UA20143U - Method to grow winter wheat - Google Patents

Abstract

A method to grow winter wheat includes basic and presowing tillage, fertilizer application, sowing, field cultivation and harvesting. The surface tillage is carried out by disk units or combined ones with the subsequent cultivation. Mineral fertilizers are applied under the basic tillage, the sowingis postponed from the optimum terms till later ones, wheat varieties adapted to later sowing terms are sown, the sowing rate is increased, the seed is treated with special Vitawax type preparations, the depth of covering the seed is reduced, fertilizing of the sown fields with nitrogen fertilizers is carried out up to recovering spring plant vegetation.

Description

Description of the invention

The useful model refers to the field of agriculture, to the technologies of growing 2 agricultural crops.

The well-known method of growing winter wheat includes the main and pre-sowing tillage, application of mineral fertilizers, sowing, plant care, harvesting | Netis I.T. Winter wheat in the Steppe zone. - Kherson: Aylant, 2004. - 95 p.. This method is closest to the declared one in terms of positive effect and achieved results. The disadvantage of this method is that, under dry autumn conditions, it provides low 70 wheat yields, and crops are often replanted in the spring.

The task of the useful model is to obtain a high grain yield by optimizing the conditions for growing winter wheat in years with a dry autumn.

The set task is achieved by carrying out surface tillage of the soil with disk or combined units to a depth of 7-vsm with subsequent cultivation at 5-bsm, under the main tillage 72 pounds of mineral fertilizers are applied at the rate of M zoRlo, depending on the content of MRK in the soil, sowing is transferred from optimal for later dates - on September 25-October 5, wheat varieties adapted to late sowing dates are sown, the sowing rate is increased to 6-7 million. of similar seeds per 1 ha, the seeds are treated with specific preparations such as Vitavax at the rate of 2.5 kg/ha, the depth of seed wrapping is reduced to 3-4 cm, the crops are fertilized with nitrogen fertilizers in the Meo dose until the spring vegetation of the plants resumes.

In the Steppe zone, the yield of winter wheat varies considerably from year to year. One of the main reasons for this phenomenon is the autumn droughts, which are repeated here on average every other year. In such years, the soil is so dry that it is almost impossible to get seedlings of winter crops. Under such farming conditions, wheat crops are reduced or sown in dry soil. At the same time, the seedlings appear late - at the end of October or at the beginning of November, after the rains, which fall here most often in the middle of October. By winter, the plants do not have time to sprout, create only 1-3 leaves, thinned crops and ensure low yields or are replanted in the spring. what

The analysis of long-term data conducted at the Institute of Agriculture of the Southern Region of the Ukrainian Academy of Sciences showed that under dry autumn conditions, the gross grain harvest of winter wheat, regardless of the conditions of moisture in spring and summer, decreases in this zone by an average of 4795 compared to years when the autumn was favorable for obtaining seedlings and good plant development. For example, in the Kherson region, under favorable autumn conditions, the gross harvest of wheat grain amounted to an average of 1,709,000 tons. tons, and in a dry autumn - 90,000 tons, in some years - only 400-450,000 tons. In such years, there is barely enough grain for seeds and baking bread. All this causes huge losses to farms and inhibits the further increase in grain production. --

Studying this problem, it became clear that the reasons for low harvests of winter wheat grain lie not so much in Ha») autumn drought, but in the imperfection of the existing technology of its cultivation and lack of adaptation to the autumn 325 drought. Many years of research allowed us to improve this technology and adapt it to the autumn drought. with

Its use in a dry autumn makes it possible to more fully satisfy the needs of plants and form highly productive crops. The provisions of this technology are as follows:

Surface tillage was used. In the conditions of arid autumn, the main problem is obtaining /-«F timely seedlings of wheat, which largely depends on the quality of soil cultivation. Dry soil does not lend itself well to cultivation, it is accompanied by the formation of lumps, which is one of the main reasons for the uneven appearance and liquefaction of seedlings. Under such conditions, only surface treatment was applied to all non-pair precursors

I" with disc or combined aggregates to a depth of 7-8 cm. Then, with the help of cultivations to a depth of 4-5 cm and rolling, the soil was well leveled and brought to a fine lumpy state. This contributed to the conservation of moisture, greater contact of the sown seeds with the soil and improved the conditions for obtaining seedlings.

Sowing was postponed until later. In fields where there is enough moisture in the soil for germination, wheat was sown at the optimal time - September 5-20. If the soil was dry during this period, then wheat was not sown, because during av | long-term absence of rains, part of the seeds lose germination, as a result of which crops are thinned out. Therefore, in years when the soil was dry, wheat was sown later - within the permissible time - from September 25 to October 5. During this period, the weather is cooler and the seeds do not spoil, and the crops are not thinned. They sowed before the rain, because otherwise the sowing, and therefore the "travel" of 20 seedlings, is delayed for 5-7 days, which worsens the development of plants in the fall.

