RU2813800C1 - Method of growing potatoes using organic and mineral fertilizers - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of growing potatoes using organomineral fertilizers is using nutrients from organic fertilizers remaining after collecting mushrooms and representing a spent substrate — fresh mushroom compost, which includes mushroom mycelium. Winter wheat is used as a forecrop. After spring ploughing, fresh mushroom compost is applied under spring milling soil cultivation at a dose of 84 t/ha. Potatoes are planted in the first ten days of May when the physical ripeness of the soil is achieved, when the ridges are cut to a depth of 8–10 cm, with a tuber planting rate of 3 t/ha. During the growing season, plants are treated with Immunocytophyte preparation in two doses: at the stage of full germination and at the beginning of flowering, and the plants are treated with Match insecticide in one dose at the beginning of flowering.

EFFECT: invention increases the yield and quality of potato tubers, while the organic substances, micro- and macroelements included in the mushroom compost help to increase soil fertility and reduce the technogenic impact on the environment.

1 cl, 4 tbl, 4 dwg

Description

The invention relates to the field of agriculture, in particular, to the use of components of a mushroom substrate block in the form of compost, waste blocks that remain after ripening and harvesting of mushrooms, since they contain fungal mycelium, which helps plants absorb useful elements.

One of the methods for increasing the quality and productivity of potatoes is to use a spent mushroom substrate block and use it as organomineral composts. Adding soil based on spent mushroom composts to the soil is a promising area of research. Mushroom compost stimulates the plastic and energy metabolism of plants, growth processes, helps accelerate the pace of development throughout ontogenesis and creates the preconditions for increasing potato yields.

In this case, spent mushroom compost includes not only crushed substrate components, but also mycelium, and in general waste mushroom blocks (the concept of mushroom blocks is described by Patent RU No. 2332005, A01G 1/04 dated 08/27/2008). The mycelium is processed during the process of rotting the substrate used specifically for growing edible mushrooms (the specifics of the technology for their cultivation are not provided for in the proposal of the authors of the invention, as described in known analogues for industrial production).

However, it should be noted that the microelements included in the mushroom substrate in the form of mushroom compost (hereinafter referred to as mushroom compost) from waste blocks include calcium, potassium, phosphorus, nitrogen, etc. At the same time, mushroom compost reduces soil acidity and is involved in the regulation moisture in the soil. Fertilizer has a beneficial effect on increasing the amount of crops, in particular potatoes. During the process of growth and maturation, plants receive immune resistance to diseases; the microelements contained in the mushroom substrate are absorbed better than in other fertilizers. To obtain good results, it is necessary to correctly calculate the given dose of fertilizer depending on the type of soil and the types of soil themselves, as well as the resulting mushroom composts according to such indicators as fresh compost or rotted compost, which influences all biometric indicators of potato varieties in the direction of increasing yield in Non-chernozem zone of the Ryazan region.

Consequently, fertilizer will increase the fertility of the soil structure and the amount of good and high-quality harvest collected already in the first year of harvesting.

It should be noted that the introduction of mushroom compost helps to eliminate the clogging of fields and lodging of plants, which ultimately ensures an increase in yield and preservation of soil fertility (see Sheudzhen A.Kh. et al. Agrochemical basis for the use of fertilizers OJSC "Poligraf-Yug", Maykop, 2013 , p. 94).

Previously, innovative methods of environmentally friendly, highly productive potato production technologies were studied in certain areas of the country, aimed at reducing the application of pesticides and switching to the use of biologically active substances (Zasorin E.V., Priymenko Yu.M., Vlasov V.V. Innovative methods of cultivating potatoes in the conditions of the Central Black Earth Region" / Bulletin of the Kursk Agricultural Academy, 2005, No. 5, pp. 47-49; Andrianov A.D., Andrianov D.A. Fertilizers and phytoregulators increase the immunity and productivity of early potatoes (Potatoes and vegetables. 2006, No. 4, pp. 11-12).

