RU2556902C1 - Environmentally friendly method of potato cultivation - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: method comprises placing a potato on the predecessor, disking, fall-ploughing the soil, spring cultivation, preparation the seed material two weeks before planting by air-thermal heating to pipping of sprouts, cutting ridges, processing of tubers with microbiological preparation and planting tubers, inter-row treatment at finding weeds in the stage of "white string" with the gradual increase in the ridges. The first inter-row treatment is carried out after the emergence of potato sprouts, the subsequent second and third row treatments - with an interval of 10-12 days prior to the closing of potato tops. Protection of potato plants from pests is carried out using microbial agents by spraying the tops during the growing season in dry calm weather, pre-harvesting mechanical removal of the tops and harvesting potatoes is carried out. At that planting tubers is carried out on a smooth surface of soil after deep cultivation to a depth of 20-22 cm in rows with spacing between them of 90 cm to a depth of 4-6 cm with a planting density of 50000 tubers per hectare with simultaneous treatment of tubers and the bottom of the furrow with 5% solution of Phytosporin-M at the rate of its consumption of 10 litres per 1 ton of planting material by spraying with a nozzle. Cutting the ridges is carried out simultaneously with the first inter-row treatment, forming a ridge with the height of 25-30 cm and the width of 17-18 cm on top with the ridge-forming cutter with active working bodies. The second and third inter-row treatments are carried out with a simple ridge-forming cutter. In addition, protection of potato plants from pests is carried out once with 0.01% solution of Phytoverm-M at the rate of its consumption of 500 litres per 1 ha.EFFECT: method enables to obtain the yield of food potato with high consumer properties against the background of complete elimination of chemical means of plant protection from diseases and pests by environmentally friendly methods and means of weed control, preventing pollution the environment and potato crop with toxic substances.3 cl, 4 tbl, 2 ex

Description

The invention relates to agriculture, in particular to a technology for growing ware potatoes.

Increasing productivity, crop quality, production profitability are the most important conditions for the further development of potato growing in Russia. The solution to these problems is possible when creating highly productive plantings of potatoes, based on the programmed cultivation of complexly resistant varieties using the most modern technologies, adapted to the conditions of a particular region or economy.

Recently, products grown without the use of pesticides and mineral fertilizers have been of increasing interest to consumers. Obtaining organic food potatoes requires a transition to environmentally friendly technologies for cultivating this crop. Their introduction into production should be preceded by the identification of varieties that are most adapted to such technologies and to the agroecological conditions of a particular region or economy.

The increasingly frequent manifestations of serious environmental pollution are drawing attention to this problem. About 20 million tons of organic compounds fall into the environment annually, of which 5% are pesticides. Most pesticides are biologically active substances with a wide spectrum of action. Individual pesticides contain heavy metals such as mercury, zinc, copper, and iron. Soil plays a special role in reducing the undesirable concomitant effects of pesticides. The problem of protecting the soil from pollution by pesticide residues is of particular relevance, especially with the rational use of natural resources.

The chemicals used in agricultural technology of potatoes increase the amount of heavy metals not only in the soil, but also in the resulting crop. To reduce soil toxicity, biological preparations are currently widely used that do not pollute the environment, quickly decomposing in water and soil. After applying such biological products, you can start harvesting in two days.

Known methods of cultivating potatoes by intensive technology, including placing potatoes after their predecessors, autumn tillage with organic and mineral fertilizers, spring tillage, cutting ridges before planting, planting potatoes in ridges, row cultivating, weed control with herbicides, protection against diseases and pests with the help of drugs, pre-harvest removal of tops by spraying with drugs, harvesting tubers (Khlevnoy BF Agronomical notebook. Potato cultivation spruce according to intensive technology, M .: Rosselkhozizdat, 1986, p. 61; Intensive potato production technologies. Recommendations, M: Rosagropromizdt, 1990).

A disadvantage of known technologies is the use of chemical plant protection products and weed control, high doses of mineral fertilizers that cause environmental pollution and the deterioration of consumer qualities of potatoes are often above the permissible limit.

A number of methods have been patented for the cultivation of organic potatoes, aimed at improving its consumer qualities through the use of environmentally friendly technological methods and means of combating weeds, pests and diseases, which ensure the prevention of environmental pollution and the harvest of potatoes with toxic substances.

