RU2400039C2 - Method of oil crops growth and development stimulation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: before sowing seeds of oil crops such as sunflower or rape are sprinkled with a water solution of polyhexamethylenguanidine-hydrochloride with a molecular weight of 5 - 9 thousand CU and a concentration of 0.01-0.03%, 10-15 l of solution per 1 kt of seeds. Vegetating plants in the 5-7 leaves phase are non-recurrently treated with a water mixture consisting of the above solution with a concentration of 0.0001-0.03% and PEG-400 with a molecular weight of 352 - 440 CU and a concentration of 0.000001-0.001%, expenditure rate being 100-150 l of mixture per 1 ha.

EFFECT: such treatment of seeds and vegetating plants considerably increases content of oil and yield of oil crops which enables their usage in the capacity of not only food stock but also technical stock for production of, for example biofuel.

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Description

The invention relates to agriculture, and more specifically to crop production and means of stimulating the germination and growth of oil crops, and can be used for presowing treatment of seeds and vegetative plants in the industrial cultivation of oil crops for food and technical (biofuel) purposes.

Known chemical compound polyhexamethylene guanidine hydrochloride of the general formula

with a molecular weight of 4-10 thousand conv. units previously used as part of disinfectants, surfactants, complexing agents (Safonov GA, Gembitsky PA, Kalinina TA and others. Getting polyhexamethylene guanidines // Chemical industry. 1989. - No. 12. - P.903 -905 and Potemkin, A.S., Effectiveness of new disinfectants for persianiosis and salmonellosis, Sat. Tr. MONIKI. - M. - 1990. - P.57-59).

It is also known to use polyhexamethylene guanidine hydrochloride with a molecular weight of 10 thousand conv. units in creating a fungicidal mixture for the treatment of wheat seeds against fungal diseases together with pentatiuram (AS USSR No. 1829139, class A 01N4 7/44 of 03/06/1991). The use of polyhexamethylene guanidine compounds with a molecular weight of 5 to 50 thousand conv. units as antiseptics to protect crop products during storage, for example, of potatoes (RF Patent No. 2136155, CL АN 47/44 of 05/21/1998).

However, the use of polyhexamethylene guanidine hydrochloride as a stimulant for the growth and development of oilseeds for presowing treatment of their seeds and treatment of vegetative plants was not previously known.

The invention is based on the task of expanding the range of biologically active substances - oil crop growth stimulants, increasing seed germination, accelerating growth in the early stages of ontogenesis, as well as increasing the yield and quality of oil crops.

The problem is solved in that for the first time as a stimulator of the growth and development of oilseeds, the well-known chemical compound - polyhexamethylene guanidine hydrochloride (PHMG) of the general formula

corresponding to a molecular weight of 5 to 9 thousand conv. units

The use of the claimed invention for use allows to increase the efficiency of agricultural production, productivity and quality of oilseeds, which is confirmed by the examples 1-3 below and the results obtained are shown in tables 1-4.

A known method of stimulating the growth and development of oilseeds, including the processing of vegetative plants in the phase of 5-7 leaves and the beginning of budding with a solution of the polybibereline drug Gibbersib at a dose of 10-40 g / ha (RF Patent No. 2099948, class A01N 63/04, A01G 7 / 00 from 05/18/1995). The main disadvantage of this method is the high cost of gibberelin preparations when used as plant growth stimulants. In well-known growth stimulants, such as Mars-Y and Mars-I, used for treating seeds of various crops, polyethylene glycol-400 is used as the active substance (Pesticides and agrochemicals of Ukraine: A practical guide for agricultural specialists. - Dnepropetrovsk: Art Press, 2006 .-- 319 p.).

There is also known a method of stimulating germination of oilseeds, for example sunflower, comprising wetting the seeds with water and dusting with activated carbon powder (RF Patent No. 2034428, CL A01C 1/00, A01N 61/00 from 06/13/1991).

The disadvantages of the known method according to US Pat. RF number 2034428, taken as a prototype, should include a slight increase in seed germination (10-20%) and low activation of seedling growth (17-31%) of sunflower, which does not have a significant effect on yield and quality of the final product.

The basis of the claimed invention on the method is the task of expanding the range of biologically active substances - stimulants of the growth of oilseeds, increase their germination (germination), as well as increase the yield of sunflower and rape.

The problem is solved in that in a method of stimulating the growth and development of sunflower and rapeseed, which includes treating the seeds before sowing and vegetating plants by spraying them, the seeds of sunflower and rapeseed before sowing are sprayed with an aqueous solution of PHMG with a molecular weight of 5 to 9 thousand conv. units and a concentration of the active substance of 0.01-0.03% in a dose of 10-15 l per 1 ton of seeds. A spraying of vegetative plants of the mentioned cultures is carried out in a phase of 5-7 leaves (the beginning of budding) once with an aqueous mixture consisting of PHMG with a molecular weight of 5 to 9 thousand conv. units, with a concentration of 0.0001-0.03% and polyethylene glycol-400 (PEG) with a molecular weight of 352 to 440 conv. units, with a concentration of 0.000001-0.001%. At the same time, the consumption of the working mixture during the processing of vegetative plants is 100-150 L per 1 ha, including when growing oil crops on a herbicidal background.

