent №2338377, classes A01P 21, A01N 43/90.

6. USSR AS No. 540614, class A01N 65/00, 03.23.81.

7. RF patent No. 2201680, class A01N 63/04, 04/10/2003.

8. RF patent No. 2403719, class A01N 63.

9. RF patent No. 2147181, class A01N 63/00, 10.04.2000.

Claims (1)

The method of cultivating sugar beet root crops on small humus sod-podzolic soils of the Chuvash Republic includes: minimal tillage based on multi-depth disking and peeling of the predecessor to a depth of 6-10 cm BDM-6 and PLL-10-25; presowing cultivation of 8-10 cm cultivator KBM-10.8; sowing with the Amazone combination sowing unit; presowing treatment of sugar beet seeds with aqueous solutions of Baikal EM 1 preparations at 0.005% concentration, Zircon - 0.00048% and Epin - 0.0005% concentrations and spraying with working solutions of plant growth and development regulators at a rate of 300 l / ha in phase 4-5 pairs of real leaves and closing leaves of sugar beet plants in rows; double-row cultivating between rows and treatment with the Betanal trio herbicide (1.2 l / ha) + Caribou (30 g / ha), Betaren Express AM and Panther at a dose of 1.0 l / ha and Lornet 0.3 l / ha; fractional application of mineral fertilizers in doses of N ₆₀ P ₆₀ K ₆₀ and N ₆₀ P ₃₀ K ₃₀ during sowing and before the first inter-row cultivation, respectively.