RU2480977C2 - Method for stimulation of vegetable crops growth and development - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. The method includes treatment of seeds and/or vegetative plants prior to sowing with a biologically active substance. The biologically active substance is a 0.00002 - 0.2% water solution of pectin, extracted from little duckweed Lemna minor L., or tench weed of floating Potamogeton natans L., or cowberry Comarum palustre L., or callus tissue of clammy campion Silene vulgaris (Moench) Garcke.

EFFECT: method makes it possible to increase germination and speed of seeds growth, growth of roots and germs, vegetative growth and crop capacity, to increase vitality of plants and to reduce times of vegetation.

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Description

The invention relates to agriculture, in particular to methods for growing vegetable crops.

There is a method of pre-sowing seed treatment (RU 2032301, MKI A01C 1/00), including soaking seeds in alfalfa extract with a concentration of 0.01-1.0% for 6-24 hours. The disadvantage of this method is that the processing is carried out at high concentrations of alfalfa solution and at the same time with insufficiently high efficiency.

Known plant growth regulator with fungicidal action "VERVA" (RU 2298327, MKI A01N 65/00) based on green wood fir, including the active substance in the form of water-soluble salts of triterpene acids and neutral components of needles. The biological product is effective at an active substance concentration of 2.5-250 mg / L.

The closest is a method of processing crops (RU 97103702, MKI A01N 65/00), including pre-sowing seed treatment or spraying vegetative plants with a biologically active substance, which is used as a 0.003% solution of lyophilisate of goat extract at a flow rate of 10 l per 1 ton of seeds or 300 l per 1 ha of vegetative plants.

The technical result of the present invention is the development of a new and effective method of stimulating the growth and development of vegetable crops, including the use of plant polysaccharides, as well as increasing the germination of seeds and accelerating the growth and development of vegetable crops.

The technical result is achieved by the fact that the method of stimulating the growth and development of vegetable crops includes pre-sowing seed treatment and / or spraying of vegetative plants with 0.00002-0.2% aqueous solutions of pectins isolated from plants: duckweed Lemna minor L., potato floating Potamogeton natans L., saber-toothed bog Comarum palustre L. and callus tissue of common Silene vulgaris (Moench) Garcke. Seed treatment and spraying of vegetative plants can be used individually or in combination, and spraying can be carried out up to several times during the entire vegetative period.

Pectins were obtained by known methods: Lemnan from duckweed Lemna minor L. (Ovodova R.G., Golovchenko V.V., Shashkov A.S., Popov S.V., Ovodov Yu.S. Structural studies and physiological activity of lemnan - pectin from the duckweed minor Lemna minor L. // Bioorganic chemistry. 2000. V.26. No. 10. S.743-751), potamogetonan from the floating potamogeton natans L. (Ovodov Yu.S., Golovchenko V.V., Gunter E.A., Popov S.V. Pectin substances in the European North of Russia // Ekaterinburg: Ural Branch of the Russian Academy of Sciences. 2009. 110 pp.), Komaruman from the marsh saber-toothed Comarum paluster L. (Ovodova R.G., Bushneva O.A. , Shashkov A.S., Chizhov A.O., Ov Dov, Yu.S. Structural study of the marsh saberfish pectin Comarum palustre L. // Biochemistry. 2005. Vol. 70. Issue 8. P.1051-1062) and silane from callus tissue of common tar Silene vulgaris (Moench) Garcke (Gunther E .A., Ovodov Yu.S. Production of polysaccharides by callus culture of Silene vulgaris depending on carbohydrates of the medium // Biochemistry. 2003. V.68. Issue 8. P.1079-1087).

The invention is disclosed by the following examples.

Example 1. The seeds for the experiment are pre-prepared, including checking for fullness, temperature control with distilled water at 60 ° C for 3 hours, disinfection with a 1% KMnO ₄ solution for 20 minutes and top dressing in a solution of trace elements of the following composition (g / l) : CuSO ₄ · 5H ₂ O - 0.05; MnSO ₄ · 5H ₂ O — 0.5; ZnSO ₄ · 7H ₂ O - 0.5; H ₃ VO ₃ - 0.2; (NH ₄ ) ₆ Mo ₇ O ₂₄ · 4H ₂ O - 0.5; succinic acid (for cucumbers) - 0.015 for 24 hours.

Prepared seeds of cucumbers of the variety "Zozulya F-1" are placed between two layers of filtered paper. For seed treatment use aqueous solutions of pectins, the names and sources of pectins in table 1.

Table 1 Source Pectin name Small duckweed Lemna minor L. Lemnan Floating Potamogeton natans L. Potamogetonan Callus tissue of Silene vulgaris Silenan Marsh cinquefoil Comarum palustre L. Komaruman

Seeds are treated by soaking them in 0.002% aqueous solutions of pectins. Control - soaking seeds in water. Seeds of 30 pieces in 5-fold repetition are incubated for 9 days. Germination energy is determined after 3 days, germination - after 9 days after soaking. The results are presented in table 2.

table 2 Option Germination energy Germination % % to control % % to control Lemnan 57 ± 1.2 124.0 89 ± 1.9 132.8 Potamogetonan 49 ± 0.6 106.6 72 ± 1,1 107.5 Komaruman 52 ± 0.9 113.0 77 ± 1,5 114.9 Silenan 55 ± 1.4 119.6 84 ± 2,3 125.4 The control 46 ± 1.7 100.0 67 ± 2.2 100.0

Laboratory germination of cucumber seeds after treatment with pectins is higher than the control value by 7.5-32.8%, and the germination energy exceeds the control level by 6.6-24.0%.

