RU2302095C2 - Method of cultivation of spring wheat under extreme continental climate conditions - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention can be used in cultivation of spring wheat at deficiency of soil moisture. Proposed method includes harvesting of preceding crop, stubble cleaning, application or organic and mineral fertilizers, ploughing, extreme of weeds, application of herbicides, nitrogenous fertilizers, sowing and postsowing soil packing. Chinese mustard is used and preceding culture. Minced non-grain part and windfall are distributed over surface of strip. After application of organic fertilizers, stubble cleaning to depth of 12-16 cm is carried out. Mineral fertilizers, phosphorous containing in amount of 15-20 kg/m.d.ha (as to phosphorous) and potash fertilizers in amount of 10-12 kg.m.ha are applied do a depth of 16-18 cm subsoil. In early spring period top dressing is carried out by applying mitrogenous fertilizers in amount of 30-36 kg.m.ha with undercutting of soil upper layer to depth of 8±1 cm. sowing is carried out using three-disk colters to the same depth. Herbicide in form of solution of natural bischofit, density 1.05-1.20 t/cu.m in amount of 300-500 l/ha is applied at sowing.

EFFECT: increased yield of spring wheat and reduced cost.

2 cl

Description

The invention relates to agriculture and is an element of improving the intensive technology of growing spring wheat in conditions of acute deficit of soil moisture.

A known method of cultivating irrigated winter wheat, including calculating the rate of fertilizer for the planned crop and discrete application during the growing season, in which, in order to increase yield and fertilizer efficiency, they are introduced in different doses with irrigation water depending on the consumption of nutrients in a particular growth phase and the development of winter wheat: in the tillering phase - 19-21% of nitrogen from the total norm of nitrogen fertilizers, 24-26% of phosphorus and 25-27% of potassium, in the tubing phase - 41-45% of potassium, in the heading phase of the formation of grains - 21- 23 % nitrogen, 28-31% phosphorus and 19-21% potassium, and only nitrogen in the amount of 14-16% of the total fertilizer rate is introduced into the milk ripeness phase (SU, copyright certificate No. 1496660. A1. M. cl. ⁴ A01B 79 / 02. The method of cultivation of irrigated winter wheat / AP Muravlev, EP Klyuev, AT Baykin, BC Rozhkova (USSR). - No. 4077064 / 30-15. Declared 04/16/1986. Publish. 07/30/1989 Bull. No. 28).

The disadvantages of the described method in relation to the problem we are solving include the fact that in the conditions of arid non-irrigated agriculture, the application of mineral fertilizers for the indicated growth phases of spring wheat plants is ineffective due to the lack of productive moisture in the soil and the technical difficulties of their application in a continuous sowed field.

There is also known a method of growing winter wheat, including sowing and applying phosphorus-potassium fertilizers to the soil before sowing winter wheat, and nitrogen fractionally: by the root method in several stages during the spring vegetation with solid fertilizers and, starting from stage V of organogenesis, by a non-root method in the form of water urine solution, in which, in order to increase the productivity of winter wheat crops and increase the efficiency of the use of nitrogen fertilizers, nitrogen is added in the amount of 17-50% of the total number of nitrogen fertilizers non-root method at the VII-X stages of organogenesis in two or three doses based on 20-40 kg per 1 ha with intervals between 7-10 days between application (SU, copyright certificate No. 1542444. A1. M.kl ⁵ А01В 79/02. A method of growing winter wheat / G.A. Maksimchuk and D. N. Alimov (USSR) .- Application No. 4413547 / 30-15. It is claimed 04/20/1988. Publish. 02/15/1990. Bull. No. 6).

The disadvantages of the described method of cultivation of wheat include the high cost of 1 ton of grain due to the high cost of mineral fertilizer fuel, and due to the large volume of machine-technological operations.

There is also known a method of vegetative top dressing of crops, including the preparation of a fertilizer solution and periodic irrigation of plants by the method of fine sprinkling, in which vegetative top dressing is combined with intraday cycles of regulation of the phytoclimate of crops by the method of fine sprinkling on days when the ambient temperature exceeds the biologically optimal for agricultural crops, this vegetative top dressing with a fertilizer solution is combined with the final to waiting for the intraday cycle at a fertilizer consumption rate of 2 ... 6 ³ / ha; vegetative top dressing and regulation of the phytoclimate by the method of finely dispersed sprinkling of winter wheat crops is carried out from 10 ... 11 to 17 ... 19 hours with intervals of 0.5 ... 20 hours on days when the ambient temperature exceeds 22 ... 25 ° C depending on the variety; as a fertilizer solution, use a mixture of brine of a bischofite arid mineral of sulfate type and an adhesive based on a 16 ... 22% starch glue solution with a viscosity of 12 ... 20 cSt., while the bischofite brine and glue solution are in a mixture in the ratio of 2 : 1-4: 1 (RU, patent No. 2221359. C1. IPC ⁷ АСС 21/00. Method of vegetative top dressing of agricultural crops / A.F. Rogachev, T.I. Mazayeva, N.N. Kosyreva, M.M. Yushkova (RU) - Application No. 2002121702/12, filed August 6, 2002. Published on January 20, 2004, Bull. No. 2).

