MD693Z - Process for treating sugar beet seeds - Google Patents

Abstract

The present invention relates to agriculture, in particular to a process for treating sugar beet seeds.The process, according to the invention, includes soaking of sugar beet seeds in an aqueous solution containing 0.001% of tomatozide and 0.5% of mixture of Fe, Cu, B, Mn, Zn, Mo and Co, taken in the ratio of 1:1.16:0.63:0.58:0.39:0.008:0.002, for 5 hours prior to sowing, at a seeds:solution ratio of 1:2.

Description

The invention relates to agriculture, namely to a process for treating sugar beet seeds.

The process of treating sugar beet seeds is known, which consists in soaking the seeds for 5 hours in a 0.5% aqueous solution containing Fe, Cu, B, Mn, Zn, Mo and Co in the respective ratio 1:1.16:0.63:0.58:0.39:0.008:0.002, at the same time the seeds and the solution are taken in a volume ratio of 1:2 [1].

The process of treating sugar beet seeds is also known, which consists of soaking them in an aqueous solution of tomatoside at a concentration of 0.001…0.005% for 4…16 hours [2].

The disadvantage of the known processes is that the productivity of the rhizocarps is not high enough.

The problem solved by the invention consists in increasing the productivity and improving the technological qualities of rhizocarps.

The sugar beet seed treatment process includes soaking them in an aqueous solution containing 0.001% tomatozide and 0.5% mixture of Fe, Cu, B, Mn, Zn, Mo and Co taken in a ratio of 1:1.16:0.63:0.58:0.39:0.008:0.002 (Microcom-T microelement complex), within 5 hours before sowing, at a seed:solution ratio of 1:2.

The technical result of the proposed process consists in increasing the efficiency of using the growth regulator - called tomatozide, supplemented with the microelement complex Microcom-T. As a result, plants assimilate microelements more fully, thus stimulating nitrogen and carbohydrate metabolism during vegetation, which leads to an increase in the rhizocarp yield by 13.3…24.7% and the sugar content by 0.5…0.9%.

Tomatoside is a biologically active substance with the chemical formula 5α-furostane-3β,22,26-triol-3-[O-β-D-glucopyranosyl(1→2)-β -D-glucopyranosyl(1→4)-β-D-galactopyranoside]-26-O-β -D-glucopyranoside, obtained by extraction from tomato seeds with alcohol. Fractions containing tomatoside are prepared from the calculation of 10 mg of tomatoside per liter of water for a concentration of 0.001%. The preparation is cheap, harmless and ecologically pure.

Examples of embodiments of the invention

Example 1

The effect under nutritionally directed conditions.

The research was carried out in the conditions of the vegetation house of the Institute of Plant Genetics and Physiology in Mitcerlih pots with a capacity of 22…23 kg of soil. Soil - carbonate chernozem. Sugar beet variety - Baracuda. Part of the seeds is soaked before sowing for 5 hours in an aqueous solution containing 0.5% microelements from the Microcom-T preparation and 0.001% tomatoside, at a seed:solution ratio of 1:2. The second part of the seeds is soaked in an aqueous solution of 0.001% tomatoside, and the seeds treated with water serve as a control. During the vegetation of the plants, the activity of the enzymes nitrate reductase and peroxidase, the content of monosaccharides, sucrose, microelements Fe, Mn, Cu and Zn were determined; at the end of the vegetation - the mass of rhizocarps and the sugar content in them.

Separate treatment of seeds with Microcom-T and tomatozide led to the maintenance of a higher level of nitrate reductase activity in leaves during vegetation compared to plants not treated with these substances (control). The complex application of tomatozide and Microcom in the early growth phases and the intensive growth phase maintained the enzyme activity practically at the same level compared to their separate application, and from the intensive sugar accumulation phase to the end of vegetation - at a higher level (tab. 1). The average mass of the rhizocarp increased compared to the control: by 17.3% with separate application of Microcom-T, by 14.4% - with tomatozide application and by 18.6% with the application of the mixture of microelements and tomatozide. Respectively, in the mentioned variants, the sugar content in the rhizocarps also increased: when applying Microcom and tomatozide - by 0.4%, and when applying them in a mixture - by 0.7%. So, in the conditions of the greenhouse, the positive effect of applying the aqueous solution of tomatozide and microelements was manifested both on the mass of the rhizocarp and on the sugar content in it.

