RU2614632C2 - Method of growing crops in conditions of steppe region of crimea - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. The method comprises the use of multicourse rotation with the main and pre-sowing treatment of the soil, nutrition and protection of plants. The main and pre-sowing treatment of the soil is carried out by minimizing its treatment while reducing the total number of treatments and the depth of loosening when sowing winter grain crops on non-fallow predecessors to 8-10 cm, for spring barley and sunflowers to 12-14 cm. Nutrition and protection of the plants is carried out by nine-field crop rotation with short rotations and adjustment of agrophysical, biological and agro-chemical processes with the ability to create favorable conditions for plant growth and stabilization of the level of productivity.

EFFECT: method enables to increase the efficiency of the crop growing process, to eliminate the destruction of soil structure, and to improve its fertility.

Description

The invention relates to agriculture, and in particular to methods of growing crops - wheat, barley, legumes, rapeseed and other crops in the arid conditions of the Steppe zone of Crimea, where methods of basic and presowing soil preparation, preservation of its fertile layer, nutrition, taking into account the requirements, are especially important cultivated plants and plant protection against weeds, pests and diseases on the threshold of their harmfulness.

Currently, the successful development of agricultural production is possible only through the introduction of energy-saving energy-saving technologies in the production, the use of a set of means to improve soil fertility, the effective use of investments, agricultural machinery, fertilizers and other means. But the opposite is true: crop productivity is declining, as the consumption of fertilizers decreased due to their high cost, high cost of fuels and lubricants, high cost of agricultural machinery, without which it is impossible to carry out all agricultural processes taking into account the special climatic conditions of the Steppe Crimea with their insufficient rainfall at high air temperature.

An important environmental element that ensures a favorable phytosanitary situation in the soil, the optimal mode of restoration of humus and nutrients, are crop rotations, which eliminate the depletion of the species composition of soil microorganisms, phytopathogenic and soil fatigue.

Currently, special attention is paid to the maximum use of natural resources, mainly the microbiological potential of the soil, a sharp reduction, and in most cases, the complete abandonment of the use of any chemical fertilizers and pesticides. Therefore, there is a need to minimize soil cultivation processes and create conditions for effective farming and soil fertility management, preserve its fertile layer, create favorable conditions for the development of plants, their protection from pests and diseases, as well as from weeds and, ultimately, get environmentally friendly agricultural products.

A known method of growing crops in irrigated crop rotation on dark chestnut soil, which includes pre-sowing cultivation of the soil, the application of mineral and organic fertilizers, irrigation, monitoring sowing and harvesting, which is characterized in that winter wheat straw, corn stalks are introduced in the field rotation. , green fertilizer and nitrogen-fixing bacteria (APB) are used, while the amount of mineral fertilizers in the crop rotation is reduced by 26% (Cinnamon patent model No. 62135, A01B 79/00, Ukraine. Declared 14.02. 2011. Published on 08/10/2011. Promislova Vlasnost. Bull. No. 15).

A known method of tillage without turning the bed, including layered two-tier loosening of the soil with the simultaneous destruction of weeds, is characterized in that in order to improve the quality of loosening and increase the efficiency of destruction of perennial weeds, to accelerate the processes of humification and mineralization of plant residues when loosening the soil in the upper tier, the root necks are rubbed perennial weeds, and when the soil of the second tier is loosened, their root system is crushed, after which the third layer of soil is further loosened (A. S. No. 168764 7, A01B 79/00, Declaration of November 9, 1998. Publ. 1991. Bull. No. 40).

There is a known method of cultivating row crops, including cutting planting or sowing furrows and caring for crops, planting or sowing furrows are cut in a rectangular profile with a depth of 5-7 cm and a width equal to the width of two protective zones, followed by backfilling them when leaving (A.S. No. 1428228, АВВ 79/02, USSR, Declaration of April 11, 86. Publ. 07.10.88, Bull. No. 37).

