RU2121272C1 - Method for promoting oil crop growth and development - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves spraying vegetative oil-bearing plants once or twice during growing period with growth promoter at dosage rate of 1.0-10.0 g of active substance per 1 hectare; treating sunflower twice: at initial phase and at mass flowering phase at preparation dosage rate of 4-10 g/hectare; treating cotton plant once during budding phase at preparation dosage rate of 5.0-7.5 g/hectare; treating rape once during 5-7 leaves phase at preparation dosage rate of 1.0-2.0 g of active substance per hectare. Method allows oil content of sunflower seed core to be increased by 2.3%, of cotton plant by 2.2% and of rape by 3.2% and consumption of growth promoter to be reduced by 8-80 times. EFFECT: increased efficiency and improved quality of oil crops. 4 cl, 4 tbl, 3 ex

Description

 The invention relates to agriculture and can be used in the cultivation of oilseeds.

 Currently, various bioactive substances (BAS) are used to influence the development of agricultural crops. Among the means aimed at increasing agricultural productivity, the so-called plant growth regulators (PPP, they are also plant growth stimulants, photostimulants or phytohormones, both natural and their synthetic analogues). When these stimulants are applied to vegetative plants, sometimes in very small doses, they can greatly affect the physiological processes of plant growth and development. This can be manifested in an increase in productivity, in an increase in drought or frost resistance of vegetative plants, in an increased resistance to plant diseases [1-4].

 Known, for example, is a method of regulating the growth of sunflower [5], which includes treating seeds with juice of potato seedlings (Biostim preparation) at a dose of 1-2 g / ha for the active substance. The proposed method allows to increase the energy of seed germination by 25%, to increase germination by 35% compared with the control. The disadvantages of this method is that the effect is limited by the primary effect on germination, without a clear impact on the further development of plants and their yield.

 The closest to the claimed method prototype is a method of growing oilseeds sunflower [6] using the plant growth regulator "Terpenol" by spraying a growing sunflower with a 0.02% solution of Terpenol in water (400 l / ha, 80 g / ha a.a. ) Terpenol is a mixture of natural terpenoids isolated from coniferous balsams called Baviter SD (TU OP 13-028 1978-232-90).

 The method allows to increase the yield of sunflower by 3.5 kg / ha and to increase the oil content of seed kernels by 1.7%.

 The disadvantage of the prototype is the relatively low stimulating ability of Terpenol for oil formation in sunflower seeds, as well as the high consumption rate for phytohormonal preparations.

 The technical task of the present invention is to increase the oil content in the kernels of oilseeds, as well as reducing the consumption rate of the growth regulator.

 The problem is solved by the proposed method, which consists in the following.

 Vegetable oilseed plants grown according to standard technologies for each region are treated with Silk at a dose of 1-10 g / ha for the active ingredient. Treatments are carried out 1-2 times during the growing season in certain phases of plant development. For example, sunflower is treated twice, in the phase of the beginning of flowering and the phase of mass flowering, with doses of 4-10 g / ha a.a. Cotton is treated once in the budding phase with a dose of 5.0-7.5 g / ha. Rapeseed is treated 1-2 times, in the phase of 5-7 leaves and the beginning of flowering with a dose of 1-2 g / ha a.a. Field treatments are carried out by conventional methods of ground or air spraying, as well as by aerosol methods. The drug is diluted in water (400 l / ha) using the ground or air spray method. In the aerosol method, the drug is used without dilution or with the addition of small amounts of water and special biologically inert aerosol forming substances.

Silk is the commercial name of the drug produced in Krasnoyarsk, ELHA JSC. The active components of Silka are natural triterpenic acids obtained on the woody greens of Siberian fir [7]. Available in the form of a 5% aqueous concentrate (with the addition of an emulsifier) or as a 10% water-soluble powder or tablets. Silk has low toxicity and is practically harmless to insects and warm-blooded animals (LD ₅₀ for rats - 6700 mg / kg orally). The drug has been tested and is included in the List of approved drugs for use in agriculture [8]. The drug has both photostimulating and fungicidal properties, which makes it a rather unique drug.

 A significant difference between the proposed method and the prototype is the use of a Silk preparation as a biostimulant, with a rather unexpected set of bioactive properties in an experimentally selected optimal dose (by AI) and during the most critical phases of vegetation for plants. The effect of the drug can simultaneously be manifested both in a quantitative increase in yield and in improving its quality, for example, in increasing the oil content in oilseeds of oilseeds. In addition, when it is used, fungicidal activity can sometimes occur, which can favorably affect the yield.