The essence of the claimed invention for the use and method of stimulating the growth and development of sunflower and rapeseed is illustrated in examples 1-3. Table 1-4 shows the average data of 20-100 determinations, the repetition of experiments is 4-fold. In model experiments, oilseed seedlings were grown in rolls of filter paper in an aqueous medium or a solution of the herbicide at t = 25 ° C in a thermostat (up to 4 days), then at room temperature and exposed to daylight; seed germination was determined on the seventh day, then seedlings were taken and root lengths (1) and sprouts (L) were measured.

Statistical processing of the obtained experimental data by standard methods was carried out (Rokitsky PF Biological statistics. Minsk, Higher School, 1973. - 318 pp.). Deviations from the average for each statistical series do not exceed 5% of the average.

Example 1. In model experiments on a herbicidal background, the effect of presowing treatment of sunflower seeds of Diamond Diamond with aqueous solutions of PHMG with an active substance concentration of 0.01-0.03% on seed germination rates, as well as the effect of spraying vegetative plants with solutions of PHMG mixtures (0.01- 0.03%) and PEG (10 ^-4 -2 · 10 ^-4 %) on the fifth day of development on the growth and development of sunflower seedlings in the early stages of ontogenesis. An increase in the germination rate of sunflower seeds by 5-10% was found (Table 1), stimulation of growth indicators of seedlings by 8-68% for experimental variants with presowing treatment of seeds with PHMG solutions and spraying of vegetative plants with a mixture of PHMG and PEG, which is significantly higher than the prototype.

Example 2. The effect of presowing treatment of rapeseed Antalya with an aqueous solution of PHMG (0.03%) and spraying of vegetative rapeseed plants on the seventh day of development with solutions of mixtures of PHMG (10 ^-4 -0.03%) and PEG (10 ^-3 -3 · 10 ^-6 %) on germination and morphometric indicators of seedlings in model experiments on a herbicide background. The increase in seed germination by 5-10% (table 2) and the stimulation of growth rates of rapeseed seedlings by 13-80%, which significantly exceeds the performance of the prototype.

Example 3. The effect of presowing treatment of sunflower and rapeseed with aqueous solutions of the PHMG preparation (0.01-0.02%) and spraying of plants along the growing mass with aqueous solutions of the mixtures of PHMG (0.01%) and PEG (10 ^-4 -2 · 10 ^-4 %) for the crop and its quality indicators - the mass of 1 thousand grains, the crude fat content in the seeds of sunflower and rapeseed grown on a herbicide background in the field 2006-2007. (Table 3.4). An increase in the yield of green mass in experimental rape plants by 4-17.3%, grain growth by 14-21.8% or 3.8-6.4 kg / ha was found (Table 3). In addition, an increase in the quality of rapeseed grain, an increase in the mass of 1 thousand grains by 5-10% and a steady increase in the crude fat content in rapeseed by 3.4-4.2% were revealed. In sunflower, an increase in seed yield by 16-28% was revealed when using aqueous solutions of PHMG (0.01%) for pre-sowing seed treatment and spraying vegetative plants in the 5-7 leaf phase with aqueous solutions of mixtures of PHMG (0.01%) and PEG (10 ^-4 -2 · 10 ^-4 %), while the quality of sunflower seeds also increased - the mass of 1 thousand grains increased by 6-8%, and the content of crude fat in seeds increased by 3.4-4.6% (table. four). The detected increase in yield and quality of oilseeds significantly exceed the performance of the prototype.

The results on the increase of laboratory and field germination, yield and quality of seeds of sunflower and rapeseed using presowing seed treatment and spraying on the growing mass of the proposed solutions significantly exceed the corresponding parameters of the prototype.

The application of the claimed invention to the method allows to stimulate germination, growth and development of sunflower and rapeseed. Using the proposed group of inventions will significantly increase the oil content and yield of oil crops, which is important not only for their use as food raw materials, but also for their use as technical raw materials for the production of, for example, biofuels.