Example 2. The seeds of cucumbers and tomatoes are soaked in an aqueous solution of lemnan with different concentrations (0.00002-0.2%). Control seeds are soaked in distilled water. The experiments are carried out with seeds of cucumbers of 30 pieces, tomatoes - 50 pieces in 3 repetitions. The number of sprouted seeds is determined three times: after 5, 7 and 9 days, in each period, germination is determined and the length of the roots and seedlings is measured and the percentage of growth parameters in relation to the control is calculated. The test results are presented in table 3.

Table 3 The concentration of lemnan,% Germination,% % root growth parameters to control % growth parameters of seedlings to control tomatoes cucumbers tomatoes cucumbers tomatoes cucumbers 0.00002 75 ± 2.1 66 ± 1,5 0 0 0 0 0,0002 79 ± 3.0 72 ± 3,3 1,0 2.0 0.4 2.6 0.002 91 ± 2.4 89 ± 1.9 4,5 6.4 2,3 4.1 0.02 38 ± 3.6 63 ± 2,5 1.3 6.6 1,1 1,6 0.2 34 ± 3.8 58 ± 2.0 0.2 2,8 0.9 1,0 the control 76 ± 4,2 67 ± 3.9 0 0 0 0

As a result of experiments with different concentrations of the aqueous solution of Lemnan, conducted on the seeds of cucumbers and tomatoes, it was found that all doses of the drug have a positive effect on the germination of seeds and on the increase in the mass of seedlings, in addition, the experimental seedlings are less affected by microflora. The best result was obtained in an experiment with a pectin concentration of 0.002%.

Example 3. Pilot production tests of pectins were carried out inside a vinyl greenhouse in the fall, winter, spring in Syktyvkar Prigorodny OJSC. The growth stimulation effect achieved by treating tomato seeds of the Eupator cultivar with pectin solutions at a concentration of 0.002% is shown in Table 4. The tested pectins at a concentration of 0.002% were used four times in an amount of 2-100 ml per plant. First, the seeds were processed at the time of their germination, then at the stage when the development of the third fruit brush started and the flowering of the fourth fruit brush ended, the third time the seeds were processed 20 days after the second treatment and the fourth time the treatment was carried out one week before harvesting the third fruit brushes, that is, 20 days after the third treatment. All the fruits of the fourth fruit brush and the fourth fruit brush were harvested in the usual way, the fruits from each zone (10 plants per zone) were weighed and the ratio in% of the average weight of the test samples to the average weight of control tomatoes cultivated without the use of test pectin solutions was calculated.

Table 4 Option Germination,% The ratio of the average weight of the fruit,% Lemnan 91 ± 2.4 156 Potamogetonan 79 ± 2.8 122 Komaruman 90 ± 2.2 142 Silenan 88 ± 1.9 135 The control 64 ± 2,4 one hundred

As can be seen from the experiments, the effect of stimulation of the growth of tomatoes is observed when using all the tested pectins, in particular, Lemnan and Komaruman.

Example 4. The effect of growth stimulation on cucumbers. Athlet cucumbers were cultivated in the generally accepted manner inside a film greenhouse throughout the year in the Syktyvkar Prigorodny OJSC. Cucumbers were treated with a 0.002% solution of Lemnan once during the period of seed germination and repeatedly, as described in Example 3. The fruit set rate was estimated one month after flowering began - the ratio of the number of fruits to the number of flowers. The test results are shown in table 5.

Table 5 The number of treatments with lemnan solution The rate of tying of the fetus,% Productivity (in relation to control),% one 28 39 four 35 67 0 (control) 16 0

As a result of the experiments, it was found that the positive effect of increasing the speed of fruit setting and increasing the yield of cucumbers is achieved both with a single treatment and with repeated treatment of plants with a pectin solution.

The proposed method of stimulating the growth and development of vegetable crops is technically simple, economical, makes it possible to increase germination, germination energy, growth of roots and seedlings, vegetative growth and yield of cucumbers and tomatoes. The vitality of plants is increased, the growing season is reduced, the productivity of the economy is increased while environmental friendliness is observed.

Claims (1)

A method of stimulating the growth and development of vegetable crops, including treating seeds before sowing and / or vegetating plants with a biologically active substance, characterized in that a 0.00002-0.2% aqueous pectin solution isolated from small duckweed is used as a biologically active substance Lemna minor L., or the pond of floating Potamogeton natans L., or the marsh cinquefoil Comarum palustre L., or callus tissue of the common Silene vulgaris (Moench) Garcke.