RU2837900C1 - Method to increase yield of winter wheat in conditions of southern part of non-chernozem zone - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: disclosed is a method of increasing yield of winter wheat in the southern part of the Non-Chernozem zone, involving the use of precursors, turning of stubble, ploughing, cultivation, sowing of seeds with a given depth of seeds seeding, and harvesting. Peas or white mustard is used as a precursor; during the stem elongation phase, plants are treated with the herbicide Prishans, “СЭ” in dose of 0.6 l/ha, and cultivation is carried out with a “КПЭ”-3.8 cultivator to depth of 8-10 cm. Then winter wheat is sown.

EFFECT: invention enables to obtain weed-free winter wheat grains, while reducing crop losses and increasing crop productivity.

1 cl, 1 tbl

Description

The invention relates to agriculture and can be used for methods of growing grain crops.

During the development process, winter wheat is most demanding of microelements such as nitrogen, potassium and phosphorus. The most significant consumption of nitrogenous substances, which stimulates plant growth and development, occurs during the period of emergence into the tube before the wheat earing phase. Nitrogen is responsible for the growth of the above-ground mass, the growth of the root system is activated by phosphorus, and potassium strengthens the plant stem.

For the conditions of the Ryazan region on dark gray forest soil, the introduction of nitrogen-phosphorus fertilizers should be carried out under cultivation or pre-sowing cultivation. In this case, it plays a special role in the initial period of growth and development of winter wheat. This is primarily due to the use of biological fertilizers, as an important way to increase the yield and quality indicators of grain crops during wintering.

One of the technological methods is the selection of optimal predecessors in crop rotation, then determining the effectiveness of the integrated use of a plant protection system against weeds, soil cultivation, taking into account the choice of predecessor in agrocenoses of winter wheat in the conditions of the south of the Non-Chernozem zone.

A set of agricultural practices is known that prevent the death of winter crops when plants are exposed to unfavourable factors of the winter period: the choice of optimal predecessors in crop rotation, sowing dates, fertiliser systems, dates and methods of soil cultivation, snow retention, etc., which contribute to the activation of autumn growth, plant development and increased winter hardiness (Crop Production of the Central Black Earth Region / Ed. V.A. Fedotov, V.V. Kolomeichenko, G.V. Korenev. - Voronezh: Center for the Spiritual Revival of the Black Earth Region, 1996, pp. 90-96; Physiology and Biochemistry of Agricultural Plants / N.N. Tretyakov, E.I. Koshkin, N.M. Makrushin et al.: Kolos, 1998, pp. 518-519, 554).

There is also evidence that the growth and development of plants grown in mixed crops is determined by their allelopathic (chemical) interaction. Moreover, some components can inhibit, while others stimulate the process (Presnyakova E.V. Agroecological study of winter hardiness of winter wheat varieties in the forest-steppe zone of the Volga region / Abstract of Cand. Sci. (Biol.) Dissertation. Ramon, 2003, pp. 16-17).

A method of combating fungal diseases of spring wheat is known (Abstract of the report of the 4th international conference "Regulators of plant growth and development", Moscow, 1997, pp. 162, 236), which consists of the following. Spring wheat at the tillering stage and the beginning of heading is treated with the preparation Silk at a dose of 40 g/ha (the concentration of the working solution is 100 mg/ml). According to the second option, the seeds of spring wheat are treated before sowing with an aqueous solution of the preparation Silk at a concentration of 100 mg/ml at a consumption of the working fluid of 10 l/t.

The known method allows increasing the resistance of vegetative plants to phytopathogens and obtaining an increase in grain yield of 3.5-3.7 c/ha.

The disadvantage of the known method is the insufficient biological effectiveness of the Silk preparation, as well as the insufficient functional capabilities of the method.

