RU2286666C1 - Potato cultivation method - Google Patents

Abstract

FIELD: agriculture, in particular, potato cultivation process.

SUBSTANCE: method involves locating potato in precursor rotation; shelling stubble; applying organic and mineral fertilizers; performing spring harrowing or cultivation; providing planting in ridges; performing interrow tillage and weed control; providing preharvest removal of helm; harvesting tubers; using leguminous-cereal crop mixture, clover, Lucerne, winter cereals or rapes as precursors; sowing annual ryegrass or white mustard onto said precursors after stubble shelling; grinding green mass of ryegrass or white mustard by means of disk shellers and plowing said ground green mass into fall-plowed field; locally introducing organic fertilizers in the form of granulated biohumus treated with film-former into ridges for seed tubers; locally introducing mineral combined fertilizers with microelements on sides and below seed tubers which are preliminarily treated with preparations such as planarize in mixture with extrasol; after planting, providing interrow tillage by means of rotavator-type cultivator-hiller before potato helm forms coverage.

EFFECT: improved consumer properties of potato owing to utilization of ecologically safe processes and weed, disease and pest controlling means enabling preventing of environmental medium and potato yield from contamination with toxic substances.

7 cl, 2 ex

Description

The invention relates to agriculture, in particular to the technology of cultivation of potatoes.

A known method of cultivating potatoes, including placing potatoes according to their predecessors, stubble cultivation, applying organic fertilizers at a dose of 10-20 tons per hectare, applying phosphorus-potassium fertilizers, autumn plowing soil, spring harrowing or cultivation, followed by plowless plowing, cutting ridges before planting ridges with nitrogen fertilizers, planting in ridges, row spacings, weed control with herbicides, protection against diseases and pests with the help of chemicals, pre-harvest removing tops by spraying with a solution of raglon or magnesium chlorate, harvesting tubers (1).

A known method of cultivating potatoes, including placing potatoes in a crop rotation according to predecessors, stubble cultivation, applying organic and mineral fertilizers, spring harrowing or cultivation, planting in ridges, inter-row cultivation and weed control, pre-harvest removal of tops and harvesting tubers (2).

The disadvantage of these technologies is the repeated use of chemical plant protection products and weed control, which cause environmental pollution and the deterioration of consumer qualities of potatoes.

The aim of the invention is to improve the consumer qualities of potatoes through the use of environmentally friendly technologies and means of combating weeds, diseases and pests, which prevent the pollution of the environment and the potato crop with toxic substances.

The technical result is achieved by the fact that the method includes placing potatoes in a crop rotation according to predecessors, stubbing, applying organic and mineral fertilizers, spring harrowing or cultivation, planting in ridges, inter-row cultivation, weed control, pre-harvesting tops and harvesting tubers as a predecessor use leguminous-cereal mixtures, clover, alfalfa, winter grains or rapeseed, after harvesting and stubbing the stubble of their predecessors, ryegrass or white mustard is sown, which after grinding plow-cultivators are plowed under the chill, organic fertilizers in the form of granular vermicompost treated with a film former with additives of eggs and larvae of entomopathogenic nematodes are applied locally to the ridges under the seed tuber, and combined mineral fertilizers with trace elements are applied locally along the sides of the seed tubers, which are treated with planaris before planting mixtures with extrasol, after planting, inter-row treatments are carried out with a milling cultivator-okuchnik until the potato tops are closed, which is from late blight Ozas are treated at the beginning with the tops of the drug with immunocytophyte or Agat-25K mixed with planaris, then with extrasol mixed with the integral F or trichodermin, an air collector is used to combat the Colorado potato beetle, or biological preparations are used with bitoxibacillin or lepidocide, or their mixtures are removed before mechanical harvesting with removal to the edge of the field.

Distinctive features of the claimed method is that when cultivating potatoes, legume and cereal mixtures, clover, alfalfa, winter grains or rapeseed are used as a precursor, and after peeling the stubble of the previous crops, ryegrass or white mustard is sown, which in the autumn after grinding with disk cultivators is plowed under chill , organic fertilizers in the form of granular vermicompost treated with a film former with the addition of eggs and larvae of an entomopathogenic nematode, are applied locally to the crests under the seed troughs, and mineral combined fertilizers with microelements are applied locally on the sides and below the seed tubers, which are treated with seedlings before planting with planris mixed with extrasol against root rot and late blight, after planting, inter-row treatments are carried out with a milling cultivator-okuchnik until the potato tops, which from late blight is treated with preparations - immunocytophytes at the beginning of the growing season or biological preparations with planriz mixed with Agat-25K, then with extrasol mixed with integral Zh or tr Ichodermin, to combat the Colorado potato beetle, use the pneumatic collector of the Colorado potato beetle or bitoxibacillin or lepidocide, or mixtures thereof, the tops are removed mechanically before harvesting and removed to the field edge. These differences allow us to conclude that the proposed method of cultivating potatoes meets the criterion of "novelty."

