RU2678126C1 - Method of increasing yield of spring cereals - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method has been proposed for increasing the yield of oats or wheat, including the presowing treatment of seeds with the preparation. As the drug use an aqueous suspension of nanoparticles of silicon oxide with a concentration of 0.3×10^-4–3.0×10^-4 % with an average particle size of 1–15 nm, obtained by pulsed laser ablation of a single-crystal silicon target in distilled water.

EFFECT: invention can be used to increase the productivity of spring cereals, in particular wheat and oats.

3 cl, 5 tbl, 4 ex

Description

The invention relates to agriculture, the field of biotechnology and nanotechnology in crop production, and can be used to increase the productivity of spring cereals, in particular wheat and oats.

Known liquid composition for stimulating plant growth containing nanoparticles of titanium dioxide [patent RU 2266649, A01N 59/16, A01N 25/30, date of publication: 27.12.2005] [1]. The composition contains as a main component an aqueous solution containing colloidal particles of titanium dioxide. Titanium dioxide nanoparticles have a particle size such that they can be readily absorbed by plants. The pH of the aqueous solution is adjusted to prevent the rapid precipitation of titanium dioxide nanoparticles in the aqueous solution until the aqueous solution is diluted with water to provide a predetermined concentration of titanium dioxide. The composition also contains auxiliary agents necessary for plant growth, and a surface-active compound for dispersion. The composition allows to increase productivity by increasing the photosynthetic efficiency of plants and allows to increase the bactericidal activity of plants against phytopathogens. In addition, the composition allows to solve the problem of environmental pollution associated with the excessive use of biochemical fertilizers.

A disadvantage of the known invention is the adjustment of the pH of an aqueous solution to prevent the rapid precipitation of titanium dioxide nanoparticles in an aqueous solution before diluting the aqueous solution with water. The need for plant growth aids.

A known method of processing agricultural plants, in particular oats, comprising spraying by fine irrigation of the aerial parts of vegetating plants [patent RU 2459403, АСС 21/00, publication date: 08/27/2012] [2]. Spraying is carried out with a solution of a biologically active substance containing silver ions. Top dressing is carried out once in the seedling stage with the preparation of a colloidal solution of AgBion-2 silver nanoparticles. The concentration of the working fluid is 0,00027%, the consumption rate is 250 l / ha. Using the known method will increase the yield of oats.

A disadvantage of the known method is that when spraying vegetating plants at a flow rate of 250 l / ha, a large consumption of the working substance is assumed.

There is a method of pre-sowing treatment of the seeds of the eastern goat Galega orientalis Lam, including their scarification [patent RU 2627556, АСС 1/00, publication date: 08/08/2017] [3]. Scarified seeds are treated with growth stimulator gibberelin GAS in a concentration of less than 0.001 wt. % and a suspension of Fe nanoparticles at a concentration of 0.002-0.008 wt. % in a mixture of neutral catholyte pH 9 and Eh = -350 ... -400 mV with tap water, pH 8 and Eh = + 200 ... + 250 mV in a ratio of 1: 5 in a vacuum environment at a pressure of 650-680 mm Hg At the same time, simultaneous mixing in the drum with a rotation frequency of 10 rpm for 30-45 minutes is carried out. The method provides activation of seed germination and increase their germination energy.

The disadvantages of this invention is the need for additional treatment with gibberelin GAS and seed scarification. In addition, a rather complicated scheme for producing iron nanoparticles, including a vacuum medium and pressure.

As a prototype, a technical solution was selected, known from the article [Zabegalov N.V., Dabakhova E.V. The effect of silicon-containing nanopreparations on the yield and silicon content in grain crops // Achievements of science and technology of the agricultural sector. 2011. No. 12. S. 22-24] [4]. The authors treated the seeds before sowing and carried out joint processing of seeds and vegetative plants. The initial solution (0.2% concentration) was diluted with water in the ratio of 1: 5, 1:10, 1:15 and 1:20. A silicon-containing nanopreparation is represented by formations up to 100 nm in size and contains 2 g of silicon in the initial solution per 1 liter of liquid.

The disadvantage of this method is the lack of information on the exact size of the nanoparticles in the preparation ("up to 100 nm"), as well as on the method of producing nanoparticles. In addition, the prototype used very high concentrations of nanosilicon (from 0.01 to 0.03%).

The technical problem of the invention is the development of a method for increasing the yield of spring cereals, namely, oats or wheat by increasing the resistance of cereals to lodging and to pathogens of plants.

The specified technical result is achieved by the fact that the seeds of spring grain oats or wheat are treated with a preparation before sowing, which is used as an aqueous suspension of silicon oxide nanoparticles with a concentration of 0.3 × 10 ^-4 -3.0 × 10 ^-4 %, with average particle sizes 1-15 nm obtained by pulsed laser ablation of a single-crystal silicon target in distilled water. To prepare the preparation, an initial suspension with a mass concentration of silicon oxide nanoparticles of 30 mg / L is used. Seed treatment is carried out with the drug at a flow rate of 1-10 ml per 10 kg of seeds.

Disclosure of the invention.

The use of silicon oxide is due to the properties of silicon to stimulate plant growth and strengthen the cell wall, which increases the resistance of crops to lodging and prevents the penetration of pathogens into the body of plants and, ultimately, provides increased yield. The use of silicon in nanoform enhances the above effects.

In the invention, a suspension of silicon oxide nanoparticles with a concentration of 30 mg / L, which was obtained by the environmentally friendly method of pulsed laser ablation, was selected as the initial suspension of silicon oxide nanoparticles.

The claimed concentration limits of the drug are selected experimentally.

When using a concentration of the drug more than the declared economically inexpedient, and less than the declared, the claimed technical effect is not achieved.