Mushroom compost blocks were not long ago considered waste - a problem, given environmental requirements and disposal regulations for the use of mushroom blocks. Then biologists discovered the organically rich composition of mushroom composts (blocks), i.e. Spent mushroom compost can currently be widely in demand in agriculture, in particular, it can be used when growing products in limited areas with intensive use of arable land, especially in suburban farms and among farmers with limited land plots. However, it is necessary to take into account the high content of organic substances, nitrogen and other elements noted above for the growing season of using mushrooms (K, Ca, P, Mg, Su, Fe).

Based on the research, it has been established that when mushroom compost is added to the soil when growing potatoes, microelements are absorbed better than when other fertilizers are applied. In addition, the compost should be divided into both fresh and after using it for a year of accumulation in general.

Organomineral compositions containing peat are known. Sapropel, chicken manure with sawdust, small amounts of mineral fertilizers

(RU Patent No. 2099917, A01C 1/06 dated December 27, 1997).

The fertilizer contains a small amount of essential nutritious mineral fertilizers.

Complex fertilizer containing bird droppings with a moisture content of 50-70%, sawdust with a particle size of no more than 3 mm, subjected to preliminary fermentation; high-moor peat with a moisture content of 40-70% and a particle size of no more than 3 mm and dolomite flour in the following ratios, wt. %: bird droppings 5-15; high peat 12-25; fermented sawdust 7-15; dolomite flour 6-20; nitrogen sources 13-24; sources of phosphorus 18-30; sources of potassium 6-15.

The fertilizers obtained by this method are not granular, have high humidity (more than 50%) (Patent RU No. 2236393, C05G 3/00, C05F 11/02, C05F 3/00 dated 09.20.2004). Fertilizers are not balanced in composition, and most importantly contain an insufficient amount of humic compounds (the content of total humates is 1.8-2.55) and microelements. Bird droppings and peat are added to fertilizers without prior fermentation. In this case, peat is used only as a sorbent, and bird droppings without drying or fermentation may contain remnants of pathogenic flora and a large number of various weeds, larvae and harmful insects, etc. A product with high humidity and not granular will cause great difficulties when applied to the soil.

There is a known method of enriching the soil when cultivating potatoes in grain-row crop rotation, which includes the application of organic fertilizers, incorporation with disc harrows to a depth of 10-12 cm, after which green manure is sown, which, when green mass accumulates, is incorporated into the soil with disc harrows, plowing and cultivation are carried out, while Manure is applied as an organic fertilizer, which before plowing is evenly distributed over the soil surface at a dose of 8-10 t/ha. And then this mass is plowed under the plowed grass to a depth of 15-20 cm, while the manure is re-applied in the spring, the plowed land is plowed, the soil is cultivated and potatoes are planted (Patent RU No. 2576859, A01 B 79/02, A01C 21/00 dated 10.03. 2016).

However, its disadvantage is that growing potato crops does not allow obtaining sufficiently stable yields with high quality tubers in order to form their organs and quality indicators, for example, introducing mushroom composts into the soil, which stimulate the plastic and energy metabolism of plants, growth processes that contribute to increasing the pace of development throughout ontogenesis and the creation of prerequisites for increasing potato yields for different varieties tested, when fertilizers should affect the yield already in the first year of use.

There is a known method of growing potatoes in a two-field crop rotation, including placing potatoes on predecessors, tilling the soil with the incorporation of root residues of predecessors, applying mineral fertilizers, cutting ridges, planting in ridges, inter-row cultivation and weed control, pre-harvest removal of tops and harvesting tubers, in which plantings take seed potatoes of early varieties with a growing season of 90-105 days, and its cultivation is carried out in a two-field intensive crop rotation, including: annual grasses - mowing winter rye - mowing potatoes - plowed grass, and early varieties of winter rye are used as a precursor to potatoes, 10 -August 15 after harvesting annual grasses without additional application of organic fertilizers, while winter rye is harvested in the phase of emerging green mass at a height of 12-15 cm, 3-5 days before planting potatoes in ridges, which is carried out on June 10-15 , and potatoes are harvested in September; carried out mechanically by chopping and scattering the tops across the field, and after harvesting the potatoes, autumn plowing is carried out (Patent RU No. 2349068, A01B 79/08 dated March 20, 2009).