A comparative analysis of the proposed method with known technical solutions and a prototype shows that the proposed method is characterized by the presence of new technological methods - legume and cereal mixtures, clover, alfalfa, winter cereals or rapeseed are used as a precursor, after which peeling of ryegrass or white mustard is sown, the green mass after regrowth is crushed with disk tiller and plowed under chill, organic fertilizers in the form of granular vermicompost treated with a film former with the addition of eggs of an entomopathogenic nematode, they are applied locally to the ridges for seed tubers, and mineral combined fertilizers with microelements are applied locally on the sides and below the seed tubers, which are treated with planaris mixtures with extrasol from root rot and late blight before planting; with a milling cultivator-hiller before closing the tops of potatoes, which from late blight are treated with immunocytophytes at the beginning, or with biological preparations planriz mixed with A gat-25K, then with extrasol mixed with integral Zh or trichodermin, to control the Colorado potato beetle, use the pneumatic collector of the Colorado potato beetle, or use bitoxibacillin, or lepidocide, or a mixture of them, the tops are removed mechanically before harvesting and removed to the edge of the field.

The presence of new technological methods and their combination with the known ones makes it possible to improve the quality of cultivated potatoes, which leads to an increase in yield, reduces scab diseases, late blight, damage from wireworms and Colorado potato beetles. This allows us to conclude that the claimed technical solution meets the criterion of "significant differences".

The method is as follows.

Example 1. Potatoes for food or seed purposes are placed in the crop rotation after a legume-cereal mixture, clover, alfalfa, winter cereals or rapeseed clean from weeds. The seeds of the precursors are sown from the wireworm together with the insecticide bazudine at a dose of 20-25 kg / ha or heterophos at a dose of 50 kg / ha. After harvesting and husking the stubble of previous crops (in the second year), annual ryegrass or white mustard is sown, which helps to clean the soil from wireworms and phytonematodes. After regrowth, the green mass of plants is mowed and crushed with disk cultivators, and then plowed in autumn under the chill plows with skimmers. In the spring (for the third year), harrowing is carried out with dental harrows, then deep cultivation. Before planting potatoes, the crests are cut by cultivator KRN-4.2G with bunkers for introducing granulated vermicompost treated with a film former, and bunkers for combined fertilizers. Granular vermicompost is introduced in the center of the row to a depth of 14-16 cm - more than the depth of planting of tubers. The dose of biohumus application depends on the type of soil and it is set within 4-6 tons per hectare. In addition, seed tubers are treated with planriz preparations mixed with extrasol from root rot and late blight. In areas with wireworms of more than 5-10 individuals per 1 square meter, entomopathogenic preparations are used. For this, eggs and larvae of the entomopathogenic nematode Neoaplectana Carpocapsae Weiser or etonem preparation F, BC based on Steinernema feltiae or other similar species, in the amount of 1000 eggs and larvae per one vermicompost granule with a diameter of about 3 mm, are introduced into the granular vermicompost. The biohumus granules are treated with an air-permeable, water-soluble film, under which moisture is maintained at about 15-20% to preserve the survivability of the eggs and larvae of the nematode. In the soil, the film decomposes, and larvae emerge from the eggs, which, when they meet the wireworm, penetrate into it and develop into an adult state, as a result of which the wireworm dies. Entomopathogenic nematodes also infect other potato pests - larvae of May chrysanthemums, pupae of the Colorado potato beetle, winter scoop and others.

The etoneme drug - F, BC was created on the basis of the nematode Steinernema feltiae, 5 million nematodes in 1 g of a foam sponge. The drug is used against the Colorado potato beetle, wireworm. Consumption-5 billion nematodes / ha (3).

As the film former, polyvinyl alcohol (PVA) or the sodium salt of carboxymethyl cellulose, or epic, or other water-soluble polymers, or starch-based films are used. The same film is used for mixing with vermicompost, as a result, the granules are more resistant to mechanical stress.