A known method of cultivating environmentally friendly potatoes (Pat. RF No. 2226339, class A01G 1/00, 2002), including autumn tillage with walnut leaves that have a deterrent effect on soil-borne pests, for plowing, early planting of potatoes of different ripening dates in the ridges , inter-row processing, mowing tops before harvesting tubers, and after harvesting tubers, crops are sown for grain, fodder or green manure according to harvesting dates.

The use of this method of potato cultivation is limited territorially, mainly by use in the southern regions of Russia.

A known method of cultivating potatoes (Pat. RF No. 2286666, class A01G 1/00, 2005), including placing potatoes in a crop rotation according to their predecessors, autumn tillage with organic and mineral fertilizers, spring soil preparation, planting in ridges, row cultivation and weed control, pre-harvest removal of tops and harvesting tubers. Organic fertilizers in the form of granular vermicompost treated with a film former are applied locally to the ridges under the seed tubers. Mineral combined fertilizers with microelements are applied locally on the sides and below the tubers, which are treated with preparations - planris mixed with extrasol before planting. Inter-row processing is carried out by a cultivator-hiller before the closure of the tops of potatoes. To combat the Colorado potato beetle, an air collector is used.

The known method of cultivating potatoes is not cheap enough in view of the use of a large number of expensive biofertilizers and biological products, as well as new technological methods using new equipment and machines, which affects the cost of agricultural products.

A known method of cultivating marketable potatoes (Pat. RF No. 2044453, class A01G 1/00, AB01 79/02, 1993), including autumn plowing of organic and mineral phosphorus-potassium fertilizers, spring harrowing, plowing without plowing, cutting ridges before planting with simultaneous by applying nitrogen fertilizers to the ridges, planting potatoes of the Tsukanovsky variety in the ridges to a depth of 14-17 cm from the top of the ridge with a density of 50 thousand tubers per hectare, loosening the soil is carried out 10-12 days after planting, row cultivation is carried out after emergence by gradually th crest extension. The invention is aimed at increasing the yield and consumer qualities of potatoes through the use of disease-resistant potato varieties Tsukanovsky against the background of optimal doses of fertilizers, mechanical tillage and environmentally friendly methods.

Closest to the claimed is a method of cultivating potatoes (Pat. RF No. 2041585, class A01B 79/02, A01G 1/00, A01C 1/00, A01M 21/02, 1993, prototype), including placing potatoes on their predecessors, stubbing , application of organic fertilizers, autumn tillage, harrowing or cultivation, followed by subsurface plowing, cutting ridges before planting, pre-planting treatment of tubers with a microbiological preparation, planting tubers in ridges, row cultivation, weed control, protection against diseases with the help of drugs, before harvesting tops mechanically and harvesting potatoes.

The disadvantage of this method is the use of a large number of preparations for various treatments: tubers before planting, tops during the growing season of potatoes, mixed with organic fertilizers to be applied to the soil in the autumn after harvesting the potatoes for chaff, which cannot but affect the cost of potatoes.

The problem solved by this invention is to develop an environmentally friendly method of cultivating potatoes and identifying adapted to it a variety of potatoes in the non-chernozem zone of the Russian Federation.

The technical result from solving the problem lies in the possibility of obtaining a good harvest of food potatoes with high consumer qualities against the background of the complete exclusion of chemical plant protection products from diseases and pests. environmentally friendly methods and means of weed control that prevent environmental pollution and the harvest of potatoes with toxic substances, and, in addition, having low cost due to the use of only two microbiological preparations. The solution to this problem made it possible to identify potato varieties adapted to the claimed technology and to the conditions of a particular region.

The object of the invention is solved by the fact that in an environmentally friendly method of cultivating potatoes, including placing potatoes on a predecessor, disking, autumn plowing, spring cultivation, preparation of seed two weeks before planting by air-thermal heating before sprouting, cutting ridges, treatment of tubers with a microbiological preparation and planting of tubers, inter-row treatments when weeds are in the “white thread” stage and with gradual extension of ridges, at m the first inter-row treatment is carried out after the emergence of potato seedlings, and the subsequent second and third inter-row treatments - with an interval of 10-12 days before the potato tops are closed, the potato plants are protected from pests by microbiological preparations by spraying the tops during the growing season in dry, calm weather, pre-harvest mechanically removing tops and harvesting potatoes, planting tubers on a smooth surface of the soil after deep cultivation to a depth of 20-22 cm in rows with a distance between them 90 cm to a depth of 4-6 cm with a planting density of 50 thousand tubers per hectare with simultaneous processing of tubers and the bottom of the furrow with a 5% solution of Fitosporin-M at a rate of 10 l per 1 ton of planting material by spraying it with a nozzle, and cutting ridges simultaneously with the first inter-row treatment, forming a comb with a height of 25-30 cm and a width at the top of 17-18 cm with a comb-forming mill with active working bodies, and the second and third inter-row treatments are performed with a simple comb-forming mill, in addition, plant protection is rtofelya from pests is carried out once with a 0.01% solution of Fitoverm-M with a consumption rate of 500 l per 1 ha. White mustard is used as a precursor, while the best varieties of potatoes Udacha and Red Anna are cultivated. When cultivating potatoes according to a potato predecessor, the best potato variety is Udacha.