The method "Methods for regulating the growth and development of grain crops" is known (Patent RU No. 222100, A01G 7/00, A01N 65/00, A01C 1/00 dated 27.11.2003). The method consists of treating winter and spring wheat, as well as barley, with the growth regulator Biosil, obtained on the basis of a natural mixture of triterpene acids. Isolated from the wood greenery of Siberian fir by extraction with aliphatic alcohols, the seeds are treated once and the vegetative plants of wheat and barley are treated twice. The optimal consumption rate of the preparation is 20-50 ml/ha for vegetative plants and 30-50 ml/t for seeds.

The disadvantages of the described method, as applied to the problem we are solving, include the fact that the preparations Silk and Biosil used do not fully provide adequate nutrition for plants throughout the entire growing season. Winter wheat is treated once, and in our case, crops are treated at the beginning of the emergence of the tube, while the best method of pre-sowing treatment of gray forest soil is the cultivation of KS-12M to a given depth, and the yield of wheat grain is also taken into account in a multifactorial experiment using a preceding crop of peas or white mustard, as well as in the use of herbicide treatment according to the phases of vegetation.

A method for "Wheat growth regulation" is known (Patent RU No. 2409028, A01N 25/02, A01N 37/44, A61P 21.00 dated 20.01.2011). Spraying of vegetative plants with aqueous solutions of either serine, or alanine, or glycine, with a concentration of 0.1-0.00001% is carried out. The invention makes it possible to increase the efficiency of wheat cultivation. Then, the vegetative wheat plants are sprayed with the prepared aqueous solutions with different amino acid concentrations at a consumption rate of 150-250 l/ha.

The disadvantages of this method include the following. First of all, the presented studies of the amino acid series, alanine, glycine, cannot be considered generally available substances, especially for an agricultural producer whose goal is to achieve high and stable yields of grain crops.

Our study applies the determination of the efficiency of the integrated use of plant protection systems against weeds, soil cultivation and the choice of a predecessor in winter wheat agrocenoses.

The precursors used in our study significantly influenced crop yield, soil cultivation before sowing seeds, and weed control measures.

The essence of the claimed invention is as follows.

The problem to be solved by the claimed invention is the selection of a predecessor of peas or white mustard, pre-sowing soil treatment for winter wheat, as well as chemical measures for weed control in order to study the effect of a three-factor system of wheat growing technologies in combination with various herbicides, as well as to establish the effectiveness of the effect of these herbicides on the stability of the winter wheat crop in the conditions of dark gray forest soil of the Ryazan region.

The technical result is the development of methods for managing the production process according to a three-factor scheme when selecting a predecessor in winter wheat agrocenoses for the formation of planned yields of high-quality grain using herbicides in the conditions of the south of the Non-Black Earth Region, including the Ryazan Region.

The specified technical result is achieved by the fact that in the known method for increasing the yield of winter wheat, including the selection of a predecessor, peeling of crop residues, plowing, cultivation, sowing seeds with a given seed placement depth, harvesting, according to the invention, obtaining a consistently high yield for the southern part of the Non-Chernozem zone by selecting a predecessor is achieved by treating in the tube emergence phase as a plant protection against weeds with the herbicide Prishans, SE at a dose of 0.6 l/ha, respectively, with the use of cultivation with the KPE-3.8 cultivator to a depth of 8-10 cm, then sowing winter wheat seeds.

The predecessors for factor A were peas and white mustard.

Example. The cultivation was started according to factor B - disking with a BDP 6x4 disc harrow; cultivation with a KS-12M universal cultivator; cultivation with a KPE-3.8 anti-erosion cultivator. The cultivation depth was 8-10 cm. 12 days before pre-sowing cultivation, the plowing depth was 20-22 cm with a PC-4.5 chisel plow.

For factor C - chemical measures to combat weeds: 1. Control (no treatment). 2. Herbicide Shansi, VDG - spraying crops in spring during the tillering phase at a dose of 0.05 kg/ha. 3. Herbicide Prishans, SE - spraying crops at the beginning of the tube emergence phase of winter wheat at a dose of 0.6 l/ha. 4. Herbicide Dianat, BP - spraying crops during the tillering phase at a dose of 0.6 l/ha.