Table 1

Nitrate reductase activity (NRA, µg NO2 -/g fresh weight, 30 min) in leaves, rhizocarp weight and sugar content depending on the application of Microcom-T, tomatozide and the mixture Microcom-T + tomatozide (invention)

Variants Development phase Rhizocarp mass, g Surplus, % Sugar content, % Intensive growth Intensive sugar accumulation End of vegetation Control 15.3±0.23 13.4±0.25 2.42±0.04 414.4±11.2 0 15.4 Microcom 18.7±0.41 16.9±0.34 3.53±0.06 486.5±22.7 17.3 15.8 Tomatoside 16.4±0.28 14.2±0.34 2.95±0.18 473.9±23.6 14.4 15.8 Invention 18.4±0.31 16.3±9.25 3.71±0.23 491.3±24.1 18.6 16.1

Example 2

The effect under field conditions.

The experiment was carried out in 2010…2011 on small plots with an area of 15…20 m2 in 3 repetitions with randomized distribution of variants. Soil - carbonate chernozem. Basic fertilizers administered - N90P90K90. Seed treatment was carried out under the same conditions as in example 1.

Separate treatment of seeds with Microcom-T and tomatozide led to insignificant changes in the denitrification process in the soil, and in the leaves of plants of these variants, the activity of nitrate reductase in the case of separate application of Microcom increased. When applying tomatozide separately, the primary process of nitrate reduction in the leaves decreases insignificantly. At the same time, the activity of nitrate reductase in the leaves when applying Microcom and Microcom+tomatozide increases significantly. It is worth mentioning a decrease in the content of monosaccharides and sucrose in the leaves when treating seeds with Microcom-T+tomatozide. The experimental data obtained allow us to conclude that when treating seeds with the preparation Microcom-T+tomatozide, the processes of nitrogen assimilation and carbohydrate metabolism are intensified in plants (tab. 2).

Table 2

Nitrate reductase (NRA) activity in soil (mg NO3-/10 g soil, 24 hours), leaves (µg NO2-/g fresh weight, 30 min), monosaccharide and sucrose content in dependence of sugar beet seed treatment (s. Baracuda) with Microcom-T and tomatozide

Variant ANR in soil ANR in leaves Percentage content of monosaccharides sucrose Control 6.26±0.28 5.95±0.03 0.611±0.017 0.079±0.003 Microcom 5.68±0.25 6.73±0.37 0.559±0.018 0.069±0.006 Tomatoside 6.33±0.24 5.48±0.24 0.359±0.009 0.050±0.003 Invention 5.83±0.13 6.48±0.11 0.429±0.019 0.048±0.002

Changes in the content of microelements in plants were found: the content of Fe and Zn in leaves and roots increased under the influence of Microcom, and under the action of tomatozide the content of Mn increased. The mixture of Microcom+tomatozide maintained the content of Fe and Zn in the petioles and roots of plants at a higher level.

The complex application of tomatozide and Microcom had a positive effect on the yield of rhizocarps and their sugar content. In 2010, against the background of an average yield of rhizocarps of 272.2 q/ha, when treating seeds with the Microcom-T preparation, the yield of sweet roots increased by 22.4%, and with tomatozide it increased by 14.4%. The mixture of tomatozide and microelements increased the yield by 24.7%. Both tomatozide separately and in a mixture with the microelement complex increased the sugar content of rhizocarps by 0.6% (in the control - 18.6%, tab. 3).

Table 3

Rhizocarp yield and sugar content in them depending on seed treatment with tomatozide and Microcom-T

Variant 2010 2011 q/ha Surplus, % Sugar content, % q/ha Surplus, % Sugar content, % Control 272.2±18.6 0 18.6 385.4±23.3 0 20.5 Microcom 333.3±12.6 22.4 18.5 410.8±19.2 6.6 21.6 Tomatozide 311.6±11.9 14.4 19.2 412.6±20.4 7.1 20.9 Invention 339.4±17.9 24.7 19.2 436.7±21.3 13.3 21.4

In 2011, against the background of a more significant harvest (385.4 q/ha), the effect of applying tomatozide, Microcom, as well as their application in a mixture was less pronounced: the yield increase when treating seeds with Microcom-T was 6.6%, with tomatozide - 7.1%, and when applied in a mixture - 13.3%. At the same time, the sugar content in rhizocarps increased: when applying tomatozide - by 0.4%, and when tomatozide in a mixture with microelements - by 0.9%.

Therefore, seeds treated according to the invention ensure a more efficient supply of plants with microelements, which ultimately contributes to increasing the rhizocarp harvest and sugar production per unit area.

1. MD 565 Y 2012.12.31

2. RU 1416070 A1 1998.08.15

Claims (1)

Process for treating sugar beet seeds which includes soaking them in an aqueous solution containing 0.001% tomatozide and 0.5% mixture of Fe, Cu, B, Mn, Zn, Mo and Co taken in a ratio of 1:1.16:0.63:0.58:0.39:0.008:0.002, within 5 hours before sowing, at a seed:solution ratio of 1:2.