The disadvantages of the described method of growing potatoes in a two-field crop rotation include the fact that annual grasses, winter rye and the application of N ₉₀ P ₉₀ K ₉₀ cannot ensure high and sustainable potato yields, and there is also no way to expand the variety of possibilities that ensure the choice of a method to take into account environmental requirements and rules for the use of mushroom compost from a used waste block of natural compost rich in organic composition, which includes the use of mushroom mycelium (structures consisting of protein), which is processed during the process of decay depending on the cultivation of edible mushrooms, for example, champignons and other types of mushrooms , the soil (blocks) of which is safe because it contains natural substances that help plants absorb useful elements.

There are many different methods for cultivating potatoes (Patent RU No. 2354095, A01B 79/02 dated 10.05.2009; Patent RU No. 2316944, A01G 1/00 dated 20.02.2008; Patent RU No. 2314674, A01G 1/00 dated 20.01.2008 ).

The disadvantages of the described technologies include insufficient obtaining of the quality of potato tubers due to the lack of a way to expand the variety of possibilities that provide the optimal choice of methods for using a mushroom block of natural mushroom compost rich in organic composition (substrate), which includes the use of mushroom mycelium, which is processed during the process of rotting into Depending on the cultivation of edible mushrooms, for example, champignons and other types of mushrooms, the soil is safe because it contains natural substances that help plants absorb beneficial elements.

It should be noted additionally the method of growing oyster mushrooms and the substrate for their cultivation, and to understand the composition and properties of spent mushroom compost in the production of growing mushrooms and the substrate for their cultivation, the substrate which contains straw of winter grain crops, buckwheat husks, brewer's grain, gypsum and slaked lime , enriched with magnesium at a certain ratio of components in the manufacture of mushroom blocks in production facilities (Patent RU No. 2332005, A01G 1/04 dated 08/27/2008).

There is a known method of growing the oyster mushroom, which includes preparing a nutrient substrate, inoculating it with mycelium of the fungus, cultivating the mycelium in optimal environmental conditions and irrigating the substrate until the substrate becomes overgrown with mycelium, obtaining the fruiting bodies of the fungus, harvesting, in order to increase the yield of the crop, after fouling of the substrate with mycelium, it is cooled at a temperature of (11) - (-4) ° C for 8-12 hours, and after harvesting, the cycle of cooling the substrate with mycelium and obtaining fruiting bodies of the fungus is repeated twice, and the nutrient substrate uses compost from sawdust, bonfires and reeds (Author's certificate SU 1664174, A01G 1/04 dated July 23, 1991), and a method of growing mushrooms is also known, including the preparation and heat treatment of lignocellulose from agricultural and forestry waste, the introduction of mycelium and the formation of mushroom blocks, while on the sides of the mushroom blocks slits are made, and mushroom cultivation is carried out at air humidity of 50-70%, 0.3-0.7-fold air exchange per hour, air speed of 0.03-0.12 m/s in the absence of watering (Patent RU No. 2141753, A01G 1/04 dated November 27, 1999).

Science and practice have accumulated significant experience in the technology of growing champignons and selecting the substrate. The production of champignons is associated with the creation of conditions in which they produce a high yield. The profitability of mushroom growing depends not only on the organization of the growing process, but also on the quality of planting material. There are different varieties (strains) of champignons. They differ in size, color and taste.