Varieties adapted to late sowing periods were sown. When sowing winter wheat in acceptable and late periods in dry soil, the highest grain yields are provided by varieties that develop intensively in the fall, have good compensatory properties and are able to create more productive stems from the shoots of spring bushing. Currently, the best varieties for these purposes are Znahidka, Erythrospermum 1936, Khersonska 99, Rusa. Thus, in our 29 experiments in 2002, when wheat was sown at the end of October after corn for silage, the intensive variety Khersonska from Bezosta provided a grain yield of 17.7 c/ha, and the most intensive early ripening variety Rusa - 26.9 c/ha or 9.2 c/ha ha more In 2005, the difference in favor of Russia reached 8.3 c/ha. This is explained by the fact that Rusa formed almost twice as many productive stems as Kherson Bezosta. Therefore, varieties of intensive type, especially semi-dwarf ones, are less suitable for late sowing in dry soil. 60 The seed sowing rate was increased. In the presence of moisture in the soil, winter wheat on unpaired predecessors provides the highest yield at the sowing rate of 5 million similar seeds per ear. In autumn, on such crops, there are 300-380 unrooted plants per 1 m 2. But in dry autumn conditions, when sowing wheat, the norm

Bmln/ha are formed thinned crops in which in the spring there are only 200-230 undissolved plants on them 2

Such crops are not able to provide a satisfactory harvest and are often replanted. Therefore, when sowing in a dry pound or in bo late periods, the rate of wheat sowing was increased to 6-7 million. of similar seeds per 1ha so that in the spring there are at least 300 plants per 1m?. This requires sowing 40-4Bkg/ha more seeds, but provides sufficient stem density, eliminates re-sowing in spring, increases yield by 5-7t/ha.

The depth of seed wrapping was reduced. When sowing wheat in dry soil, the seeds were wrapped no deeper than 3-4 cm.

This allows you to get earlier seedlings and stronger plants than when sowing at 5-6 cm, which is very important for late seedlings.

The seeds were treated with specific preparations that do not reduce their germination after a long stay in dry soil and do not inhibit their germination after rain. For this, the most suitable is Vitavax at the rate of 2.5 kg/t of seeds, and others, which not only protect seeds from diseases, but also stimulate plant growth 70 and increase the number of productive stems.

Fertilizers were applied before sowing and for fertilizing in the spring. Considering the late emergence of wheat, it is necessary to stimulate the growth of plants both in autumn and in spring in order to create a sufficient stem density and a large above-ground mass.

For this purpose, fertilizers were applied under the main tillage at the rate of M zo-voRlo, depending on the content of MRK in the soil. Before the restoration of vegetation, crops were fertilized with nitrogen fertilizers in a dose of M bo. Early top dressing 75 stimulates plant tillering and increases stem density. Fertilization of such crops after the restoration of vegetation is less effective, especially in late spring, because the upper layers of the soil dry quickly and fertilizers are not used before the rains. Plants remain without sufficient nutrition for a long time, which inhibits their growth and produces few productive stems.

Plowing of unthreshed wheat crops was not carried out, because it leads to liquefaction of the stem and insufficient selection of grain. If the soil is loose or there are bulging plants, it is better to roll such crops. This destroys the gaps, ensures better contact of the roots with the soil, which stimulates the growth of nodal roots and reduces the death of plants by 15-2090.

Plant protection and other crop care measures were carried out in accordance with the requirements of traditional technology.

Crop feeding and protection against weeds, pests and diseases largely eliminate the shortcomings of autumn plant development. Good care in the spring of weakly developed autumn crops makes it possible to form a large above-ground mass of plants, a well-developed root system and create 450-500 productive stems per 1m2, which is a prerequisite for obtaining a high grain yield.

In our experiments, winter wheat grown on corn for silage according to traditional technology in years with autumn drought provided an average grain yield of 25.1 cents/ha, while with improved or adapted :C to autumn drought - 38.3 cents/ha, which by 13.2 c/ha more (table 1). "- about ze sch"

Under this technology, the grain yield ranged from 26.9 to 50.b/ha in years, under the traditional technology (5 s - 15.1-38.4 b/ha, and in some years, due to the low density of plants, the crops were replanted.

It is very important that this technology does not require significant additional costs of resources and funds. Only at the expense of )" increasing the seed sowing rate to 6-7 million hectares, using special varieties, changing the sowing dates and the quality of technological measures, it is possible to form highly productive crops under conditions of autumn drought.

It is also important that the application of the specified set of measures excludes re-sowing and sub-sowing of wheat crops

GI in the spring and thereby prevents significant expenditure of funds for these works. The declared technology provided significantly higher economic indicators. The additional net profit was UAH 737. from Tga. | the main thing is that the application of the declared technology allows to significantly increase and stabilize the production of wheat grain in the steppe zone. - Thus, according to the totality of indicators, it is more expedient, under the conditions of a dry autumn, to use the declared technology of winter wheat cultivation. It ensured a wheat yield of 13.2 tons/ha higher than the existing technology and an additional net profit of UAH 737/ha. this"

Claims (1)

The formula of the invention The method of growing winter wheat, which includes the main and pre-sowing cultivation of the soil, application of fertilizers, sowing, crop care and harvesting, which is distinguished by the fact that surface cultivation of the soil with disk or combined units is carried out to a depth of 7-8 cm, followed by cultivation at 5 -6 cm, under the main tillage, mineral fertilizers are applied at the rate of M zoRvo, depending on the content of MRK in the soil, sowing is transferred from the optimal to later dates - from September 25 to October 5, wheat varieties adapted to late sowing dates are sown, the norm sowing is increased to 6-7 million similar seeds per hectare, the seeds are treated with specific preparations such as Vitavax at the rate of 2.5 kg/ha, the depth of seed wrapping is reduced to 3-4 cm, the crops are fertilized with nitrogen fertilizers in the Mogo dose until the spring vegetation resumes plants 65 Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, M 1, 15.01.2007. State Department of Intellectual Property of the Ministry of Education and