The same method is known where, simultaneously with the formation of a planting or sowing furrow, slits are cut in its bottom with a depth equal to or greater than the depth of sowing or planting, and pre-sowing or pre-planting irrigation is carried out with a reduced rate until the soil is moistened in the zone of the root system (A.S. No. 1711698, A01B 79/02, USSR, Declared May 22, 89. Publ. 02/15/93, Bull. No. 6).

All these methods are time-consuming, they consume a lot of fuels and lubricants due to the multiplicity of various operations and thereby bring even more negative consequences in the form of additional soil compaction, destruction of its structure and violation of favorable conditions for growing crops.

There is also known a method of strip tillage when growing crops, which includes tillage with the formation of loosened strips that alternate with strips of uncultivated soil, which is characterized in that the transverse profile of the walls of the loosened strip is given a spiral shape oriented in such a way that the curvature of the transverse profile of the wall increases in the direction from the surface of the field to the bottom of the furrow. At the same time, the transverse spiral profile of both walls of the loosened strip is shaped as logarithmic curves placed symmetrically with respect to the central axis of the loosened strip (Patent No. 96028, A01B 3/38, A01B 79/02, Ukraine. The method for smoother soil cultivation with vertical cultivation is 11. .2009. Publish. 09/26/2011. Promislova Vlasnost. Bull. No. 18).

This method is the closest in technical essence, but not suitable for use in the fields due to the unreliability of the formation of furrows and even more so with a spiral profile. This can be represented theoretically, but in practice everything will depend on the structure of the soil, its flowability or density. And this method is not at all suitable for the Steppe zone of Crimea, where there is little moisture.

Therefore, the aim of the proposed method is to increase the efficiency of the process of growing crops and productivity by reducing the complexity of the process and energy consumption during primary and pre-sowing tillage, eliminating the destruction of the soil structure and improving its natural fertility by eliminating technical operations that compact the soil layer, which negatively affects growing conditions and productivity in the field crop rotation, to stabilize the level of productivity under various weather conditions and especially on creating favorable conditions for plants to develop and protect, as well as reducing labor costs and the cost of fuels and lubricants as a result of the use of resource-saving soil cultivation technologies.

The solution to this problem is achieved by the following set of features of the method.

In the method of growing crops in the conditions of the Crimean Steppe zone, involving the use of multi-field crop rotation with primary and pre-sowing cultivation, nutrition and plant protection, according to the invention, the main and pre-sowing cultivation of the soil is carried out by minimizing its cultivation while reducing the total number of cultivations and the depth of cultivation during winter crops cereals according to unpaired predecessors up to 8-10 cm, for spring barley and sunflower up to 12-14 cm, and nutrition and protection of plants is carried out by virgins tipolnogo rotations with short rotation and control of agro, agro-chemical and biological processes with the ability to create favorable conditions for plant growth and stabilize the level of productivity.

In the system of agricultural tools aimed at improving soil fertility and crop productivity, increasing the production of grain, feed and other plant products, proper soil treatment is of great importance. With the help of soil treatment, the agrophysical, biological and agrochemical processes that occur in the soil, the distribution and accumulation of organic substances, soil moisture in the near-root layer and the effective use of fertilizers by plants are regulated.

The main and pre-sowing tillage is one of the most effective agrotechnical means of controlling weeds, pests and diseases of agricultural crops. It is advisable to combine agricultural and chemical methods of weed control in crop rotation. Currently, the main place in the farming system is occupied by the system of creating optimal conditions for the growth and development of cultivated plants, preservation and increase of soil fertility and its protection from erosion.

Tillage is the most time-consuming, energy-intensive operation in agricultural production. The quality of the soil cultivation significantly affects the yield and quality of agricultural products.

Along with tillage in the formation of the crop and the quality of agricultural products and in the reproduction and restoration of soil fertility, the process of applying organic and mineral fertilizers is of great importance. Currently, the land does not receive either one or the other: mineral ones are very expensive and do not always give returns, and organics are simply not enough due to a decrease in livestock production.

