RU2832883C1 - Method for increasing yield of winter rye in conditions of central non-black earth region - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, particularly to cultivation of grain crops. Method of increasing the yield of winter rye in the conditions of the Central Non-Black Earth Region involves soil preparation, pre-sowing cultivation, care of crops before and after wintering, wherein peas for grain are used as a precursor. Seeds of hybrid of the first generation of winter rye ZU Forzetti are used as inoculating material. Nitrogen fertilizers in the form of ammonium nitrate are applied fractionally in three periods of plant growth: in autumn by sprouts in a dose of N₂₅, in early spring N₁₂₅ and in spring in period of stem elongation N₂₅. Sowing is carried out at depth of 4-5 cm with a seeding rate of 2.5 million units/ha of germinating seeds.

EFFECT: proposed method of winter rye yield increase extends the range of products for production of high-quality rye grain due to creation of favourable conditions for growth and development of winter rye hybrid of the first generation, provides high yield and environmental safety of rye grain.

1 cl, 1 dwg, 1 tbl, 1 ex

Description

The invention relates to the field of plant growing and can be used in the conditions of the Non-Black Earth Region.

Winter rye is one of the crops with high productivity, although in terms of yield it is inferior to winter wheat, primarily due to new varieties.

Advanced production experience and the results of scientific research show that if cultivation technology is followed, winter rye can have a yield of more than 40 c/ha (Moscow Region, 1082).

At the same time, the productivity of winter rye largely depends on the provision of nutrients, where a comprehensive approach is needed in the development of nutrition systems and agrochemical measures for optimal timing, application rates and types of fertilizers; in particular, it is necessary to apply mineral fertilizers in doses at different times of winter rye cultivation so that during the development of the plant during the tillering period they are fully supplied with nutrients on sod-podzolic soils in the Non-Chernozem zone.

It should be noted that in modern conditions, the new first-generation hybrid ZU Forzetti, which combines many useful features that allow obtaining high-quality food grain, is grown in the most economical way in the conditions of the Moscow region of the Russian Federation.

During the research, the authors of the invention proceeded from the possibility of the Moscow region, where genetic horizons of sod-podzolic soil are present.

Such agrotechnical methods as selection of predecessors, system of primary and pre-sowing soil cultivation, application of fertilizers, influence of microfertilizers, which promote plant nutrition at different stages of their development.

This leads to the need to search for new technologies for the application of mineral fertilizers in specified doses, but taking into account the phases of plant development during the growing season, in particular, based on a new technical proposal by the authors.

As the main fertilizer after the predecessor - peas for grain, the optimal timing of application of mineral nitrogen fertilizer in the conditions of the Central Non-Black Earth Region is adopted (below are examples of the relationship at different timing of their application).

A method for regulating the growth of grain crops is known, which includes treating seeds and vegetative plants with the growth regulator Larixin, which is isolated from Siberian larch wood. Pre-sowing seed treatment is carried out at a rate of 100-150 ml of the preparation per 1 ton of seeds. Vegetative plants are treated twice: in the phase of the beginning of tube emergence and in the phase of flag leaf appearance, at a rate of 30-70 ml/ha (Patent RU No. 2229213, A01C 1/00, A01N 65/00 dated 27.05.2004).

The disadvantages of this method are the high consumption of the preparation when it is necessary to treat plants during the growing season, the labor intensity and the expensive method of the growth regulator Larixin.

A method for enriching the soil during cultivation of agricultural crops is known (Patent RU No. 2401528, A01C 21/00 dated 20.10.2010), which includes the introduction of organic fertilizer into the soil, which is straw and green mass of after-harvest green manure, which are plowed into the soil in the fall. In this case, chopped straw is used in the amount of 2.4-4.3 t/ha, and as a green manure, first-year red clover with pronounced green mass is used in the amount of 3.5-5.4 t/ha simultaneously with the growth of the grain crop. However, the analogue does not consider other mineral nitrogen fertilizers that are more promising for new varieties and hybrids in specific climatic zones of the country. In addition, the method does not take into account when the application of mineral fertilizers is associated both in terms of timing and at specified doses with three-fold fractional application, satisfying the phosphorus-potassium nutrition of plants, where winter rye especially needs nitrogen during vegetation, ultimately obtaining high-quality grain indicators.

