RU2829365C1 - Method of growing spring durum wheat in samara region conditions - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, agriculture and plant growing, in particular to production of grain of durum spring wheat varieties, adapted to soil and climatic conditions of chernozem soils of Samara region. Method involves soil treatment after harvesting the precursor using a flat-cutting method, early spring harrowing, pre-sowing treatment of seeds, sowing, application of a complex of mineral fertilizers into the main application and into rows during sowing, sowing care and harvesting. Pre-sowing treatment of seeds is carried out with a combined insect-fungicide Polaris Kvatro, SME with a consumption rate of 1.0 l/t. Tillage is carried out by flat-cutting method to depth of 20-22 cm. As the soil matures, harrowing is carried out to depth of 8-10 cm, followed by the main application of ammonium nitrate in dose of 150 kg/ha. Sowing is carried out from 25 to May 5 with a seeding rate of 200 kg of germinating grain per hectare with simultaneous row application of nitrogen-phosphorus-potassium-sulphur-containing fertilizer, taken in ratio of 13:19:19:6 in dose of 150 kg/ha. At the tillering stage, a tank mixture based on the herbicide Balerina, SE – 0.4 l/ha and insecticide Borey, SC – 0.1 l/ha is used for protection against weeds and pests. At the heading stage, repeated treatment with plant protection agents is carried out using a tank mixture in the composition of insecticide Borey, SC – 0.1 l/ha, and fungicide Ace, CSC – 1.0 l/ha.

EFFECT: method makes it possible to increase wheat yield due to reduction of weediness and damage of plants with diseases and pests with preservation of high sowing properties of seed material.

1 cl, 1 tbl

Description

The invention relates to the field of agriculture, farming and plant growing, in particular to the production of grain of varieties of hard spring wheat adapted to the soil and climatic conditions of the chernozem soils of the Samara region.

A method for growing spring durum wheat RU 2804097 C1 dated 26.09.2023 is known. The disadvantage of the method is the application of low doses of mineral fertilizers, which does not allow achieving the potential yield of the agricultural crop. A method for growing winter varieties of durum wheat is also known, including the use of biopreparations when cultivating on light chestnut soils RU 2614879 C1 dated 30.03.2017, the disadvantage of which is the impossibility of using this method on chernozem soils of the Samara region due to significant discrepancies in soil and climatic characteristics and a method for growing durum wheat in artificial climate conditions RU 2020803 C1 dated 15.10.1994, which is also not suitable for the soil and climatic conditions of the Samara region.

The closest to the proposed method of growing hard wheat in the conditions of the Samara region in terms of the set of essential features is the Method of growing hard spring wheat in the West Siberian region RU No. 2804097 dated 2023.09.26. The method includes cultivating the crop in a grain-fallow-row crop rotation with sowing wheat in May after fallow with a seeding rate of 5.5 million viable grains per hectare, in a five-field crop rotation with soil cultivation using a flat-cutting method to a depth of 20-22 cm, early spring harrowing, 3-4 cultivations to a depth of 6-8 cm in the spring-summer period, pre-sowing seed treatment by pre-sowing seed treatment with the insectofungicide Tuareg, SME - 1.2 l / t, the use of herbicides in the form of a tank mixture Mortira, VDG - 0.025 kg / ha and Lastik Top, MKE - 0.45 l / ha, the introduction of mineral fertilizers - a complex of nitrogen and phosphorus fertilizers in the main application and in rows during sowing at a dose of N30P45, sowing time May 14-16, crop care - in the earing phase, foliar feeding with urea is carried out - 30 kg / ha of active ingredient with simultaneous treatment with the fungicide Zantara, KE - 0.9 l / ha, a retardant HEFC, BP is applied once in the tube emergence phase - 1 l / ha, and single-phase grain harvesting is carried out in the phase of full grain maturity with a moisture content of no more than 14-15% and stem stand overmaturity of no more than 7-8 days.

The disadvantages of the method include a low balance of nutrients, which does not ensure high yields of hard spring wheat. The proposed analogue also takes into account the mandatory use of a growth regulator, a retardant and additional foliar fertilization of crops with urea at a dose of 30 kg / ha, increasing production costs and reducing the profitability of crop cultivation.

From the analysis of known technical solutions it was revealed that the technical problem in this area is the need to create new improved methods of cultivating spring durum wheat varieties adapted to the soil and climatic conditions of the chernozem soils of the Samara region.

The technical result of the proposed technical solution is an increase in wheat yields due to a decrease in weed infestation and plant damage by diseases and pests while maintaining high sowing properties of the seed material.