In addition, the concentration of the drug used in the pre-sowing treatment of spring cereals is much lower in comparison with the concentration of the drug of the prototype, which is economically more feasible.

The invention is as follows.

To prepare the preparation, an initial suspension of silicon oxide nanoparticles with a mass concentration of nanoparticles (SiO ₂ ) of 30 mg / L with an average particle size of 1-15 nm is used.

Example 1

Obtaining the drug - an aqueous suspension of silicon oxide nanoparticles with concentrations of 0.3 × 10 ^-4 %; 1.5 × 10 ^-4 %; 3.0 × 10 ^-4 % are shown in table 1.

To obtain the preparation of the above concentrations, the initial suspension was diluted with distilled water according to table 1.

The selection of the above concentrations was carried out on the basis of a series of preliminary biotests with seeds of wheat and oats. Concentrations lower than 0.3 × 10 ^-4 % did not have a positive effect, and concentrations above 3 × 10 ^-4 % provided a comparable effect, but required a larger initial suspension of silicon oxide nanoparticles with a mass concentration of nanoparticles (SiO ₂ ) of 30 mg / l, which inefficient from an economic point of view.

The obtained preparation was used to treat spring grain seeds at the rate of 10 l per ton of seeds, or 10 ml per 1 kg of seeds. Processing was carried out by a sprayer.

Seeds of spring wheat varieties Iren and oats of the variety Tyumen holozerny were sprayed with the drug in concentrations: 3.0 × 10 ^-4 %; 1.5 × 10 ^-4 %; 0.3 × 10 ^-4 %.

Example 2

Presowing seed treatment allows you to increase productivity by increasing the photosynthetic activity of plants. To improve the synthesis of organic substances, an increased content of photosynthetic pigments is necessary.

The pigment content was determined in an alcohol extract using a SHIMADZU UV-1601 spectrophotometer (Japan) at wavelengths of 665 nm, 649 nm, and 440.5 nm, followed by calculation using Vernon formulas. The determination procedure is described in the sources [T. Astafurova Workshop on Biochemistry and Plant Physiology / T.P. Astafurova, G.S. Verkhoturova, A.P. Zaitseva, A.P. Zotikova, P.O. Sobchak. - Tomsk: Publishing house of Tomsk University, 2001. - 50 p .; Shlyk A.A. Determination of chlorophylls and carotenoids in green leaf extracts / A.A. Shlyk // Biochemical methods in plant physiology. - M .: Nauka, 1971. - S. 154-170.] [5, 6]. The determination was made in the sub-flag leaf of oats in the phase of exit to the tube and the flag leaf of wheat in the flowering phase.

Table 2 presents the pigment content in the subflag sheet of oats, mg / g dry weight. Presowing treatment of seeds with the drug in concentrations of 1.5 × 10 ^-4 % and 0.3 × 10 ^-4 % led to an increase in the content of chlorophyll a, b and the amount of carotenoids by 11, 10 and 12%, respectively.

Table 3 presents the pigment content in the flag leaf of wheat, mg / g dry weight. In a field experiment with wheat, an increase in the content of chlorophyll a by 2%, chlorophyll in by 3% and the sum of chlorophyll by 4% was found in the variant of seed treatment with a concentration of 0.3 × 10 ^-4 %.

Example 3

Presowing seed treatment with the drug improves the resistance of plants to root rot pathogens. Phytoanalysis was carried out in the flowering phase by selecting plants in a field experiment. At least 30 plants were selected from each experiment. The prevalence of diseases and the disease development index were taken into account in accordance with the recommendations of V.A. Chulkina et al. [Chulkina, V.A., Konyaeva, T.T. Kuznetsova Fight against diseases of crops in Siberia. M: Rosselkhozizdat, 1987. - 253 p.] [7].

Table 4 presents the damage of wheat plants by root rot. It was shown that pre-sowing treatment of wheat seeds with the drug in all used concentrations led to a decrease in the prevalence of diseases from 16 to 33% and a disease development index from 7 to 14%.

Example 4

The field experiment was laid on dark gray, medium podzolized soil with a pH of 5.1% and a humus content of 6.5%, mobile phosphorus - 17.8 mg / 100 g of soil, exchange potassium - 8.0 mg / 100 g of soil. The test bookmark was carried out according to the standard method B.A. Dospekhova at the hospital SibNIISHKhT "Luchanovo" (Tomsk), the distribution of experience options is systematic, the repetition of experience is 3-fold. The plot area is 1 m ² .

Table 5 presents the yield of wheat grains in the field experiment. The positive effect of presowing treatment of wheat seeds with the drug on the content of photosynthesis pigments in wheat leaves and the resistance of plants to pathogens ensured a decrease in lodging and an increase in wheat yield in the field experiment by 4-20%.

Thus, pre-sowing treatment of spring grain seeds (wheat and bare oats) with a preparation in the concentration range of 0.3 × 10 ^-4 -3 × 10 ^-4 % allowed to increase the content of photosynthesis pigments in the leaves, reduce the prevalence of diseases and the disease development index, and increase yield spring cereals.

Claims (3)

1. A method of increasing the yield of spring cereals, namely oats or wheat, including pre-sowing treatment of seeds with a preparation, characterized in that the preparation uses an aqueous suspension of silicon oxide nanoparticles with a concentration of 0.3 × 10 ^-4 -3.0 × 10 ^-4 % with an average particle size of 1-15 nm, obtained by pulsed laser ablation of a single-crystal silicon target in distilled water. 2. The method according to p. 1, characterized in that for the preparation of the drug using the initial suspension with a mass concentration of silicon oxide nanoparticles of 30 mg / L. 3. The method according to p. 1, characterized in that the seed treatment is carried out by the drug at a flow rate of 1-10 ml per 10 kg of seeds.