With an annual amount of natural precipitation of 208-350 mm per year and evaporation of 800-1500 mm, as well as a relative humidity of 20-30% during the growing season of cereal crops, the described method is ineffective.

A known method of moisture accumulation in occupied vapors, including mulching the soil with straw of cereal crops, in which the overwintered and overgrown sideral crops are mowed 5-7 days after the start of the budding phase at an altitude of 18-22 cm, the crushed biomass is left on the soil surface, and in the period of lowering daily average temperatures up to 4-5 ° C, the newly grown afternoon lateral crop is crushed and scented, moreover, when the soil freezes to a depth of 8-10 cm, soil is slit to a depth of 40-45 cm (RU, patent No. 2132602. C1. IPC ⁶ A01B 79 / 02. Method moisture accumulation in occupied vapors / AM Berzin, Yu.V. Bryukhanov, A. A. Shpert, A. A. Chernykh (RU) - Application No. 98110082/13. Declared 05.21.1998. Publish. 07.10.1998).

The disadvantages of the described method include large material and energy costs for soil preparation, when natural precipitation occurs in the autumn-winter period - the latter are distributed to a depth not accessible to the roots of cereal crops, and grain straw as mulch is a collection of pathogens and pests of cereal crops.

A known method of cultivating winter crops in a sharply continental climate, including harvesting the predecessor, stubble cultivation, applying organic and mineral fertilizers, plowing with a turnover of the reservoir, early spring cover harrowing, destroying cold-resistant and heat-loving weeds by cultivating and applying soil herbicides, pre-sowing cultivation fertilizers, sowing and post-sowing rolling, and sowing is carried out taking into account the agro-climatic conditions of the region from 25.08 to 09.09. in a period of not more than 10 days by black steam standards for steppe zones (4.0-4.5) × 10 ⁶ units / ha, dry-steppe zone - (3.5-4.0) × 10 ⁶ units / ha, for semi-desert zones - (2.5-3.0) · 10 ⁶ units / ha (see, for example, Recommendations for winter crops sowing on farms of the Volgograd region in 2004 / Compiled by Alekseenko V.N., Arkantsev M.V., Balakshina V.I. et al. - Volgograd, 2004, 13 pp.

The disadvantages of the described method in relation to the technology of cultivating spring wheat in a sharply continental climate include the fact that during the year the stock of productive moisture accumulates in the upper layer in the root habitat and one or perennial weeds are completely or almost completely destroyed. This ensures a given yield.

The essence of the claimed invention.

The problem to which the claimed invention is directed is to obtain a guaranteed spring wheat crop when cultivated in a sharply continental climate.

The technical result is an increase in yield and cost reduction.

The specified technical result is achieved by the fact that in the known method of cultivating spring wheat in a sharply continental climate, including harvesting the predecessor, stubble cultivation, applying organic and mineral fertilizers, plowing, weed control by applying herbicides, applying nitrogen fertilizers, sowing and after sowing, according to the invention as a precursor, sarepta mustard is used, crushed non-grain part and scavenger is distributed over the surface of the harvested strip, after Nia organic fertilizer stubbling carried out to a depth of 12 ... 16 cm, fertilizers - phosphorus-dose of 15 ... 20 kg a.i. per hectare (phosphorus) and potash in a dose of 10 ... 12 ct. D.V. per hectare is applied subsoil to a depth of 16 ... 17 cm, in the early spring period, surface application of nitrogen-containing fertilizers is carried out at a rate of 30 ... 36 ct. D.V. (nitrogen) per hectare and cutting of the topsoil to a depth of 8 ± 1 cm, and sowing is performed with three-disc coulters to the same depth; during sowing, a bischofite mineral brine with a density of 1.05 ... 1.20 t / m ^{3 with a} norm of 300 ... 500 l / ha is superficially applied.

Information confirming the possibility of implementing the claimed invention are as follows.

The method of cultivating spring wheat in a sharply continental climate provides for the sequential execution of the following machine technological operations: harvesting the predecessor, stubble cultivation, applying organic and mineral fertilizers, plowing, weed control by applying herbicides, applying nitrogen fertilizers and post-sowing rolling.