 Silk is used in doses 8-80 times lower than the prototype Baviter SD. At the same time, the biological effectiveness of such doses of Silk is higher than for Baviter diabetes.

 It is known to use Silk on a number of agricultural crops to increase their productivity and to combat diseases of cotton [9]. However, its use on oilseeds for the stimulation of oil content in oilseeds is unknown. Therefore, a simultaneous increase in seed yields and an increase in the oil content in them is a new and unpredictable property of this drug.

 From the literature and from experiments it is known that the use of plant growth regulators does not automatically lead to the manifestation of certain positive bio-effects. The effects of their use can manifest themselves only in certain conditions associated with specific crops, weather conditions, the objectives of growing crops, processing times, etc. These conditions will be shown in the following examples.

Examples of specific applications of Silk in the cultivation of oilseeds:
Example 1. Sunflower.

 Field plot tests were carried out in 1994-95. in the "Zarya" settlement of Sloboda district (Transnistria, Moldova). Soil - ordinary chernozem, medium-power, heavy loamy. Weather conditions were close to long-term average, in temperature conditions they were favorable for irrigated cultivation of sunflower. Soil preparation, fertilizing and other agricultural activities were carried out according to the regional technology for growing sunflower.

 Vegetable plants of sunflower cultivar Odessa 63 were treated with an aqueous Silka solution at a concentration of 100, 200 and 500 mg / l, which corresponded to a consumption rate of 40, 80 and 200 g / ha for the preparation (2, 4 and 10 g / ha a.a.) . The control spray used pure water. Spraying was carried out with the Era-1 backpack sprayer (at the rate of 400 liters of liquid per 1 ha) in the morning or evening hours or in cloudy weather, in relatively low wind conditions. Spraying was carried out once, twice and three times. The first spraying was carried out at the beginning of flowering, the second - during mass flowering, the third - 10-14 days after the second.

 Observation of the growth and development of plants and registration of diseases during the growing season were carried out according to the methods of PNRIIS (Tiraspol) and Odessa Agricultural Institute. Manual harvesting of sunflower began with its full biological maturation. The accounting area of the plots is 20-25 square meters, the repetition is 4-fold. Sunflower baskets were cut with secateurs and transported for drying in the attic of the warehouse (2-3 weeks). Then the baskets were threshed, seeds were screened and weighed. Biochemical analysis of seeds was carried out in the laboratory of mass analysis PNIISH. The results are presented in tables 1 and 2.

 The tables show that the treatment of vegetative sunflower with Silk can significantly reduce the disease incidence of stems, leaves and baskets of sunflower. This is an important factor in increasing the yield and oil content of sunflower seeds, especially in years or in regions with a strong development of these diseases. The fungicidal effect from the use of Silk was manifested visually, in the form of a more saturated dark green color of the leaves on the treated plants, in the form of a more accelerated (for 3-5 days) ripening of seeds.

 From the data in table 2 it follows that the best effect of Silk treatments was manifested during double treatment at a dose of 4-10 g / ha in each of them. Seed productivity increased by 3.5 c / ha (21%), oil content - by 2.3%, total oil yield - by 1.3 c / ha.

Example 2. Agriculture - Cotton
Field tests were carried out at the Central Experimental Base of the Uzbek Research Institute of Cotton Production. The soil is a typical serozem with a deep level of groundwater occurrence; according to the mechanical composition, it is heavy dusty loam. The duration of the growing season is 209-215 days. Agrotechnics is common to this economy. The area of one plot is 50 m ⁵ , the repetition is fourfold. The laying of experience, counting, monitoring the growth and development of cotton, harvesting was carried out according to the "Methodology of field and vegetation experiments with cotton", SoyuzNIHI, Tashkent, 1981. Vegetable cotton plants (grade C-6524) were treated with an aqueous solution of Silk 200, 250 and 375 mg / l, which corresponded to a consumption rate of 80, 100 and 150 g / ha for the preparation, which corresponded to a dose of 4.0, 5.0 and 7.5 g / ha according to AI in the budding phase once. The treatment was carried out in the evening by the sprayer "Universal" at a flow rate of 400 l / ha. The results are presented in table 3.