Therefore, it is necessary to create a reliable fodder base for livestock and increase not only the yield of agricultural crops, but also increase the number of cattle, sheep, poultry, which, in turn, increase the yield of organic fertilizers, which will increase the yield of grain, fodder, industrial crops - everything that leads to an increase in the production of meat and dairy products. This interconnected production should be the most effective.

Thanks to this, the issue of preserving soil fertility, which in recent years has been dramatically lost due to chemical technologies that lead to land degradation, to a decrease in the fertile layer and its main component - humus, due to the loss of which increased erosion processes, will be resolved, especially in arid areas. Combined tillage will contribute to the fight against erosion and restoration of the fertile soil layer, which is spent on huge amounts of energy, fuel, thereby significantly increasing the cost of agricultural products.

In addition, a huge amount of heavy agricultural machinery is brought to the fields, which strongly compacts the soil before crusting, which leads to poor air conduction and moisture absorption, as well as to the death of microorganisms useful to plants. All this violates the gas exchange processes in the soil and greatly affects the germination of seeds and the optimal development of the root system of the plant.

The use of deep tillage with and without turnover of the reservoir twice per rotation will reduce the overall fuel consumption to a large extent, because they are used once or twice in crop rotation. The rest of the time, only the surface layer is cultivated by cultivators, ploskorezami and harrows, thereby excluding plowing, which adversely affects the microflora of the fertile soil layer, which is involved in the formation of humus. And for sowing, seeders with combined openers are used, press seeders, which also include disk furrowers, thereby all sowing and fertilizing are performed in one pass. The energy consumption and the complexity of the process are reduced, and the soil structure is not destroyed due to the exclusion of soil compaction, as it was before, with multiple passage of individual aggregates. Therefore, with minimal processing, the least mechanical effect on the soil is ensured, optimal conditions are created for the growth and development of plants. Yields increase without resorting to additional costs for fertilizers, which helps to improve the ecological state of the fertile soil layer.

The introduction of accurate agricultural production technologies means that the effectiveness of agriculture depends on the level of use of the achievements of science and technology, as well as on the introduction of energy-saving technologies in crop production and agriculture related to stopping degradation processes and ensuring soil fertility due to the depth of processing based on modern resource-saving technologies. Therefore, productivity has increased by 17%, and soil with the rest of the vegetation cover is 60-75% suitable to absorb rainfall up to 98%. Stubble left after plow cutting loosens the wind speed, therefore, it serves as a protection of the soil from wind erosion. In addition, insects, which are predators and eat caterpillars, aphids and other pests, settle in the stubble.

The soil cultivation minimization system of our small-humus chernozemic soils provides maximum infiltration and provides access to winter-spring moisture reserves to the root zone of crops, and stubble between rows, especially in arid areas like Stepnoy Crimea, conserves moisture in the soil for a long time and also retains more moisture in winter snow. In addition, field productivity increased by 18%, and the cost of agricultural products decreased by 52%. Fuel costs decreased by 56%. The energy intensity of technological operations using these technologies has been drastically reduced. Units do not travel repeatedly across the field, so the soil does not roll away and does not compact.

The studies were carried out at the sites of the Crimean Agricultural Research Institute, in a 9-crop rotation with crop rotation: black steam - winter wheat - winter barley - corn for green fodder - winter wheat - winter wiko-wheat mixture for green fodder - winter wheat - spring barley - sunflower.

It has been established that the highest productivity of crop rotation in the selection of crops provides a differentiated method of tillage (dump, non-dump), depending on the previous crop. We used 7-8-field and 3-4-5-field short-rotation crop rotations with different crops, taking into account the soil tillage and fertilizer application systems, studied their effect on the restoration of soil fertility and increased land use efficiency, on resource conservation, which ensure high yields and quality products. The energy savings in this case amounted to 25-30%.