A method of cultivating the soil for winter crops after perennial grasses is known (Methodological recommendations for intensive technologies of cultivating agricultural crops in the Ivanovo region. Ivanovo, 1987, p. 20), including disking of the layer in the 2nd ten-day period of July, cultural plowing after 1-2 days, flat-cutting cultivation with harrowing in the 1st ten-day period of August and pre-sowing cultivation in the 2nd ten-day period of August.

This method of soil cultivation after perennial grasses, the main task of which is to deprive above-ground and underground organs of vital activity and to create conditions for the decomposition of organic residues, does not take into account their diversity and is therefore ineffective in preparing the soil for sowing after root-suckering and rhizome perennial grasses due to the regrowth of plowed plants in winter grain crops.

A method of cultivating the soil for winter rye after perennial grasses is known (Resource-saving technologies of cultivating the soil for winter rye on drained lands. Kalinin, 1990, pp. 12, 13), including disking to 6-8 cm immediately after harvesting the predecessor, plowing to 20-22 cm after 10-12 days, cultivating to 6-8 cm as the weeds germinate and processing with a planer or field leveler.

The disadvantage of the known method of soil cultivation, as well as the above, is its inefficiency when cultivating a layer of root-suckering and rhizome-bearing perennial grasses, such as old-growth eastern goat's rue, which has a powerful root system. Intensive regrowth of eastern goat's rue plants in winter rye crops leads to a decrease in its yield.

Based on the results of research into the state of the art in the field of soil preparation technology, the following method of soil preparation for sowing winter rye after perennial grasses should be adopted as the closest analogue: the method includes harvesting the predecessor and subsequent soil cultivation consisting of disking the layer to a depth of 6-8 cm, cultural plowing to a depth of 20-22 cm 10-15 days after disking and pre-sowing cultivation; in this case, the layer of old-growth eastern goat's rue is subjected to cultivation after its first mowing in the budding phase and additionally, the layer is re-plowed with a two-tier plow with cut out bodies to a depth of 25-27 cm 30-35 days after cultural plowing (Patent RU No. 2325793, A01B 79/02 dated 10.06.2008).

The disadvantages of the described method include the complexity of preparing the soil for sowing winter rye with numerous operations to plow the layer with a plow, in addition, it is not accompanied by the use of methods of introducing mineral nitrogen fertilizers, when the plants are laying rudiments during the tillering period, which affects the increase in yield on sod-podzolic soils with their low soil fertility.

Hence the task of optimizing the doses of mineral nitrogen fertilizers during the vegetation period of plants, which is currently relevant when growing plants using modern technologies, using new varieties and hybrids, for example, winter rye hybrid of the first generation ZU Forzetti.

At the same time, taking into account the relevance of the proposed work in terms of developing highly productive technologies using mineral nitrogen fertilizers, for the conditions of the Central Non-Black Earth Region, namely the Moscow Region, a special methodology for studying research on sod-podzolic soils after the predecessor peas for grain, identifying the formation of a high yield and grain quality of winter rye hybrid variety ZU Forzetti. It should also be noted that the introduction of mineral nitrogen fertilizers into agricultural technology and the study of their effect on sod-podzolic soil, taking into account the phases of plant development, is one of the priority areas for the development of environmentally friendly and resource-saving technologies. The study of the effect of mineral nitrogen fertilizer in agrocenoses of winter rye of the new first-generation hybrid ZU Forzetti and proposed for this region is a new study in the fields of agriculture and plant growing. The hybrid is included in the State Register of Breeding Achievements approved for use in the Russian Federation.