Table 2. The effect of presowing treatment of seeds and spraying of vegetative plants of rape Antalya with the composition of PHMG and PEG on the morphometric parameters of seedlings on a herbicidal background (Harnes - 2.5 mg / l) Name of sample, type of processing Germination,% 8 day 12 days 14 days 1 roots L sprouts 1 roots L sprouts 1 roots L sprouts mm % of to. mm % of to. mm % of to. mm % of to. mm % of to. mm % of to. Colza Antalya Control, Herbits. background 75 9 one hundred 8 one hundred 12 one hundred fifteen one hundred 13 one hundred 23 one hundred Seed Treatment 0.03% PHMG Spraying: 0.03% PHMG + 10 ^-3 % PEG 85 16 178 fifteen 188 eighteen 150 28 187 19 146 33 143 0.03% PHMG + 10 ^-4 % PEG 80 13 144 eleven 138 17 142 19 127 19 146 27 117 0.01% PHMG + 2 · 10 ^-4 % PEG 85 13 144 10 125 16 133 19 127 17 131 24 104 0.01% PHMG + 10 ^-4 % PEG 80 9 one hundred 9 113 13 108 17 113 fifteen 115 25 109 0.01% PHMG + 3 · 10 ^-5 % PEG 85 13 144 13 163 17 142 23 152 eighteen 138 33 143 10 ^-4 % PHMG + 3 · 10 ^-6 % PEG 85 fourteen 156 13 163 eighteen 150 27 180 eighteen 138 35 152 * Sampling error does not exceed 5% of the average

Table 3. Yield, weight of 1 thousand grains and crude fat content in the seeds of winter Dangal rape, grown using pre-sowing treatment of seeds with PHMG and spraying on green mass with a composition of PHMG and PEG on a herbicidal background in the field 2006-2007. (Kherson) (Harnes herbicide - 1.5 l / ha) Name of samples, type of processing Productivity (yield) Mass of 1 thousand grains Crude fat content Green mass (per feed) Semen Oils c / ha % of to. c / ha % of to. c / ha % of to. g % of to. % of nav. % of to. Harvest 2006 The control 220 one hundred 29.4 one hundred 9.5 one hundred 3.8 one hundred 40.72 one hundred Experience: Seed treatment 0.02% PHMG Spraying 0.01% PHMG + 2 · 10 ^-4 % PEG 228 104 33.6 114.3 11.9 125 4.0 105.3 42,43 104.2 Harvest 2007 The control 583 one hundred 29.4 one hundred 10.7 one hundred 3.0 one hundred 42.9 one hundred Experience: Seed Processing 0.02% PHMG Spraying 0.01% PHMG + 2 · 10 ^-4 % PEG 684 117.3 35.8 121.8 13.6 127 3.3 110 44.13 103,4 * Sampling error does not exceed 5% of the average

Table 4. Productivity, weight of 1 thousand grains and crude fat content in the seeds of sunflower hybrids grown using pre-sowing treatment of seeds with PHMG and spraying on green mass with a composition of PHMG and PEG on a herbicidal background in the field 2006-2007 (Harnes herbicide - 2 l / ha) Name of samples, type of processing Productivity Mass of 1 thousand grains Crude fat content c / ha % of to. g % of to. % of hitch % of to. Harvest 2006 Sunflower Alenor (Cherkasy region) The control 27.1 one hundred 49.0 one hundred 65.0 100.0 Experience: Seed treatment of 0.01% PHMG Spraying 0.01% PHMG + 10 ^-4 % PEG 31.5 116 52.3 107 67.2 103,4 Sunflower Kharkov (Dnepropetrovsk region) The control 25.0 one hundred 45.5 one hundred 66.5 100.0 Experience: Seed treatment of 0.01% PHMG Spraying 0.01% PHMG + 10 ^-4 % PEG 30,0 120 49.0 108 69.3 104.2 Harvest 2007 Sunflower Karamba (Dnepropetrovsk region) The control 21.1 one hundred 42.6 one hundred 60.0 100.0 Experience: Seed treatment of 0.01% PHMG Spraying 0.01% PHMG + 2 · 10 ^-4 % PEG 27.1 128 45,2 106 62.5 104.2 Sunflower of Aytan (Dnipropetrovsk region) The control 21,4 one hundred 44,2 one hundred 58.6 100.0 Experience: Seed treatment of 0.01% PHMG Spraying 0.01% PHMG + 2 · 10 ^-4 % PEG 26.2 122 47.5 107 61.3 104.6 * Sampling error does not exceed 5% of the average

Claims (1)

A method of stimulating the growth and development of oilseeds, mainly sunflower and rapeseed, including treating the seeds before sowing and vegetative plants by spraying them with a biologically active substance, characterized in that the seeds are sprayed with an aqueous solution of polyhexamethylene guanidine hydrochloride of the general formula:

,
corresponding molecular weight from 5 to 9 thousand conv. units, with a concentration of the active substance of 0.01-0.03% and a flow rate of a working solution in a dose of 10-15 l per 1 ton of seeds, and spraying vegetative plants of these crops is carried out in a phase of 5-7 leaves (beginning of budding) once with an aqueous mixture consisting of an aqueous solution of polyhexamethylene guanidine hydrochloride with a concentration of 0.0001-0.03% and polyethylene glycol-400 with a molecular weight of 352 to 440 conv. units and a concentration of 0.000001-0.001%, while the consumption of the working mixture during the processing of vegetative plants is 100-150 l per 1 ha, including when growing these crops on a herbicidal background.