Used as a substrate from organic materials. These include pure manure or with the addition of straw. Manure with sawdust is rarely used due to poor air permeability. Straw improves aeration, optimizes nitrogen and carbon content. Straw can be mixed with bird droppings and mineral fertilizers. Adding slurry improves soil quality. To fill 1 ^m2 of rack with substrate, 100 kg (0.4 ^m3 ) of manure is required. The most in demand is horse manure with a share of straw bedding up to 70%, provided that the animals are fed oats. Cattle manure and chicken manure are also suitable.

Based on their composition, substrates are divided into two categories: 1) Semi-synthetic. The content of horse manure is at least 10%. 2). Synthetic does not contain horse manure. The base is made of straw obtained from winter rye and wheat.

To make the nutrient substrate, only fresh manure is used. To plant planting material, the substrate is cleaned by fermentation and pasteurization.

The substrate is loosened to improve aeration. Bacteria actively multiply, the temperature naturally rises to 70°C. Sugars, starch and proteins are absorbed by microorganisms and processed. This process is called fermentation. Due to the increase in temperature, partial pasteurization occurs and harmful organisms die.

The substrate is cleaned of nematodes, spores of pathogenic fungi, fungus gnat larvae and flies. As soon as the nutrient organic substances run out, the thermophilic bacteria that started pasteurization go into “sleep mode” into the spore stage.

Reducing the temperature to 40°C starts the second stage of fermentation. Bacteria come to life and decompose complex carbohydrates, hemicellulose and fiber. Organic matter is transferred to the second stage of decomposition. The third and final stage of substrate cleaning is steam pasteurization. Bacteria are deactivated and all pathogenic organisms are completely destroyed.

It should be noted that the planting material is sterile spore mycelium. It grows from spores that are added to the substrate. At the same time, the mycelium itself grows quickly, for example, when using pure horse manure, boiled grain of millet, rye or wheat. Grown mycelium is purchased for industrial cultivation of champignons. To fill 1 m of substrate, 300 to 400 g of mycelium is required. Planting material remains viable for no more than two days. For the industrial cultivation of champignon mushrooms, only styryl mycelium, which is obtained by spore propagation, is used. Champignons are planted with about 8 liters of water and the mycelium is added to 1 ton of purified substrate. The soil layer in the germination chambers does not exceed 1.5 meters. For mycelium to germinate, it takes 10 days, a temperature of about 24°C and an air circulation of 3 m per square meter. The sprouted mycelium is filled into polyethylene bags or boxes.

Among the well-known patent sources, the substrate for growing champignons should be noted. The substrate includes wheat straw, bird droppings and water, in order to improve the quality of the substrate and reduce its cost, it additionally contains hydrolytic ligvin with specified ratios of components (Author’s certificate SU No. 1083960, A01G 1/04 dated 04/07/1984), which describes in detail technology for testing the proposed substrate. There is also a known method for growing mushrooms, which includes preparing a substrate with cellulose-decomposing material, adding fungal mycelium to the substrate, forming modules, keeping the modules for mycelium germination and growing mushrooms until a fruiting body is obtained, while the preparation of the substrate is carried out in two steps, where homogenization and sterilization are also carried out , the formation of modules is carried out by introducing mycelium with an amount of substrate sufficient to grow one fruiting body of the fungus, then transferring the modules to the fruiting room until a fruiting body is obtained.

Known methods for growing mushrooms, as a rule, are intended for use, for example, champignons, on compost in a covering material in the conditions of industrial mushroom-growing complexes and small-scale production with the activation of the productive function of the substrate by suppressing pathogenic microflora in the covering layer.

