RU2216920C1 - Fiber flax growing method - Google Patents

Abstract

FIELD: agriculture, in particular, plant growing. SUBSTANCE: method involves providing care of fiber flax seedlings during growing thereof by two-staged treating of seedlings with zircon at the rate of 0.1-1.0 mg/hectare, first treatment procedure being provided when plant height is 2-3 cm and second treatment procedure - when plant height is 3-12 cm; setting working fluid rate of 200-400 l/hectare. EFFECT: increased flax seed and straw yield. 6 tbl

Description

 The invention relates to the field of agriculture - to crop production and can be used in farms engaged in the cultivation and primary processing of flax.

 During the cultivation of many crops in Russia, the amount of work on plant protection decreased, which is due, first of all, to the high prices of drugs, fuels and lubricants, spare parts for the machine and tractor fleet. There is also the question of compliance of manufactured products with the environmental safety condition, since fiber and seeds are the raw material for the production of tissues, cotton wool, medicines, oils, i.e. products with high hygiene requirements.

 Flax suffers from many pests and diseases, and at all stages of ontogenesis. Seeds are also damaged. In flax growing it is difficult to refuse the use of pesticides, which process both the seed material and the crops themselves. Agrotechnical measures aimed at protecting flax plants are only a necessary complement to their chemical protection. In the foreground in this situation is the creation of biological remedies, as well as chemicals that do not have toxic effects and aftereffect and do not accumulate in the plant. When growing flax flax, various preparations are used for processing, as well as various cultivation techniques aimed at increasing the resistance of plants to adverse environmental factors and improving productivity [1-17].

 It is known to use the drug Agat-25K for the treatment of flax seeds and vegetative plants. Moreover, it exhibits fungicidal, bacterial and growth-regulating activity. The greatest effect when processing, for example, from diseases is achieved by combining the processing of seeds and vegetative plants in the phase of the "herringbone" and budding [2].

 It is known the use of a protective-stimulating agent "Ecost" for seed treatment and processing of crops. It can be used together with herbicides, insecticides and microelements [5, 17 - p. 247].

 It is known to use slow-acting fertilizers containing humic substances, in particular oxyhumate or hydrohumate, which, in addition to fertilizing properties, exhibit growth-promoting properties; as well as various complex fertilizers, containing additionally various regulators, for example, phenomelan [4, 7, 12].

 It is known to use the drug Zircon, which is a mixture of hydroxycinnamic acids, for treating plants [Addition to the list of pesticides and agrochemicals approved for use in the Russian Federation, 2001].

 However, this drug has not yet been used on flax flax and did not give all the claimed technical results.

 The closest technical solution to the analogue is the technology of growing (method of growing) flax flax, including autumn main tillage and spring pre-sowing, pre-sowing seed treatment, namely dressing, sowing with high-quality seeds, crop care, which consists in pre-emergence harrowing and seedling treatment with herbicides mixed with macro- and micronutrient fertilizers at the “herringbone” phase for weed and disease control, harvesting with primary treatment with a dewlobe [16-p. 433-439].

 The disadvantages of the latter is the use of toxic substances without the possibility of reducing their consumption rates.

 The above preparations are not cheap, they are difficult to prepare on the spot or they do not have the necessary complex effect, and their effects on many specific qualitative and quantitative parameters of the crop structure are not described in the literature.

 It should also be noted that different varieties of flax flax may react differently to fertilizers and complexes of growth regulators with herbicides and insecticides, therefore it is important to create protective and stimulating complexes that could be used with herbicides and insecticides on most cultivated varieties of flax long-haired.

 The problem to which the invention is directed is to increase the yield of flax seeds and straw while improving the physico-mechanical characteristics of the stem and flax fiber, increase frost resistance, resistance to drought and lodging, pests and diseases, the lack of drug accumulation in the plant with high efficiency and low consumption rate, high environmental safety for the environment, reducing the cost of the drug in case of purchase.

 The task is achieved by autumn main and spring pre-sowing tillage, seed dressing, pre-emergence harrowing and crop care, which includes two treatments of crops with zircon at a rate of 0.1-1.0 mg / ha, and the first is carried out at a plant height of 2-3 cm and the second treatment at a plant height of 3-8 cm, the flow rate of the working fluid is set to 200-400 l / ha, harvesting followed by a dewcloth is carried out in the stage of early yellow ripeness (60-70% of the total sown area) and in the stage of full ripeness .

 The method is as follows.

 The cultivation of flax flax was carried out over a layer of perennial herbs (clover). The stratum was initially treated with BDT-7 heavy disc harrows. The formation was raised in the third decade of August with PLN-5-35 plows with skimmers. As the weeds grew, the chaff was treated twice with a KPS-4 cultivator with cultivating paws on spring struts.