 From table 3 it can be seen that the optimal dose of Silk lies in the range of 100-150 g / ha, which corresponds to a dose of 5.0-7.5 g / ha a.a.), an increase in concentration does not increase the yield of raw cotton and oil content of seeds, therefore, it is not economically feasible.

 From table 3 it is also seen that the processing of cotton with Silk can increase yield by 3.8 kg / ha, increase oil content by 2.2%.

 Using the drug can also reduce the incidence of wilt by 3.7-3.9 times, improve the quality of marketable products.

Example 3. Agriculture - rapeseed
Field tests were carried out in the Novosibirsk region at the Elbashi industrial complex in July 1993 on rape cultivar Lika by aerosol treatments of plants in phases: a) 5-7 leaves, b) flowering with Silk at a dose of 1-2 g / ha by dv The equivalent consumption rates of Silk (5% emulsion) were 20-40 g / ha (which corresponds to concentrations of aqueous solutions of 50-100 mg / l). The accounting area of the plot is 15 sq. M, the repetition of 3 is multiple. An aerosol generator with controlled dispersion (GDR, (10) was used. Processing was performed at night.

 The test results are presented in table 4.

 From table 4 it is seen that there is a noticeable effect of treatments with Silk at a dose of 1-2 g / ha (the dose was selected experimentally) in the phase of 5-7 leaves, expressed in an increase in the yield of dry mass by 10%, increase in seed yield by 22%, oil content of seeds by 3.2% (abs.).

 Thus, the optimal parameters for the use of the Silk preparation are 1-2-fold spraying of plants during the growing season at a single dose rate of 1.0-10 g / ha according to

Using the proposed method will allow, in comparison with the prototype:
- increase the oil content in the kernels of oilseeds, specifically in the kernels of sunflower by 2.3%;
- reduce the consumption rate of the biostimulator (growth regulator) by 8-80 times;
- reduce the incidence and increase the effectiveness of protection against diseases of various origins (bacterial, viral, fungal, infectious);
- increase the yield of sunflower by 3.5 kg / ha (to maintain a high yield relative to the prototype);
cotton - by 3.8 kg / ha;
rapeseed (seed yield) by 22%.

Sources of information:
1. The use of growth regulators in crop production. Directory. Kishinev. Shtiintsa, 1981, p. 8.

 2. Muromtsev G. S., Agnistova V.N. Growth hormones - gibberellins. - M .: Nauka, 1973, p. 254.

 3. L.J. Nickell. Plant growth regulators - agricultural applications. - M .: Kolos, 1984, p. 192.

 4. The method of growing crops // A.S. 1600653 A 01 G 31/00, BI 39, 1990.

 5. A method of obtaining plant growth stimulants from potato seedlings // A.S. 1 819 378 A 01 N 65/00.

 6. Rozhkova V.T., Bazylchik V.V. The use of terpenoid compounds in sunflower. Industrial crops, 1993, N1, pp. 8-9.

7. A method of obtaining a biologically active natural amount of triterpenic acids // RF Patent 1809975 MKI ⁴ C 07 C 51/00 BI N 14, 1993.

 8. Addition to the List of approved drugs // Plant Protection, 1995, N 10.

 9. The method of dealing with cotton wilt // RF Patent 2025976 A 01 N 65/00 BI N 1, 1995.

 10. Aerosol generator // A. p. 950266 A 01 M 7/00, Bi 30, 1982 (RF Patent 950266 A 01 M 7/00, 1993).

Claims (4)

 1. A method of stimulating the growth and development of oilseeds, including treating vegetative plants with an aqueous solution of a growth regulator, characterized in that the preparation "Silk" is used as a growth regulator, which is the natural amount of triterpene acids isolated from green fir, and the treatment is carried out one twice during the growing season at a dose of 1.0 to 10.0 g / ha for the active substance.  2. The method according to claim 1, characterized in that the sunflower plants are treated twice, in the phase of the onset of flowering and in the phase of mass flowering at a dose of 4.0 to 10.0 g / ha.  3. The method according to claim 1, characterized in that the cotton plants are treated once in the budding phase at a dose of 5.0 to 7.5 g / ha.  4. The method according to claim 1, characterized in that the rapeseed plants are treated once in a phase of 5 to 7 leaves at a dose of 1.0 to 2.0 g / ha.

Images