Based on the set of features, the invention described (Patent RU No. 2373689, A01G 1/04 dated November 27, 2009) was adopted as a prototype of the proposed method as a prerequisite for the use of spent mushroom compost in potato cultivation technology, the essence of which consists of the preparation of compost and covering material with the activation of the productive function the latter by introducing the drug and the concentration of other species in a given ratio to each other per 1 m ³ of covering material, to which water is added in the amount of 80-100 liters per 1 m ³ before placing it on the compost. This source of information formulates a substrate in the form of compost with germinated mycelium and laid on top of the covering material and kept in a growing chamber under optimal climatic parameters in moisture regimes determined by the agrotechnical requirements for a particular type of mushroom.

In the Ryazan region, gray forest soil with a low content of organic matter and slightly acidic predominates. Thus, a promising direction that helps reduce the load on ecosystems is mushroom compost, which is natural and contains organic fertilizers. The mushroom compost itself reduces soil acidity, helps improve the substrate, and participates in the regulation of moisture and immune resistance to diseases. Why is it necessary to correctly calculate the required dose of applied fertilizer depending on the type of soil and plant in the form of potato tubers.

It should be noted that the method is very relevant and promising for the cultivation of potato varieties. Organic substances, micro- and macroelements included in mushroom compost help increase soil fertility and reduce man-made impacts on the natural environment. The proposed method will expand innovative methods of environmentally friendly, highly productive potato cultivation technologies and increase productivity.

Therefore, it is necessary to study the influence of mushroom compost components on the yield of potatoes cultivated on gray forest soils of the Ryazan region. Potato varieties: “Vympel”, “Giant”, “Kolobok”, “Favorite”, “Ilyinsky”, “Zhigulevsky”, “Vostorg”, “Cornflower”, “Ivan da Marya”, “Lukyanovsky”, “Krasa Meshchera”, “Sineglazka” and “Nikulsky” underwent production testing under agroclimatic conditions in 2019-2021 at a test site at the Federal State Institution “Agrochemical Service Station “Ryazanskaya”.

Economic efficiency of technology using fresh mushroom compost, i.e. immediately after harvesting mushrooms in the form of champignons, during the cultivation of which there was a high content of nutrients, nitrogen and other elements necessary for the growing season of mushrooms (K, Ca, P, Mg, Su, Fe), the fruited mushroom substrates can be used after appropriate processing as organic fertilizers for the cultivation of agricultural crops (Table 1).

The purpose of the invention is to study the reaction of potato varieties to the introduction of mushroom compost into the soil in the form of production waste after harvesting mushrooms with appropriate processing and to improve methods for increasing potato yields, as well as the development of potato plants, which should manifest itself in increased growth of the vegetative mass and leaf surface on all studied varieties in the conditions of the Ryazan region, while taking into account the production of environmentally safe products.

The technical result is achieved by the fact that the technology for growing potatoes uses organomineral fertilizer obtained after collecting the mushroom block.

Distinctive features of the proposed method are that the use of mushroom composts as organic fertilizers on gray forest soils of the Ryazan region balanced the indicators of the potato yield increase structure. In this case, winter wheat was used as a predecessor, and then fresh mushroom compost was added to the soil for spring milling at a dose of 84 t/ha.

Before starting the field experiments, two forms of organic fertilizer were studied: mushroom compost when stored for a year after mushroom harvesting and fresh mushroom compost.

The experimental scheme included:

1. Control - without adding compost.

2. Fresh mushroom compost.

3. Rotted mushroom compost (storage for a year).

The dose (rate) of applying mushroom composts was determined in accordance with the results of calculations of the need for fertilizers for the planned harvest.

The plot area was 56 ^m2 , and the registration size was 28 ^m2 .

The dose of fresh mushroom compost was 84 t/ha, and for rotted (stored for a year) compost it was 95 t/ha.

The experiment was repeated four times. The placement of the option is systematic.

Field experiments at the experimental site were carried out taking into account the weather conditions of the region and the requirements of potato cultivation technology.