The presence of new technological methods and their combination with the well-known, the use of new microbiological preparations can improve the quality of cultivated potatoes, increase its productivity due to a decrease in its incidence, as well as damage from the Colorado potato beetle.

Recently, a large number of farmers abandoned the use of manure in view of the need for a large quantity of manure to be applied to the soil and a high price, as well as the great complexity of working with it. In addition, in the case of manure, the weediness of the site will force the use of debilitating weeds or the use of expensive herbicides to control weeds. An excellent alternative to manure is green manure - siderat. This is a green manure crop, the fresh plant mass of which is used as a fertilizer for scenting into the soil in order to enrich it with organic substances. White mustard is an excellent green manure. It contributes to the accumulation of humus in the soil, which, in turn, improves the properties of the soil. White mustard is able to stop the leaching of nutrients beyond the layer in which the roots are located, pumps nutrients from the deep horizons of the soil to the top layer. The more humus is contained in the soil, the higher its heat capacity and lower thermal conductivity, less physical evaporation of water, more productive use of soil moisture by plants.

When fresh plant mass of white mustard is introduced into the soil, a large amount of nutrients are accumulated in the soil, which are necessary for the development of cultivated plants. Siderat decomposes in the soil much faster than other organic fiber-rich fertilizers. White mustard slightly reduces the acidity of the soil. Root secretions of white mustard contain organic acids, which, when interacting with the soil, can transfer a large number of nutrients from an inaccessible form to easily digestible by plants, in addition, the plants themselves can assimilate micro and macro elements that are inaccessible to other plants. Root secretions exhibit a rather powerful phytosanitary effect against the accumulation of various diseases in the soil: tuber scab, rhizoctoniosis, fusarium rot. White mustard is a precocious plant that can grow very quickly even with insufficient heat, and in a short time is able to form a large crop of green mass, which can be used as siderate, which is a source of organic substances for soil microorganisms and plants. The yield of green mass of white mustard is about 40 tons per hectare, 22% of organic matter, 0.71% of nitrogen, 0.92% of phosphorus and 0.43% of potassium accumulate in the green mass. Thus, white mustard not only enriches the soil with nutrients, but also performs the phytosanitary role of crop rotation.

The new microbiological preparations used in the claimed technology for the cultivation of potatoes for the treatment of tubers and tops during the growing season of plants include Fitosporin-M and Fitoverm-M.

Fitosporin-M is a modified industrial microbiological preparation of complex action. This is a live spore bacterial culture of Baccilius subtilis 26D (titer of at least 2 billion living cells and spores / g), which suppresses the products of its vital activity and the reproduction of many fungal and bacterial diseases of plants, has the property of increasing the immunity of plants to these diseases, which is important for reduce re-infections.

Phytosporin-M contains endophytic plant bacteria. Coexisting with plant cells, such bacteria impede the penetration of many pathogenic pathogens. The new modified form of the biological product Fitosporin-M is characterized by a longer shelf life compared with other drugs, as well as good adhesion. It stimulates the reproduction of a bacterial culture. Its properties are stable, and it is able to activate the growth processes of plants. For the purpose of modification, bioactivated humic micronutrients enriched with microelements are added to the preparation. The drug is used in the form of an aqueous suspension for presowing seed treatment, planting material, spraying plants during the growing season and disinfecting the soil. The protective effect is manifested from sowing to ripening. Speed of exposure - from the moment of processing.

Fitosporin-M differs from many well-known biological preparations in that it protects plants from a complex of different diseases at the same time. It is effective against mold and rot of seeds, helminthosporious and fusarious root rot, snow mold, powdery mildew, brown rust, rhizoctonia, wilting, late blight, dry and wet rot of tubers, alternariosis, gummosis, macrosporiosis, black stalk, soft bacillus, lodging cancer, lodging, soft bedrock, lodger vegetable crops, leaf chlorosis, etc. Effectively Fitosporin-M to process seeds, and land, and plants. In terms of effectiveness, this drug is superior to many well-known biological products.