The prospects of short-rotation crop rotation saturated with grain crops by 80-100% are established. Their profitability is 77-85%. The introduction of secondary, for example, cabbage crops into these crop rotations, reduces the contamination of the subsequent crop by 25-30%. Grain-beet crop rotation with a saturation of grain crops at 55-60%, which provide a grain yield of 36-41 kg / ha, sugar beets - 345-500 kg / ha is very useful. The main goal of biologized crop rotation is to ensure the formation of the conceptual foundations of a common strategy for conservation of soil cover, increase soil fertility, and ensure ecological sustainable land use.

Scientists of the Crimean Agricultural Research Institute carry out a huge amount of work on selection and seed production of drought-resistant crops, the selection of the most adaptive, with respect to the conditions of the Crimean Steppe zone, varieties and hybrids with high yield potential. Zonal resource-saving technologies have been developed for growing the main agricultural crops with elements of moisture conservation and increasing soil fertility.

To ensure stable operation of the agricultural system, it is necessary to use resources that do not require additional investments, and, first of all, this is the development and development of crop rotation. It has been proven that only in crop rotation is the fertilizer system and soil cultivation used most effectively, protection against pests, diseases and weeds works optimally. Short rotation crop rotations are used. Nine short-rotation crop rotations typical of the Crimean steppe were studied. Crop rotations include three, four and five fields with clean and occupied steam, traditional winter crops, spring barley, sunflower, mustard and legumes.

The main task in the development of crop rotation is to achieve a scientifically based ratio between different types of crops. At present, crop rotations with a high variety of crops are necessary, so that when they are selected and alternated, they stimulate each other, taking into account the climate, soil, agricultural methods, and ecology of the environment.

Recently, a decrease in forage crops (due to the lack of animal husbandry) has led to the abolition of the role of crop rotation. In pursuit of economic benefits, some business executives abandoned crop rotations with a long rotation and a large species set of crops. They switched to short-lived ones, with a predominance of cereals and oilseeds, and some switched to monoculture.

The Republic of Crimea belongs to the southern steppe subzone, where agriculture specializes primarily in growing grain (winter wheat, winter barley and spring) and industrial crops (sunflower, rapeseed, flax, and legumes). Considering the biological requirements of winter wheat (the best predecessors) and the features of our zone (insignificant amount of precipitation and productive moisture in the soil), its quantity in the crop rotation should not exceed 40% to be placed on clean and occupied vapors, as well as on legumes and individual industrial crops . Therefore, steam fields (both clean and occupied) in the structure of sown areas should occupy at least 20-25%. In the best years, in steam fields, we obtained winter wheat yields of up to 60 kg / ha.

Winter barley is placed on stubble, as it is less demanding on its predecessors. Its average yield per rotation was at the level of 45-47 c / ha, and spring - 34-35 c / ha.

In all crop rotations, the necessary crops, especially in short-rotational ones, are leguminous crops: soybeans, chickpeas, peas, lentils, rank, vetch, beans and others. They are valuable for their highly nutritious proteins and their ability to preserve and maintain soil fertility.

Scientifically based crop rotation in crop rotation is, on the one hand, the correct ratio between varietal crops, and on the other hand, the optimal saturation of monotonous crops. Subject to these rules, crop rotation maximally fulfills its main function - phytosanitary - damage to plants by diseases and pests is reduced 2-4 times, and weediness is reduced 3-7 times.

When making crop rotations in the Steppe zone, it is necessary to comply with the norms of returning crops to their former place.

Despite significant differences in biology and cultivation technology, all the predecessors are combined into separate groups depending on their effect on soil fertility and yield of subsequent crops.

A feature of agriculture on our peninsula is quite significant soil and weather-climatic diversity, all of which must be taken into account when compiling crop rotations. Crimea belongs to regions with risky farming, therefore, industrial crops are more profitable, especially on irrigation.

Crop rotations are estimated by the following indicators:

- yield level of cultivated crops (the number of grain, fodder and fodder protein units per 1 ha of crop rotation area);

- reduction of direct production costs;

- conservation of soil fertility and environmental protection;

- the demand for crops and the high price in the markets.