Sarepta mustard Brassica juncea (L.) Czem is used as a precursor. et coss. in czem. zoned varieties VNIIMK 11, VNIIMK 517, VNIIMK 519, Donskaya 5, Donskaya 8, Zarya, Kamyshinskaya 10, Unsupplemented 2, Rushena, Slavyanka, Yuzhanka 15. As an exception, the use of mustard mustard winter wheat Brassica juncea (L.) Czem is possible. et coss. in Czem varieties Suzdal. During the growing season of mustard, the soil is sanitized by pathogenic and pathogenic microorganisms. When harvesting mustard with grain combines, the non-grain part is crushed and, together with the threshing products, is evenly distributed on the surface of the harvested strip. Losses of mustard seeds and carrion are evenly distributed on the surface of the harvested field.

Following the harvest, organic fertilizers are applied in the form of manure of two-, three-year decomposition at a rate of 10 ... 30 t / ha. Manure is brought to the field surface by spreaders of organic fertilizers of the ROU-6 or ROU-8 models. After applying organic fertilizers, stubble cultivation is carried out (by cultivators from the LDG-5, LDG-10, LDG-15, LDG-20 family, as well as by the BDT-3,5, BDT-7 disc harrows, an aggregate tractor of draft class 3 (DT-75M , T-150, T-150K, BT-100, etc.). The cutting of the upper layer of crop and root residues, undecomposed residues of organic fertilizers is performed to a depth of 12 ... 16 cm. Rare rain showers accumulate in the upper soil layer. moisture, sufficient nutrients and unlimited heat and sunlight since June September contributes to the intensive growth of heat-loving and perennial weeds, developing a powerful vegetative and root mass. PPU-2-110 models.When cutting the soil layer, weed vegetation is destroyed, fertilizers are applied (P, K) and the upper soil layer is loosened. Phosphorus-containing fertilizers contribute a dose of 15-20 kg ai per 1 ha (phosphorus), and potash dose of 10 ... 12 kg a.i. on ha. In the early spring, nitrogen-containing fertilizers are applied superficially with a dose of 30 ... 36 kg ai. on 1 ha. Then, the upper soil layer is trimmed with special flat-cutting working bodies to a depth of 8 ± 1 cm. When cutting the upper soil layer, soil aggregates are crushed, shoots of cold-resistant weeds are destroyed, and nitrogen fertilizers are evenly distributed at a depth of the soil layer (up to 8 cm). Sowing is performed with three-disc coulters to a depth of 6 ... 8 cm with 0.15 m row-spacings. The front coulter disc has plant and root residues to a depth of 8 ± 1 cm. In this case, the disc coulter is stable, not clogged by soil and crop and plant residues and provides the job with a seed placement depth. The seeding rate of zoned spring wheat varieties, for example, Albidum 28, is (2.5-3.5) × 10 ⁶ units per ha. When sowing, mustard is introduced in the form of a brine of the natural mineral bischofite with a density of 1.05 ... 1.20 t / m ^{3 at a} rate of 300 ... 500 l / ha. The main component of bischofite - MgCl ₂ × 6H ₂ O - destroys pathogenic microorganisms in the upper layer of soil and crop residues, and wheat germ protects against diseases and agricultural pests. Post-sowing rolling is carried out with ring-spur rollers ZKKSh-6A. This ensures both the contact of seeds with the soil, and the access of soil moisture from the lower soil horizons.

The effectiveness of the described techniques for the cultivation of spring wheat varieties Albidum 28 allow guaranteed to receive up to 1.4-1.6 tons of grain per hectare. The mass of 1000 grains increased to 37.1-38.2 g. The height of the plants was 0.63-0.67 m. The weight of the spike was 0.8-1.1 g. The number of productive grains was 13-14 pcs / spike. Spike length 6.1-7.7 cm.

Claims (2)

1. A method of cultivating spring wheat in a sharply continental climate, including harvesting the predecessor, stubbing, applying organic and mineral fertilizers, plowing, killing weeds, applying herbicides, applying nitrogen fertilizers, sowing and post-sowing rolling, characterized in that it is used as a precursor Sarepta mustard, crushed non-grain part and carrion are distributed on the surface of the harvested strip, after applying organic fertilizers, stubble is peeled to a depth of 12 .. .16 cm, mineral fertilizers - phosphorus-containing at a dose of 15 ... 20 kg a.a. / ha (for phosphorus) and potash fertilizers at a dose of 10 ... 12 kg a.a. / ha make subsoil to a depth of 16 ... 18 cm, in the early spring, a surface application of nitrogen-containing fertilizers is carried out at a dose of 30 ... 36 kg ai / ha and cutting of the upper soil layer to a depth of 8 ± 1 cm, and sowing is performed with three-disc coulters to the same depth. 2. The method according to claim 1, characterized in that the herbicide in the form of a brine of a natural mineral bischofite with a density of 1.05 ... 1.20 t / m ³ and a norm of 300-500 l / ha is applied during sowing.