The method of using the drug in the claimed technology is the simultaneous treatment of tubers and the bottom of the furrow with a 5% solution of Fitosporin-M at a rate of 10 l per 1 ton of planting material by spraying it with a potato planter nozzle.

Manufacturer Fitosporin - LLC Scientific Implementation Enterprise "Bashinkom", located in Ufa, st. Karl Marx, 37.

The drug Fitoverm-M in the claimed technology is used to protect against the Colorado potato beetle. Active ingredient: aversectin C at a concentration of 2 g / l. The natural avermectin complex of the soil fungus Slereptomyces avermitilis causes paralysis and then death of pests.

Fitoverm-M is a 4th generation biological product, the basis of which is the vital products of soil microorganisms. Fitoverm-M has a wide spectrum of action: all types of herbivorous ticks, Colorado potato beetle, turnip and cabbage whitewash, cabbage scoop, sawflies, leafworms, moths, moths, tobacco and California thrips, as well as all types of aphids. It does not pollute the environment, quickly collapsing in water and soil. The waiting period from the last processing to harvest is no more than 2 days. The protection of potato plants from pests in the claimed method is carried out once with a 0.01% solution of Fitoverma-M at a rate of consumption of 500 l per 1 ha.

The manufacturer of the biological product Fitoverm-M - LLC Scientific and Production Center “Fabrio-Med” is the only manufacturer in Russia.

Experimentally and thanks to the study of the characteristics of the formation of the yield of different varieties of potatoes when cultivated using environmentally friendly technology with a row spacing of 90 cm for sidereal (white mustard) and potato predecessors, potato varieties adapted to the claimed technology were identified in this region.

The invention is illustrated in tables.

Table 1 shows the photosynthetic activity of potato varieties; table 2 - the production efficiency of potato varieties according to the declared and generally accepted (intensive) in the region technologies and predecessors; table 3 shows the influence of cultivation technology and the predecessor on crop quality; table 4 - the structure of the crop during the cultivation of potatoes according to the declared and generally accepted (intensive) in the region technologies and predecessors.

The claimed method of cultivating potatoes includes the following operations:

Placement of potato by its predecessor: green manure - white mustard, or potato;

1. Disking the soil;

2. Autumn plowing of the soil;

3. Soil cultivation to a depth of 20-22 cm in the spring;

4. Planting tubers prepared two weeks before planting the seed by air-thermal heating until the shoots are peeled on a smooth surface of the soil in rows with a distance between them of 90 cm to a depth of 4-6 cm with a planting density of 50 thousand tubers per hectare with simultaneous processing and the bottom of the furrow with a 5% solution of Fitosporin-M with a consumption rate of 10 l per 1 ton of planting material by spraying with a nozzle of a potato planter;

5. Cutting ridges simultaneously with the first inter-row machining, forming a ridge with a height of 25-30 cm and a width along the top of 17-18 cm with a comb-forming mill with active working bodies;

6. Protection of potato plants from pests, in particular the Colorado potato beetle, once with a 0.01% solution of Fitoverm-M with a consumption rate of 500 l per 1 hectare of plantings by spraying the tops during the growing season in dry, calm weather;

7. The second and third inter-row treatments with a simple comb-forming mill with an interval of 10-12 days until the potato tops are closed, and all inter-row treatments are performed when the weeds are in the “white thread” stage and the ridges are gradually built up;

8. Pre-harvest removal of tops by mechanical means;

9. Harvesting potatoes.

When cultivating potatoes according to the sideral predecessor, white mustard, the best varieties of potatoes are the varieties Udacha and Red Anna. When cultivating potatoes according to a potato predecessor, the best potato variety is Udacha.

Examples of specific performance of the claimed method. The plot experiments were carried out in the village of Vestki, Likhoslavl district, Tver region, by the organization Tver Agroprom LLC. Sizes of plots of the 3rd order: width 2.7 m; length 3.7 m; total area of 10 m ² . Repeatability - fourfold, 32 options, the number of plots - 128 pcs. The total area under the experiment is 1280 m ² .

Scheme of experience. The following factors were studied in the experiment: Factor A - technology: A1 - intensive; A2 - environmentally friendly.