Winter rye of the new generation hybrid ZU Forzetti, the plant is medium-sized, with a waxy coating on the ear, the leaf sheath of the flag leaf is medium. The ear is semi-drooping, medium length, dense. The color of the aleurone layer of the grain is dark. The grain is medium-sized. The weight of 1000 grains is 32-40 g. The average yield in the Central Black Earth region is 62.2 c / ha, the protein in the grain according to the standard in comparison with known ones is inferior by 1.5-2.8%. The vegetation period is 269-307 days. Plant height is 101-139 cm. The hybrid ZU Forzetti has flexible sowing dates. Reliable, with a stable yield for any region and cultivation conditions.

The objective of the invention is to increase the yield of winter rye and its quality and to increase soil fertility by using mineral nitrogen fertilizer on sod-podzolic soils of the Central Non-Black Earth Region in phases of plant development vegetation, using only existing agricultural machinery; to study the relationship between the accumulation of dry matter and the quality indicators of grain at different times of mineral fertilizer application in the conditions of the region.

The problem is solved by the fact that the method of increasing the yield of winter rye in the conditions of the Central Non-Black Earth Region, including operations for soil preparation, crop care before and after wintering, using grain peas as a predecessor, nitrogen fertilizers in the form of ammonium nitrate, pre-sowing cultivation is carried out, seeds of the first generation hybrid of winter rye ZU Forzetti are used as seed material, while mineral nitrogen fertilizers are applied in a fractional way in three periods of plant growth: in the fall after shoots at a dose of N ₂₅ + in early spring N ₁₂₅ + in spring during the period of tube emergence N ₂₅ , sowing is carried out to a depth of 4-5 cm with a seeding rate of 2.5 million pcs. / ha of viable seeds.

The specified set of essential features of the claimed method is compiled taking into account the examples (arguments) given below.

A comparative analysis of the claimed technical solution in comparison with the prototype allows us to conclude that on sod-podzolic soils in the conditions of the Central Non-Black Earth Region, the claimed method for increasing the yield of winter rye using mineral nitrogen fertilizers applied fractionally according to the phases of crop development, promotes rapid and loss-free use of nitrogen fertilizers in the form of ammonium nitrate not only at the beginning of the rye's life, but also during the period of tube emergence (during the tillering period), when the rudiments of the future harvest are laid due to the receipt of nutrients in the soil. According to the content of the studies, which are given below, the application of mineral fertilizers is carried out in doses with fractional application in three periods of plant growth: in the fall upon shoots at a dose of N ₂₅ + in early spring N ₁₂₅ + in spring during the period of tube emergence N ₂₅ , with sowing to a depth of 4-5 cm and a seeding rate of 2.5 million pcs. /ha of viable seeds, and as a hybrid, ZU Forzetti is used, placing it after the predecessor of peas for grain. This means that the crop rotation system is a scientifically based technology for the application of mineral nitrogen fertilizer, three-fold fractional application, designed for implementation on sod-podzolic soil with planning to increase productivity. It can be concluded that a properly developed system of fertilizer application (mineral) ensures an increase in productivity, improvement of product quality, maintaining soil fertility and preventing environmental pollution by three-fold fractional application.

Based on this, we can conclude that the claimed invention meets the patentability criterion of “industrial applicability”, since it can be used in agriculture.

In the experiment, weather conditions in the period 2022-2022 were favorable for the growth and development of winter rye for the effective use of mineral fertilizers by the grain crop. This also depended on the amount of precipitation in the early autumn period and in May-June of the following year and is associated with the sum of average daily air temperatures during the period of active vegetation of plants.

The object of the research was winter rye of the first generation hybrid ZU Forzetti, characterized by stable annual yield.

The predecessor of winter rye is grain peas.

Agrotechnical measures for growing winter rye were built in accordance with the existing zonal recommendations. The sowing date is September 5, sowing with treated seeds, with a SSNT-16 seeder at a seeding depth of 4-5 cm, the seeding rate is 2.5 million pcs. / ha of viable seeds. The estimated dose of mineral fertilizers for the planned yield of 2.5 t / ha of seeds was N ₁₇₅ P ₇₅ K _60. Phosphorus-potassium fertilizers were applied as a background for all options, including control, under pre-sowing cultivation.