The choice of crop rotation and its development are the first steps in organizing any crop production. The absence of crop rotation, as well as the non-observance of the pattern of crop rotation in crop rotation, failure to take measures to protect the land inevitably leads to depletion of soils, a decrease in humus content to critical levels.

The predecessors have an impact on the crop and its quality regardless of the emerging factors of nature, but the more unfavorably they combine, the more the influence of the crop rotation link or the previous crop is manifested. It is winter wheat that is most demanding on its predecessors. The preceding crops leave an equal amount of productive moisture and nutrients available to plants in the soil, determine the soil structure, weediness, and population of pests and diseases. Of course, you can save crops from weeds, pests and diseases by modern effective chemical means, but this will cost an increase in the cost of production and environmental pollution.

It has been established that the effective use of the system of heap and non-heap tillage, which provides for rotation of a maximum of two plowing in clean and occupied steam, allows the use of various agricultural equipment for pre-sowing tillage.

For the first time, the effect of no-till processing in the technology of growing winter wheat on the main indicators of soil fertility, yield level and quality of wheat grain was investigated in Crimea. The economic and energy efficiency of zero tillage has been proven, because many years of experience without a plow have led to the creation of a soil treatment system that provides natural restoration of soil fertility and the production of environmentally friendly agricultural products, as they do not use herbicides and other pesticides and mineral fertilizers, but organic farming is carried out, which is the basis for the conservation and restoration of soil fertility and the cultivation of environmentally friendly agricultural products.

We also studied the conditions for replacing plow tillage with plane-cutting tools of reduced depth of cultivation, and the transition to shallow and surface tillage for some crop rotation crops. It should be noted that cultivated plants react with the same measure negatively both to overly fluffy soil and to compacted soil.

Soil compaction for spring crops also depended to the greatest extent on the presence of moisture in the soil, the smallest bulk density was about 0.9-1.1 g / cm ³ (depending on the year) when sowing spring barley, then the soil was also compacted when sowing row crops cultures the compaction was already 1.1-1.2 g / cm ³ .

In each rotation, soil compaction during the growing season of each individual crop rotation crop was taken 3-4 times. The influence of soil cultivation methods and the depth of cultivation were strictly observed.

There was no significant difference in soil density depending on the feeding period (the largest difference was 0.09-0.10 g / cm ³ ) and weed control methods (1.19-1.18 g / cm ³ ).

Before harvesting, on average, over the years of research in the third rotation of the crop rotation, there was no significant difference in soil density by the methods of cultivation: in winter crops - 0.03-0.04 g / cm ³ , in spring crops 0.07-0.09 g / cm ³ . Each type of soil has its own equivalent density and in our carbonate chernozems is 1.18-1.24 g / cm ³ and coincides with the optimal one for the main crops. The same applies to soil moisture, which depends on a number of factors - precipitation, temperature, wind speed and humidity. According to the methods of tillage, depending on the predecessors, the average data differ only by 1.1–9.4 mm in the arable layer.

According to average data for rotation, a different amount of moisture accumulates for each crop, especially for winter grains, when moisture averaged 100.2-127.1 mm in soil, but it was much less, for example, in the meter layer only 28.2 -44.7 mm depending on the tillage.

Therefore, it all depends on the method of cultivating the soil, plowing, conducting surface cultivation, which in different ways reduce the evaporation of moisture in the arable layer. From this we get friendly seedlings when sowing in the optimal time.

The main method in weed control is agrotechnics and the use of herbicides. For food backgrounds, no difference in the number of weeds was observed. For rotation by crops, it is almost the same in the version without fertilizer 114.1 pcs / m ² , with the usual dose of organic and mineral fertilizers applied and with a 1.5-fold increase - 114.9 and 117.8 pcs / m ^2, respectively .

In another rotation of the crop rotation, not only the number of weeds is calculated, but also their weight (dry weight in grams) is determined. With the same number of weeds pcs / m ^2, their weight depends on the level of fertilizers, the difference in favor of fertilizers (0.220-0.281 g).