The experiment was repeated 4 times.

The studies were conducted in a grain crop rotation system for two options, the predecessor being peas and white mustard.

Study material: peas and white mustard. The common property of these crops is the sorokuschirovanie role. With proper care of crops, they can approach pure fallow.

The preparation Shansi, VDG is a post-emergence herbicide for suppressing broadleaf weeds in crops of cereals, corn, flax and soybeans. The preparation penetrates into plant tissue through the leaf apparatus and moves to the growth points of the stems and roots of the weed. Inhibits the synthesis of an enzyme that affects cell division. A few hours after application, sensitive weeds stop growing and consuming moisture and nutrients from the soil. Active ingredient: thifensulfuron-methyl. Consumption of working fluid is 200-300 l/ha.

The drug Prishans, SE is a systemic two-component post-emergence herbicide of a broad spectrum of action for protection of grain crops from annual and perennial dicotyledonous weeds. The composition of two active substances: Florasulam (6.25 g / l) and 2.4 D (2-ethylhexyl ether) inhibits the process of photosynthesis. Hydrolytic breakdown of proteins, inulin and starch occurs in weeds. The intake of potassium, phosphorus and nitrogen by plants is sharply reduced. Water exchange is disrupted, the turgor state is lost, the plant is sleepy and withers. The second substance - Florasulam has a systemic effect. It penetrates the plant through the leaves and roots, does not penetrate the grain. The mechanism of action is to inhibit acetolactate synthase. It is a key enzyme in the formation of valine, isoleucine and leucine. The use of the preparation removes problematic weeds for grain crops, including cleavers, chamomile species and sow thistle. Princen's SE penetrates the plant within an hour after treatment, weed growth stops within 24 hours. The consumption of the working fluid is 200-300 l/ha.

The drug Dianat, BP is a highly productive systemic herbicide of selective action. Its main task is to destroy broad-leaved weeds that "strangle" agricultural crops and hayfields. This is a low consumption in crop rotation. The main active substance in the herbicide is dicamba (dimethylamine salt), present in a concentration of 480 g / l. Fight against many annual and perennial dicotyledonous weeds such as rhizome, hogweed, buttercup, sow thistle. Diamba penetrates plant cells through leaves and roots (for this, the soil must be sufficiently moist) and captures growth points. The rate of application of the drug depends on the type of crop and the time of treatment. Consumption of the working fluid is 150-300 l / ha. Plants die within 2-3 weeks.

The yield of experimental winter wheat in 2022-2023 depended not only on the studied factors (herbicide treatments against weeds and the previous crop), but also on the prevailing weather conditions.

The analysis of the crop structure in 2022-2023 in a multifactorial experiment is presented in Table 1 (average indicators).

The use of pre-sowing treatment of gray forest soil is the cultivation of KS-12M to a depth of 8-10 cm, the average yield was 4.55 t / ha, where the increase in relation to disking BDP 6 × 4 to a depth of 8-10 cm was 0.4 t / ha (9.6%). The best herbicide based on the observations was identified for the herbicide Prishans, SE at the beginning of the tube emergence phase at a dose of 0.6 l / ha, which significantly affected the yield of winter wheat and amounted to 5.07 t / ha (average), while the cost per unit of production directly depended on the yield.

Claims (1)

A method for increasing the yield of winter wheat in the southern part of the Non-Chernozem zone, including the use of predecessors, peeling of crop residues, plowing, cultivation, sowing seeds at a given seed placement depth, harvesting, characterized in that peas or white mustard are used as a predecessor, in the tube emergence phase, as protection of plants from weeds, treatment with the herbicide Prishans, SE is carried out at a dose of 0.6 l/ha, and cultivation is carried out with a KPE-3.8 cultivator to a depth of 8-10 cm, after which winter wheat is sown.