 In early spring, the soil was buried with a BZTS-1 harrow to cover moisture. After this, cultivation of the KShP-8 cultivator was carried out to a depth of 7-10 cm. In order not to make several passes of the technique, pre-sowing treatment was carried out with the RVK-5.4 combined unit. At the same time, equalizers were not used, since the previous treatments were performed quite qualitatively.

 Before sowing, the seeds were subjected to air-heat treatment - heating for 3-5 days. For etching used 80% TMTD.

Sowing was carried out both on small plots with an area of 25 m ² , placed using the Latin square method with the number of repetitions of at least four, and in larger areas ranging in size from 0.6 to 100 ha. Seeds used first class. They started sowing when the soil at a depth of 10 cm was warmed up to 6-8 ^o (depending on where the samples were taken). Such sowing allows flax to be spread on the warmer days of August, when the activity of microflora, which provides natural dewlobe, is highest. The application of the proposed method can further accelerate this process. The sowing rate was set by 25 million germinating seeds per 1 ha, which corresponds to the sowing rate of varieties resistant to lodging, since the inventive method improves the lodging resistance of even unstable varieties. Sowing was carried out with a SZL-3.6 linen seeder with a row spacing of 75 mm with a sowing depth of 1.8-2.2 cm.

 To destroy the soil crust, seedlings were harrowed with a BSO-4 mesh harrow.

 At a plant height of 2-3 cm, the first treatment of crops with zircon was carried out, for which a working solution was prepared, consisting of 0.5 mg / ha a.v. zircon, the second treatment was carried out at a plant height of 5-6 cm in the same dose. In both cases, the rate of flow of the working fluid was set at 300 l / ha.

 Harvesting was carried out manually on small plots and with a combine harvester LK-4A with spreading on flax in large areas. The dewy lobe passed for 21-28 days, after which the trust was removed from the field and handed over to the flax mill.

The results of the experiments
We give generalized statistical data on the results of experiments conducted in the Novgorod, Tver, Smolensk regions in 1999-2001. Field trials were performed using randomized repetition.

 The interval of seeding dates April 30 - May 8 for field experiments and May 5-7 - for vegetation.

 Flax harvesting was carried out manually in small-plot experiments and with the combine harvester method in large areas during early yellow ripeness (60-70% of the total sown area) and in the stage of full ripeness.

 For comparison, we present data on the use of well-known protective stimulant drugs produced by domestic and foreign industry and approved for use in the Russian Federation. Processing was carried out in recommended (generally accepted) doses for each drug (tab. 5, 6).

 To determine resistance to drought, vegetation and field experiments were conducted on varieties S-108 and Evelyn (Table 1-4). The terms of sowing, processing and harvesting are similar to the above experiments.

In vegetative experiments, simulated conditions with high temperature (35-40 ^o C) and without watering for 30 days after the stage of "herringbone". Plants treated with the protective-stimulating complex were 20-30% higher than the control ones (without treatment with the protective-stimulating complex), the root system and the plants themselves were better developed.

 The same results were obtained in field experiments in the conditions of a hot summer (July - the first half of August) in 2001, when rainfall was 1.5-2 times less than in the same period of 1999 and 2000.

 To determine the resistance to low temperatures, vegetative and field experiments were conducted on the varieties "Evelyn" and "C-108". Seeds were sown on April 30, seedlings appeared from May 4 to 7.

In growing experiments at a height of 2-3 cm, flax plants were cooled for 12 hours to a temperature of (-3) - (- 5) ^o С. As a result, 80% of the plants (of the number of seedlings) treated with a protective-stimulating complex continued normal growth and development and gave the planned crop. Among the control plants (without treatment with a protective-stimulating complex), 35% continued normal growth, while the rest died or were significantly stunted.

Field experiments in 2000 showed that a decrease in temperature in early May to (-7) ^o C led to the death of most plants and part of the area had to be re-sown. Treatment with a protective-stimulating complex allowed to maintain seedlings and made it possible for plants to develop normally.

Thus, the studies confirm that the use of the claimed method allows you to:
- increase the yield of flax straw;
- increase the yield of flaxseeds;
- increase the content of fibrous fractions;
- increase the resistance of plants to adverse factors - increase frost resistance, resistance to drought and lodging, pests and diseases;
- speed up the process of dewlobes and increase the separability of the trust;
- improve the quality of flax fiber, in particular the parameters given in table 2, 4;
- allows you to use low doses of the ingredients of the protective stimulating complex;
- eliminate the accumulation of the drug in the plant.

List of references
1. N.A. Kudryavtsev, M.M. Yanina, O.L. Ozersovskaya, V.I. Bogomaz. The effectiveness and safety of the use of the drug "Ecost" in flax growing, Agrarian Russia. Scientific and Production Bulletin Ed. I.M.Dolotovsky, 1 (2), 1999, p. 22-27.