In the third rotation of the crop rotation, chemical methods of weed control were not used, but considerable attention was paid to agrotechnical means. After sowing row crops, the soil must have been rolled up so that there is more contact of the seeds with the soil, to level the field, then harrowing with tooth and spring harrows and interrow cultivation.

When replacing traditional arable land with plane-cutting cultivation at a constant depth, the composition of humus increases, while there is a clear dependence on the plant protection system: in the variant with periodic application of herbicides, humus is 2.43%, and in the variants without their application it is much more - 2.60-2 , 70%.

It has been established that the long-term use of mineral fertilizers alone does not contribute to the humus mineralization process, and the introduction of organic fertilizer and the leaving of by-product plant products in the field stabilizes or increases its composition. Phosphorus is one of the main elements of plant nutrition and its amount also depends on the method of tillage.

In the first rotation of the crop rotation with an equal method of cultivating the soil and introducing the accepted dose of fertilizer in the arable layer of 0-30 cm, there are 3.4 mg of mobile phosphorus per 100 g of soil, without fertilizer - 2.0 mg, and with planar fluffing depending on the depth 3.3 and 2.2 mg, respectively.

In the experimental plots, wheat was sown with different types of seeders in order to study the effect of the type of opener and the nutrition of crops on grain yield. In all areas, wheat of the second class was obtained by gluten, according to other parameters, the grain corresponds to the first class. Such a high yield is obtained through the use of resource-saving technology. It allows you to increase soil fertility, accumulate and retain moisture.

The effect of the coulter type on the crop is also obvious. At the initial stage of plant development, the optimal arrangement of seeds in the sowing bed during sowing, seeding them to the same depth, the rate of sowing of seeds and the uniformity of sowing is important. Thus, the plant nutrition program, which was used in pilot plots in tandem with resource-saving seeders with combined coulters, can increase productivity several times and significantly reduce economic costs.

The main direction in improving the methods of tillage in the Crimean Steppe zone is to reduce the number of mechanical treatments, as well as combining a number of tillage operations and performing them in one pass of the machine, reducing energy-consuming links in agriculture and offering alternative, less energy-intensive means, energy-saving systems, which is significantly increases the stability of the level of productivity, environmental safety and economic efficiency of agricultural production.

The use of multi-depth subsurface tillage led to a reduction in all energy costs by 7.9%, fuel consumption decreased by 28.7%, labor costs - by 5.4%. The consumption of fertilizers for the entire technological cycle decreased by 2.7 times and the level of consumption of herbicides decreased during weed control, and the small costs of using the integrated plant protection system are justified by the increase in crop productivity, a rather large economic advantage of growing crops in the crop rotation was achieved.

Thus, the distinctive features in the totality of signs have a causal relationship with the achieved technical result, namely, pre-sowing soil preparation by minimizing its cultivation using resource-saving soil cultivation technologies in field crop rotation in the conditions of the Steppe Crimea, eliminating the destruction of the structure of the fertile soil layer and preserving humus, which creates favorable conditions for the development of plants and stabilization of the level of productivity regardless of weather conditions, and the use of the nine-field crop rotation makes it possible to increase the efficiency of the process of growing crops and increase productivity by reducing the complexity of the technological process, reducing energy and labor costs for food, care and protection of plants by intensifying optimal conditions at all stages of cultivation and obtaining, ultimately, environmentally friendly agricultural products with minimal economic costs.

Claims (1)

A method of growing crops in the conditions of the Crimea steppe zone, involving the use of multi-field rotation with primary and pre-sowing tillage, nutrition and plant protection, characterized in that the main and pre-sowing tillage is carried out by minimizing its cultivation while reducing the total number of cultivations and the depth of cultivation when sowing winter cereals according to non-steam precursors up to 8-10 cm, for spring barley and sunflower up to 12-14 cm, and nutrition and plant protection are carried out by nine nogo rotations with short rotation and control of agro, agro-chemical and biological processes with the ability to create favorable conditions for plant growth and stabilize the level of productivity.