To obtain increased yields of spring hard wheat, it is necessary to implement a full range of soil conservation technology techniques: the use of crop rotation systems, including clean fallow, compliance with agricultural technology requirements that take into account the biological characteristics of varieties, due to differences in the duration of interphase development of the crop, as well as the reaction to macro- and microelements and allowing the elimination of the consequences of unfavorable weather conditions.

The declared technical solution is aimed at intensifying the use of mineral fertilizers in order to achieve the potential crop yield, taking into account the soil and agroclimatic conditions of the territory of the Samara region against the background of standard technology for cultivating spring grain crops and the most popular and widely available plant protection products on the market.

In order to solve the technical problem and achieve the stated result in the method of growing spring hard wheat in the conditions of the Samara region, including soil cultivation after harvesting the predecessor by the flat-cutting method, early spring harrowing, pre-sowing seed treatment, sowing, application of a complex of mineral fertilizers in the main application and in the rows during sowing, crop care, harvesting, according to the proposed invention, pre-sowing seed treatment is carried out with a combined insecticide-fungicide Polaris Quattro, SME with a consumption rate of 1.0 l / t, soil cultivation is carried out by the flat-cutting method to a depth of 20-22 cm, as the soil ripens, harrowing is carried out to a depth of 8-10 cm with subsequent main application of ammonium nitrate at a dose of 150 kg / ha, sowing is carried out from May 25 to 5 with a seeding rate of 200 kg of viable grains per ha with simultaneous row by applying nitrogen-phosphorus-potassium-sulphur-containing fertilizer taken in the ratio of 13:19:19:6 at a dose of 150 kg / ha, at the tillering stage, to protect against weeds and pests, a tank mixture based on the herbicide Ballerina, SE - 0.4 l / ha and the insecticide Borey, SK - 0.1 l / ha is used, at the heading stage, repeated treatment with plant protection products is carried out using a tank mixture of the insecticide Borey, SK - 0.1 l / ha and the fungicide Ace, KKR - 1.0 l / ha. Single-phase harvesting in the phase of full grain maturity at a moisture content of no more than 14-15% with crushing and scattering of stubble residues. The overmature stem stand should not be disturbed.

Examples of the method implementation. Information confirming the possibility of implementing the claimed invention consists of studies conducted on the effect of various variations of agricultural practices on the yield of spring hard wheat of the Bezenchukskaya Krepost and Luch-25 varieties in 2021-2023 with the participation of the Russian State Agrarian University - Moscow Agricultural Academy named after K.A. Timiryazev.

The soil cover of the experimental plot is represented by ordinary clayey chernozems, medium-deep, low-humus (4.3%), pH of the aqueous extract is 6.8.

The use of mineral fertilizers was considered in the form of ammonium nitrate application as the main and cheapest fertilizer in different dosages (N) and additional top dressing during sowing with a combined seeder directly into the rows (NPKS). The complex use of a combination of N150 in the main application and NPKS150 as a top dressing during sowing showed the greatest cost-effective increase in the yield of spring hard wheat by 22-26%) depending on the variety, varying from 10% yield increase under unfavorable climatic conditions to 38% yield increase under favorable climatic conditions.

Thus, the conducted field experiments showed that when growing spring hard wheat in the studied soil and climatic conditions, it is possible to reveal the biological potential of the cultivated variety using experimentally established doses of mineral fertilizers and observing the recommended agrotechnical measures.

The proposed method allows to increase crop yields, as well as reduce crop infestation, plant disease and pest infestation when growing spring hard wheat in the conditions of the Samara region.

Claims (1)

A method for growing spring hard wheat in the Samara region, including soil cultivation after harvesting the predecessor using a flat-cutting method, early spring harrowing, pre-sowing seed treatment, sowing, application of a complex of mineral fertilizers in the main application and in rows during sowing, crop care, harvesting, characterized in that pre-sowing seed treatment is carried out with a combined insecticide-fungicide Polaris Quattro, SME with a consumption rate of 1.0 l / t, soil cultivation is carried out using a flat-cutting method to a depth of 20-22 cm, as the soil ripens, harrowing is carried out to a depth of 8-10 cm with subsequent main application of ammonium nitrate at a dose of 150 kg / ha, sowing is carried out from May 25 to May 5 with a seeding rate of 200 kg of viable grain per ha with simultaneous row application nitrogen-phosphorus-potassium-sulphur-containing fertilizer taken in the ratio of 13:19:19:6 at a dose of 150 kg/ha, at the tillering stage for protection against weeds and pests use a tank mixture based on the herbicide Ballerina, SE - 0.4 l/ha and the insecticide Borey, SK - 0.1 l/ha, at the heading stage repeat treatment with plant protection products is carried out using a tank mixture consisting of the insecticide Borey, SK - 0.1 l/ha, and the fungicide Ace, KKR - 1.0 l/ha.