To accelerate the introduction of earthworms on cultivated fields, cocoons of earthworms are introduced into granules with biohumus, from which, when they enter the soil, earthworm larvae that use scented green fertilizers as rapeseed, ryegrass or other green manure.

At the seed plots, when cultivating healthy seed potatoes of higher reproductions, micro-tubers 0.8-1.8 cm in diameter are used as seed material. After extraction from test tubes and washing from agar, such micro-tubers are enveloped with vermicompost in a mixture with a film former and with earthworm cocoons or entomopathogenic nematodes to produce pelleted micro-tubers. Before drazhirovaniya micro-tubers are treated with a 1% solution of extrasol, which accelerates the growth of young plants and protects against damage by root rot. The size of the pelleted micro-tubers with biohumus is within 2.5-3 cm, which allows the use of maple potato planters for planting pelleted tubers at a distance of 15-25 cm from each other to a depth of about 1.5-2 cm. In spring, with a lack of moisture in the upper layer and to accelerate the germination of micro-tubers carry out watering. During the flowering period, they fight against the carriers of viruses - aphids, cicadas, thrips. To control such pests, bitoxibacillin or lepidocide is used.

Mineral combination fertilizers such as Kemira potato are applied in a dose taking into account the biohumus added. The composition of fertilizers includes the main trace elements of copper, manganese, magnesium, boron, sulfur, zinc, molybdenum, etc.

During the growing season, at the beginning of late blight, the drug immunocytophyte KE is used, then after 9-15 days biological preparations are used: planriz in combination with Agat-25K, then with an interval of 9-15 days 2-3 times an extrasol with integral Zh or trichodermin is used .

Immunocytophyte CE is a mixture of arachidonic acid ethyl esters (active ingredient) and urea. The drug is environmentally friendly and harmless to humans, animals, bees, fish. Immunocytophyte is not only a stimulator of the growth and development of plants and enhance their productivity, but also an active inducer of plant resistance to fungal and bacterial pathogens and nematodes. A dose of 2 ml / ha diluted in water is 300-400 liters per hectare.

Planriz was created on the basis of bacteria Pseudomonas putida fluorescens, which is able to effectively suppress phytopathogens - pathogens of root rot of plants. Preplanting treatment of seed potato tubers increases productivity, protects against root rot. Application of the drug to plants protects them from late blight, bacteriosis. The dose of the drug is 100 g per 1 hectare, when treated with vegetative plants, the drug is diluted 1000 times.

The drug Agat-25K is used against bacterial and fungal diseases, contains biologically active substances from plant seedlings in combination with microorganisms based on Pseudomonas fluorescens, the dose rate of the drug is 120 ml / t.

Extrasol is a bacterial drug used as a growth regulator, developed by the All-Russian Research Institute of Agricultural Microbiology (VNIISKHM). The composition of the drug includes live bacterial cells that actively populate the rhizosphere of agricultural plants, as well as their metabolic products, which stimulate plant growth and inhibit the development of phytopathogenic microorganisms.

Trichodermin is a biological product created on the basis of microscopic fungi - antagonists of the genus Trichoderma. Various strains of this kind of fungus are used against root rot.

Integral W - a biological product created on the basis of Bacillus Subtilis, strain 24D. The drug is used against rhizoctoniosis, wilting, blackleg, late blight, alternariosis, dry and wet rot. The consumption rate is 2-3 kg / ha.

Bitoxibacillin - developed on the basis of Bacillus thuringiensis var thuringiensis - is used against a Colorado potato beetle and its larvae at a dose of 2-5 kg / ha.

Lepidocide - developed on the basis of Bacillus thuringiensis var Kurstaki, the dose of the drug is 0.5-3 kg / ha.

To combat the Colorado potato beetle, an air collector is used or biological preparations are used - bitoxibacillin, or lepidocide, or mixtures thereof. After planting, to control weeds and loosening the soil, 2-3 inter-row treatments with a milling cultivator-hiller are carried out until the potato tops are closed.

Before harvesting, the tops are removed mechanically with export to the edge of the field, and the tubers are excavated by a potato harvester or digger with the separation of the undermined mass into two fractions - small and large.