Factor B - predecessor: B1 - potato; B2 - white mustard on green manure.

Factor C: varieties - 8 varieties of different early maturity and resistance to diseases and pests. Early: Luck, Vega, Fidelia, Inara. Middle Early: Gala. Mid-season: Carlena, Red Anna, Merlot.

For planting, tubers previously germinated and activated by the biological product Fitosporin-M were used.

The aim of the research was to study the characteristics of the yield formation of new potato varieties when cultivated according to the declared environmentally friendly and generally accepted intensive technology in the region with 90 cm row spacing for sidereal (white mustard) and potato predecessors, based on which the most effective technology options and varieties adapted to them were identified.

Environmentally friendly technology differs from intensive technology in that chemical methods of controlling weeds, pests and diseases, as well as mineral fertilizers, are not used. The green manure was plowed into the soil with the organic mass of white mustard (35-40 t / ha). To combat diseases, seed seed tubers were treated with Phytosporin-M biological product with simultaneous treatment of the furrow bottom with 5% Fitosporin-M solution at a rate of 10 l per 1 ton of planting material by spraying with a potato planter nozzle; protection of potato plants from pests, in particular the Colorado potato beetle, was carried out once with a 0.01% Fitoverm-M solution at a rate of its consumption of 500 l per 1 hectare of plantings by spraying the tops during the growing season in dry, calm weather. Weeds were destroyed mechanically (inter-row treatments). Planting density by both technologies - 50 thousand tubers per 1 hectare.

Example 1. An environmentally friendly method of cultivating potatoes according to the predecessor of white mustard.

First of all, green manure was cultivated - white mustard. To prepare the soil for sowing small-seeded crops, we performed 2-track disk disc harrowing of Lemken Rubin 9/300. It provides uniform mixing of organic matter and soil to a depth of 12 cm. When sowing white mustard on green manure, they used the Polonez SO 78 / M seeder, designed for row sowing of seeds of many small seeded crops, with a working width of 4 m. When the white mustard started the phase flowering and plant height reached 1-1.5 m, Lemken Rubin 9/300 disking was performed to facilitate the next plowing operation and better incorporation of green mass into the soil. White mustard was plowed with Lemken EuroOpal 7 4 + 1 reversible plow to the depth of the arable layer (20-22 cm).

In the spring, before planting, deep cultivation was carried out to a depth of 20-22 cm with the Lemken Karat 9/300 cultivator to create loose, fuzzy soil, necessary for potatoes.

15-20 days before planting potatoes in the storage, the temperature was raised to 10-15 ° C and seed potatoes were blown with warm air. The length of the sprouts should not exceed 2 cm.

When the soil was warmed up to + 10 ° С, potato planting was started with Grimme GL 34 T planters on a smooth soil surface. The planter Grimme GL 34 T simultaneously processes potato tubers and the bottom of the furrow with a biological product, and plants potato tubers. 10-15 days after planting, when weed seedlings begin to appear, the crests were cut with a comb-forming mill with the active working bodies of the Grimme GF90-4. This cutter not only forms a comb, but also breaks lumps. In this case, a ridge is formed with a height of 25-30 cm and a width along the top of the ridge 17-18 cm with loose well-aerated soil. After that, two more inter-row treatments were carried out, but with a simple comb-forming mill Grimme GI-I-4, since the stolons could be damaged by active working bodies. This cutter loosens the aisle and increases the height of the ridge. The last, third, inter-row treatment was carried out before closing the row-spacings. Protection of potato plants from pests, in particular the Colorado potato beetle, was carried out once with a 0.01% solution of Fitoverm-M at a rate of 500 l per hectare of plantings by spraying the tops during the growing season in dry, calm weather.

10-15 days before harvesting, the tops were mowed with the Grimme KS 3600 topper, which, together with the mowing, grinds the tops. Potatoes were harvested by the Grimme SE 170-60 potato harvester. The harvester simultaneously digs two rows of potatoes; passing through conveyors, tubers are separated from the tops and the ground. On top of the combine are people standing and throwing away stones and bad potatoes.

Example 2. An environmentally friendly method for the cultivation of potatoes in the precursor of potatoes.

The technological operations of potato cultivation are the same as in example 1, in addition to the described technology for cultivating green manure, white mustard.

The research results on the characteristics of the formation of the yield of new potato varieties when cultivated according to the declared environmentally friendly and generally accepted intensive technology in the region are presented in tables 1-4, analyzing which we can draw the following conclusions.