Example. For the region of the Ryazan region, when planting potatoes on gray forest soils, the following measures were envisaged. The predecessor is winter wheat. Agricultural technology: stubble peeling to a depth of 10-12 cm, fall plowing (MT3-121+PLN-4-35) to a depth of 25-27 cm, early spring harrowing (MT3-121+BZSS-1.0) in two tracks to a depth of 3 -4 cm, cultivation was carried out (MT3-121+KPE-3.8). The application of mushroom composts in the experiments was carried out under milling soil cultivation with an aggregate (MT3-121+FP-1.8).

Planting tubers in ridges to a depth of 8-10 cm. Planting rate 3 t/ha. The planting pattern is 75×25 cm. All agrotechnical practices were carried out in optimal time.

The agrochemical characteristics of the soils of the experimental plot are presented in Table 2.

When conducting experiments on the site, the soil was characterized by an average phosphorus content of 14.5 mg/100 g of soil and potassium of 14.4 mg/100 g of soil. The humus content in the soil was at the level of 3.0-3.3% depending on the depth of the soil sample, which was acidified. The sample layer was 0-40 cm, and the acidity was pH 5.3-5.5.

Cultivation of the studied potato varieties according to the duration of the growing season with temperatures above +5°C was 175-185 days; with a temperature of +10°C, respectively, was 135-145 days. The average annual precipitation was 510 mm. In general, the weather conditions for the growing season 2019-2021 were (GTC-1.10), i.e. were satisfactory for the growth and development of potato varieties.

During the growing season, the insecticide "Match" was used to treat potato diseases - once. Application rate - 0.3 l/ha, working fluid consumption - 200-400 l/ha.

The drug "Immunocytophyte" was used as a fertilizer. It helps to increase resistance to diseases, the negative effects of bacteria and microorganisms, plant growth and productivity.

Thus, the drug “Immunocytophyte” activates plant enzymes, and as a result, natural resistance to disease damage is enhanced, and growth processes are also activated during the growing season. This innovative product belongs to the latest generation of drugs and is a stimulator of plant immunity. It contains a mixture of arachidine and urea.

Working solution - one tablet is dissolved in 10-15 ml (tablespoon) of cold water with stirring for 20-30 minutes. Spraying is carried out according to the usual rules during the phase of full germination and during budding.

For example, for one hundred square meters - 2 tablets of the drug are dissolved in 30 ml of water, then added with water to 3 liters. Plant protection for 15-45 days. The working consumption rate is 200-400 l/ha.

Thus, the combination of these properties of a drug of this class makes it promising for spraying when growing potato varieties. However, to date, in the conditions of the Ryazan region, production tests of the drug “Match” and the drug “Immunocytofit” have not been carried out during the growing season of plants.

It should be noted that the introduction of mushroom composts in the experiments was carried out under milling soil cultivation with the MT3-1221+FP-1.8 unit.

Research results. The addition of soil based on spent mushroom composts into the soil stimulated the plastic and energy metabolism of plants, growth processes, contributed to the acceleration of the pace of development throughout ontogenesis, and, as a result, created the prerequisites for increasing the yield of the potato variety. As research results show, the use of mushroom compost when growing different varieties of potatoes influenced biometric indicators, crop structure and crop productivity.

The elements of biometric indicators by experience options, average for 2019-2021, presented in Fig. 1 and fig. 2.

Based on the results of the analysis (Fig. 1 and 2), it was found that fresh compost and rotted compost had an increasing effect on all biometric indicators of potato varieties.

At the same time, fresh compost showed a greater increase in all indicators. There was also an increase in tubers per bush; on average, at the time of harvesting it was: control - 5.6 pieces, fresh compost - 9.1 pieces. and rotted compost - 7.0 pcs. It should also be noted that the number of tubers against the background of fresh compost increased by 62%, and rotted compost by 30%, compared to the control.

In the experiments, all potato varieties met the requirements for industrial processing in terms of dry matter and other quality indicators (not given).

In the experiments, marketability represents the total amount of large and medium fractions of tubers of the crop suitable for food purposes are shown in Table 3.