 2. N. A. Kudryavtsev, Agat-25 for the protection of flax. G. Protection and quarantine of plants, 3, 2001, p. 29-30.

 3. S.F. Khodyakova, S.N. Kukresh. The use of new growth regulators in the fight against lodging of flax. Reserves of increasing soil fertility, the effectiveness of fertilizers and plant protection products. Collection of scientific works, Gorki, 2000, p. 105-107.

 4. The use of new mineral fertilizers with biologically active substances and trace elements for flax flax. Recommendations, ed. T.V. Golchenko, Gorki, 2000, p. 4-5.

 5. N. A. Kudryavtsev, M. M. Yanina. "Ecost" is a protective-stimulating composition recommended for use on flax culture. Results and prospects for the development of selection, seed production, improvement of cultivation technology and primary processing of flax. Materials of the international scientific-practical conference dedicated to the 70th anniversary of the All-Russian Research Institute of Flax, held November 16-18, 2000. Torzhok, 2000, p. 132-133.

 6. A.N. Dolgikh, B.C. Petrenko, V.I. Shutenko. The influence of growth regulators on the productivity of flax, J. Chemicalization of Agriculture, 6, 1990, p. 61-62.

 7. S.P. Kukresh, S.F. Khodyakova, E.N. Gerasimenko. The effectiveness of micronutrient fertilizers in flax crops on soils of different particle size distribution. Actual problems of adaptive intensification of agriculture at the turn of the century. Materials of the international scientific-practical conference, June 16, 2000, Schuchin, Minsk, Belarusian Publishing Partnership "Halta", 2000, p. 215-217.

 8. B.I. Babich. The effectiveness of 2M-4X in a mixture with ingredients on crops of flax. Actual problems of adaptive intensification of agriculture at the turn of the century. Materials of the international scientific-practical conference, June 16, 2000, Schuchin, Minsk, Belarusian Publishing Partnership "Halta", 2000, p. 218-219.

 9. B.I. Babich. The effectiveness of graminicides on crops of flax. Actual problems of adaptive intensification of agriculture at the turn of the century. Materials of the international scientific-practical conference, June 16, 2000, Schuchin, Minsk, Belarusian Publishing Partnership "Halta", 2000, p. 220-222.

 10. T.N. Lapkovskaya, S.V. Soroka. Actual problems of adaptive intensification of agriculture at the turn of the century. Materials of the international scientific-practical conference, June 16, 2000, Schuchin, Minsk, Belarusian Publishing Partnership "Halta", 2000, p. 222-226.

 11. N.A. Loban, L.G. Sheiko, M.P. Samoilovich. The effectiveness of new protective stimulating drugs and growth regulators on flax. Actual problems of adaptive intensification of agriculture at the turn of the century. Materials of the international scientific-practical conference, June 16, 2000, Schuchin, Minsk, Belarusian Publishing Partnership "Halta", 2000, p. 226-227.

 12. S. L. Vedernik. Varietal responsiveness of flax to mineral nutrition levels and growth regulators. Actual problems of adaptive intensification of agriculture at the turn of the century. Materials of the international scientific-practical conference, June 16, 2000, Schuchin, Minsk, Belarusian Publishing Partnership "Halta", 2000, p. 227-229.

 13.S.F. Khodyakova, V.P. Duktov. The use of growth regulators to improve the sowing qualities of flax seeds. Actual problems of adaptive intensification of agriculture at the turn of the century. Materials of the international scientific-practical conference, June 16, 2000, Schuchin, Minsk, Belarusian Publishing Partnership "Halta", 2000, p. 230-233.

 14.N.N. Melnikov, Yu.A. Baskakov. Chemistry of herbicides and plant growth regulators. State scientific and technical publishing house of chemical literature, M., 1962.

 15. Crop production under the editorship of prof. P.P. Vavilova, M., Kolos, 1975, p. 429-440.

 16. Crop production of the Central Black Earth Region, ed. V.A. Fedotova. Center for the Spiritual Revival of the Black Earth Region, Voronezh, 1998, 294-297.

 17. List of pesticides and agrochemicals approved for use in the Russian Federation, 2001. Appendix to g. "Protection and Quarantine of Plants", 3, 2001, p. 237-265.

Claims (1)

A method of growing flax flax, including the care of crops by treatment with Zircon, characterized in that the care of crops includes additional treatment with Zircon, with the main treatment being carried out at a plant height of 2-3 cm, and additional - at a plant height of 3-12 cm, with the rate of flow of the drug during treatments of 0.1-1.0 mg / ha, and the rate of flow of liquid is 200-400 l / ha.

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