The following experimental variants were studied:

1. Control (without fertilizers).

2. Application during cultivation at a dose of N ₇₅ + N ₁₀₀ in early spring.

3. Application in autumn during sowing at a dose of N ₇₅ + in early spring at a dose of N ₁₀₀ .

4. Application in autumn upon emergence at a dose of N ₂₅ + in early spring at a dose of N ₁₂₅ + in spring during the tube emergence phase at a dose of N ₂₅ .

5. Application in early spring at a dose of N ₁₂₅ + tube emergence at a dose of N ₂₅ + heading at a dose of N ₂₅ .

Records and observations during the growing season were carried out on the basis of the "Methodology for Variety Testing of Agricultural Crops" (1986) and "Recommendations for the Methodology of Conducting Observations and Research in Field Experiments" (1973). Mathematical processing of the results was carried out according to B.A. Dospekhov (1985) and using computer programs. The experiments were laid out in quadruple replication. The area of the plot was 120 m ² , the accounting area - 100 m ² .

Research results

In addition to climatic factors, rye productivity was influenced by factors such as soil cultivation, variety selection, and the use of nitrogen fertilizers in variants with three-fold fractional application of fertilizers.

The experimental schemes and qualitative indicators of winter rye depending on the factors are given in Table 1.

The results are also presented in Figure 1 - the yield and grain increase (c/ha) of winter rye according to the variants of application of mineral fertilizers (N) against the background of P ₇₅ K ₆₀ .

It should be noted that in the experiment, nitrogen mineral fertilizers applied in the fall at a dose of N ₇₅ + N ₁₀₀ during the resumption of spring vegetation of winter rye were significantly less effective compared to the variants with three-fold fractional application (Figure 1). The maximum grain yield of winter rye in the variant of applying nitrogen fertilizers at seedlings N ₂₅ + early spring N ₁₂₅ + emergence into the tube N ₂₅ (26.2 c/ha).

The results of the experiment show a high responsiveness of the crop to mineral nitrogen fertilizers. The yield increase in the variants was +5.2; +5.5; +6.6; +5.2 c/ha, respectively, to the control and according to the experimental design.

When analyzing the fat content in the seeds of winter rye of the first generation sowing hybrid ZU Forzetti, it decreased from 2.05% to minimum values of 1.72-1.73%, where a pattern of decreasing fat content in seeds with three-fold fractional application was noted.

Thus, nitrogen fertilizers increased the yield of winter rye in all variants of the experiment. The maximum increase in yield relative to the control in the variant of applying nitrogen fertilizers was: for shoots N ₂₅ + in spring N ₁₂₅ + exit into the tube N ₂₅ and was +6.6 c/ha (or 33.6%), the yield was 26.2 c/ha. When applying nitrogen fertilizers, the protein content increased from 12.3% (control) to 13.4-13.5% in variants with fractional three-fold application. Harvesting was carried out at full grain maturity with direct combining.

Thus, the conducted studies have established the positive effect of mineral nitrogen fertilizers with three-fold fractional application, and it can be recommended for introduction into production in other soil and climatic zones of the Russian Federation, but with adjustments to crop rotations and timing of agricultural measures.

Claims (1)

A method for increasing the yield of winter rye in the conditions of the Central Non-Black Earth Region, including operations for preparing the soil, caring for crops before and after wintering, using grain peas as a predecessor, using nitrogen fertilizers in the form of ammonium nitrate, carrying out pre-sowing cultivation, using seeds of the first generation hybrid of winter rye ZU Forzetti as seed material, while nitrogen fertilizers are applied fractionally in three periods of plant growth: in the fall after shoots at a dose of N ₂₅ + in early spring N ₁₂₅ + in spring during the period of tube emergence N ₂₅ , sowing is carried out to a depth of 4-5 cm with a seeding rate of 2.5 million pcs./ha of viable seeds.