The highest average marketability of tubers for all varieties was noted in the variant using fresh compost and amounted to 80.8% for varieties, which is 9.1% higher than in the control. This increase is associated with a decrease in the content of the fine fraction by 25.9% compared to the control, while with an increase in the proportion of the coarse fraction by 10.6%.

When rotted mushroom compost was added, marketability was only 76.8%, compared to 3.7% in the control.

Thus, in the experiments, the number of potato tubers, for example, the Ilyinsky variety, on one bush according to the experimental options is given (Fig. 3).

The yield data obtained during testing of RUM-Group LLC composts is presented in Table 4.

When analyzing the data presented, we can conclude that the average yield by variety for 2019-2021 according to the options was: control - 170.9 c/ha, fresh compost - 37.8 c/ha more than the control or 20, 1%, and in the variant with rotted compost the excess was 23.8 c/ha or 11.3% compared to the control.

In addition, the results of biometric indicators carried out in planting potato varieties show that such indicators as plant height, the number of stems in a bush, and leaf surface area have changed. Thus, on average, the height of plants when adding fresh compost increased by 4.2 cm compared to the control, and when adding rotted compost it was 1.8 cm compared to the control. At the same time, the highest foliage of plants was also obtained in the variant with fresh mushroom compost - 5.4 pcs. compared to control, i.e. exceeded by 12.8%. When adding one-year-old mushroom compost it was 3.2 pcs. compared to control, i.e. exceeded by 7.6%. The leaf surface area in the area with fresh mushroom compost was 46.1 thousand ^{m 2} /ha and exceeded by 15.8%, and when applying one-year-old mushroom compost it was 44.0 thousand m ² /ha and exceeded in comparison with control by 10.5%.

Thus, the studies showed that fresh compost has the greatest stimulating effect on leaf surface area on all potato varieties studied.

The results of the research also showed a significant increase in the marketability of potato varieties with the addition of fresh mushroom compost: the Vympel variety - 89.6%, the Nikulsky variety - 88.3%, the Favorit variety - 88.0%, the Ilyinsky variety - 86.5%.

The data (Fig. 4) indicate that the studied yield indicators (c/ha) of potato varieties depend on the type of mushroom compost (variant) used.

It should be noted that the highest yields in the experiment with fresh compost are the following: the Velikan variety - 319.3 c/ha, the Lukyanovsky variety - 288.6 c/ha, the Vympel variety - 273.6 c/ha, the Ilyinsky variety - 265.3 c/ha ha, variety Krasa Meshchera - 273.5 c/ha, variety Nikulsky - 236 c/ha.

The Favorit variety showed the greatest increase in yield by 134% compared to the control, and when rotted compost was added - 128.4% compared to the control. Then comes the Ivan da Marya variety: against the background of fresh compost - 127.2% of the control, against the background of rotted compost - 114.6% of the control. In third place was the variety Vostorg: against the background of fresh compost - 124.5% of the control, against the background of rotted compost - 116.8% of the control.

The proposed invention expands innovative methods of environmentally friendly, highly productive technologies for growing potatoes, allows you to increase the yield of potato tubers and obtain good quality tubers.

Claims (1)

A method of growing potatoes using organomineral fertilizers, characterized by the use of nutrients from organic fertilizers remaining after collecting mushrooms and representing a spent substrate - fresh mushroom compost, which includes fungal mycelium; winter wheat is used as a precursor, after spring plowing fresh mushroom compost is applied under spring milling soil cultivation at a dose of 84 t/ha, potatoes are planted in the first ten days of May when the physical ripeness of the soil is achieved, when cutting ridges to a depth of 8-10 cm, with a tuber planting rate of 3 t/ha, while During the growing season, plants are treated with the drug “Immunocytophyte” in two doses: at the stage of full germination and at the beginning of flowering, and the plants are treated with the insecticide “Match” in one dose at the beginning of flowering.