Example 2. In the Ilyinskoye Holding, Moscow Region in 2001-2004 on sod-podzolic loamy soils studied the effect of green fertilizer - rape on the change in the physico-chemical properties of the soil, the productivity and quality of potato tubers. Control - clean steam + 30 t / ha of manure. Rapeseed was sown in early June with the SZT-3.6 seeder using a cross method at a rate of 12 kg / ha, seeding depth 1.5-2.0 cm. Full seedlings of rapeseed were noted 10-14 days after sowing. The phase of full bloom is 50-55 days after sowing. After taking into account the yield, the rapeseed was crushed, and the field was scribbled and plowed to a depth of 19-22 cm. In the spring, the BDT-3 harrow was disking. Before landing, the ridges were cut with the MT3-80 + KON-2.8 aggregate. It has been established that green fertilizers are an important source of replenishment of the missing amount of organic matter in the soil. Plowing the aboveground mass of rapeseed together with root residues positively affects the formation and preservation of humus. Mineral fertilizers, which act as a catalyst in the formation of humus, have a great influence on the humification process. Meliorants can not only preserve the content of organic substances in the soil after growing potatoes, but also leave a positive humus balance for the next crop in the crop rotation. Green fertilizers are a more affordable source of providing the soil with biodegradable organic matter that stimulates the biological activity of the soil. The greatest degree of decomposition of linen for potatoes - 37.1% was obtained when using rapeseed as a precursor with the addition of mineral fertilizers (N ₅₀ P ₅₀ K ₅₀ ), whereas in the control (steam + 30 t / ha of manure), the biological activity was 26 ,four%.

The use of rapeseed positively affects the yield of potatoes - 26.6 t / ha were obtained, in the control - 23.9 t / ha. The incidence of scab has decreased by 8 times on potatoes, the best conditions are being created for combine harvesting - the heap grounding has decreased by 3 times, the number of damaged tubers has decreased by 1.5 times, while the highest profitability of production is achieved - 142%, the cost of production is reduced to 2.07 rubles / kg, the coefficient of energy efficiency reaches 1.42.

Information sources

1. Shed B.F. Agronomical notebook. Potato cultivation using intensive technology. M., Rosselkhozizdat. 1986. p. 28-70.

2. Kryazhkov V. M., Nikiforov A. N., Kuznetsov A. I., Burchenko P. N., Koshayev B. A., Zhinov S. G. et al. Machine technology for the production of potatoes on ridges without the use of herbicides. Vim. 1993. S. 7-13 (prototype).

3. List of pesticides and agrochemicals approved for use on the territory of the Russian Federation in 2004. Appendix to the journal "Plant Protection and Quarantine". No. 5, 2004

Claims (7)

1. A method of cultivating potatoes, including placing potatoes in a crop rotation according to predecessors, stubbing, applying organic and mineral fertilizers, spring harrowing or cultivating, planting in ridges, inter-row cultivation and weed control, pre-harvesting tops and harvesting tubers, characterized in that legume and cereal mixtures, clover, alfalfa, winter cereals or rapeseed are used as a precursor; after stubble cultivation, annual ryegrass or white mustard, the green mass of which is measured, is sown They flock with disk scoops and plow them under the chill, organic fertilizers in the form of granular vermicompost treated with a film former, are applied locally to the ridges for seed tubers, and combined mineral fertilizers with microelements are applied locally on the sides and below the seed tubers, which are treated with planarized mixtures before planting with extrasol, after planting, inter-row treatments are carried out with a milling cultivator-hiller before closing the tops of potatoes. 2. The method according to claim 1, characterized in that the seeds of the precursors are sown from the wireworm together with insecticides - bazudine or heterophos. 3. The method according to claim 1, characterized in that, in the manufacture of granular vermicompost, eggs and larvae of the entomopathogenic nematode Neoaplectana Carpocapsae Weiser or etoneme F, BC or similar species are introduced into it. 4. The method according to claim 1, characterized in that the micro tubers grown on the seed plots are used as seed tubers, while they are coated in biohumus with cocoons of earthworms or entomopathogenic nematodes with a film former. 5. The method according to claim 1, characterized in that for the fight against the Colorado potato beetle, a pneumatic collector of the Colorado potato beetle is used or bitoxibacillin, or lepidocide, or a mixture thereof is used. 6. The method according to claim 1, characterized in that to protect the potato from late blight, tops are used at the beginning of immunocytophyte or Agat-25 in a mixture with planaris, then extrasol mixed with integral W or trichodermin. 7. The method according to claim 1, characterized in that the tops are removed before harvesting mechanically with removal to the edge of the field.