1. The right choice of variety, predecessor and technology of potato cultivation allows you to increase productivity by 1.5-2.2 times, conditionally net income by 1.5-3.4 times, profitability by 1.5-2.6 times.

2. When placing potatoes repeatedly on potatoes, the best varieties are most economically profitable to cultivate using intensive technology, and when placing white mustard on green manure, using environmentally friendly technology, which ensures a high level of production profitability and obtaining biologically pure products. On average, for two years, the best for cultivation using environmentally friendly technology with repeated placement on potatoes is the variety Udacha, and with the placement of white mustard on green manure - the variety Udacha and Red Anna.

3. As a result of comprehensive studies, the possibility and prospect of cultivating potatoes using environmentally friendly technology using white mustard as a precursor to green manure have been identified. At the same time, the potato yield increases from 14.6 to 28.0 t / ha, almost doubles. Yield growth also occurs when potatoes are cultivated using intensive technology for the potato predecessor from 14.6 to 28.0 t / ha, for white mustard - from 28 to 42.4 t / ha, but the anthropogenic pressure on the environment increases sharply with chemical ameliorants (pesticides, fertilizers). When white mustard is placed on green manure, conditionally net income increases according to environmentally sound technology from 35.8 to 130.7 thousand rubles / ha, and by intensive technology from 96.9 to 195.0 thousand rubles / ha, then there is an increase of 2.7 and 1.5 times, respectively. The profitability level also increases by more than 2 times.

4. It is most profitable to cultivate the Udacha variety, the productivity significantly increases to 36.2 according to ecologically safe and to 42.8 t / ha according to intensive technologies. Conditionally net income is growing up to 188.6 and 215.2 thousand rubles / ha and profitability level up to 167.6 for environmentally friendly technology and up to 186.4% for intensive technology.

5. It is most economically profitable to cultivate the Russian variety Udacha by environmentally friendly technology, which ensures the level of production profitability (167.5%) not lower than by intensive technology (161.5%). Cultivation using environmentally friendly technology allows you to get potatoes with a very low nitrate content, almost 3-4 times less than MPC (or VDU - 250 mg / kg).

The claimed environmentally friendly method of cultivating potatoes is industrially feasible. Varieties that are most adapted to the new technology of potato cultivation and to the agroecological conditions of a particular region — the Non-Chernozem Zone of the Russian Federation — have been identified.

Obtaining a harvest of ecologically clean ware potatoes of the most productive varieties Udach and Red Anna at a level of 30-35 t / ha with a prime cost of not more than 3.5-4.0 rubles / kg and conditionally net income (profit) 130-150 thousand rubles ./ha with a profitability level of production of 120-170% allows us to recommend the claimed method for widespread adoption in farms of the Non-chernozem zone of the Russian Federation.

Claims (3)

1. An environmentally friendly method of cultivating potatoes, including placing potatoes on a predecessor, disking, autumn plowing, spring cultivation, preparing seed two weeks before planting by heat-air heating before sprouting, cutting ridges, treating tubers with a microbiological preparation and planting tubers , inter-row treatments when weeds are in the “white string” stage with gradual extension of ridges, while the first inter-row treatment is carried out after potato seedlings, and the subsequent second and third row-spacing treatments - with an interval of 10-12 days until the potato tops are closed, protecting potato plants from pests using microbiological preparations by spraying the tops during the growing season in dry, calm weather, harvesting the tops mechanically and harvesting potatoes, characterized in that the planting of tubers is carried out on a smooth surface of the soil after deep cultivation to a depth of 20-22 cm in rows with a distance between them of 90 cm to a depth of 4-6 cm when densely f planting of 50 thousand tubers per hectare with simultaneous treatment of tubers and the bottom of the furrow with 5% Fitosporin-M solution at a rate of 10 l per 1 ton of planting material by spraying with a nozzle, and the crests are cut simultaneously with the first inter-row treatment, forming ridge 25-30 cm high and 17-18 cm wide at the top with a comb-forming mill with active working bodies, and the second and third row-spacings are performed with a simple comb-forming mill, in addition, I protect potato plants from pests mono- 0.01% solution fitoverm-M at its normal flow rate of 500 liters per 1 ha. 2. The method according to p. 1, characterized in that according to the sideral predecessor of white mustard, the best varieties of potato are cultivated Udacha and Red Anna. 3. The method according to p. 1, characterized in that the potato predecessor is cultivated the best variety of potatoes Good luck.