RU2785455C1 - Method for growing potatoes using biologisation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, in particular, to the technology of growing ware potatoes. Method includes tilling after the predecessor by peeling the stubble, ploughing, cutting the ridges, performing the pre-sowing treatment of tubers, planting potatoes and performing the pre-harvesting treatment of the plantings. An intermediate crop – white mustard is used as a green-manure fertiliser in the crop rotation, the resulting green mass of said crop is ploughed into the soil in autumn, and mineral fertilisers are applied. White mustard is pre-sown in the first decade of September after the predecessor – winter wheat at a seeding rate of 20 kg/ha to a depth of 2 to 3 cm. In the spring, after the physical ripeness of the soil is reached, mineral fertilisers are applied before planting potatoes, at the rate of 300 kg nitrophoska per 1 ha, followed by burying by cultivation to a depth of 12 to 14 cm, and the potatoes are planted with the ridges formed to a depth of 6 to 8 cm in the first decade of May when the physical ripeness of the soil is reached; tillage is performed before and after planting the potatoes.

EFFECT: increase in the fertility of soil, yield of potatoes, and quality of tubers due to the creation of environmentally sustainable conditions.

2 cl, 3 dwg, 3 tbl, 1 ex

Description

The invention relates to agriculture and can be used in the cultivation of potatoes.

Potato growing is a traditional branch of agriculture, firmly in second place after grain crops. However, one of the main reasons for the low efficiency of domestic potato production is Russia's significant lag behind world agrotechnological progress.

Modern progress in potato growing is possible due to the introduction of high-yielding varieties and the improvement of potato cultivation technology based on biologization, energy saving in an adaptive-landscape economically justified farming system.

It should be noted that methods of biologization of the potato farming system are provided through the use of natural reserves (crop rotation, green manure of natural weeds, crop residues, fallow and virgin lands, phytoregulators of natural origin) and identifying their impact on the productivity and quality of potatoes.

It is known that in agriculture the most important and basic means of production are the soil, which has fertility, and the cultivated plant, which enhances the earthly factors of life only through the soil. Soil fertility is understood as its ability to serve as a habitat for cultivated plants, a source of providing earthly life factors.

Potato requirements for soil and its fertility are associated with its biological characteristics: a relatively poorly developed root system and the formation of stolons and tubers in the soil. The best for potatoes are loose soils with good air permeability, low humidity and permeable subsoil horizons.

One of the methods for improving the consumer qualities of potatoes against the background of the exclusion of chemical plant protection products, economically safe methods and means of weed suppression, can be considered the method of biologization, which is the introduction of crop rotations of legumes for green manure fertilizer, the incorporation of straw and other plant residues into the soil, t .e. replacement of manure with other types of organic fertilizers in the conditions of the Ryazan region on dark gray flax soils.

A known method of pesticide-free cultivation of potatoes, including the placement of potatoes on the best predecessors, stubble cultivation, organic fertilizer application (rotted manure), autumn plowing of the soil, harrowing or cultivation, followed by non-moldboard plowing, cutting ridges before planting, pre-planting treatment of tubers, planting in ridges, inter-row processing, weed control, protection against diseases and pests using biological products, as well as pre-harvest removal of tops and tubers, and organic fertilizers are applied at a dose of 60-120 t/ha.

Fertilization is carried out against the background of liming with lime or dolomite flour at a dose of 130 kg/ha. Harrowing, loosening, cultivation and inter-row tillage are carried out when weeds are found at the “white thread” stage. Planting is carried out with heated seed tubers with pecked eyes, resistant to potato diseases, with a constant build-up of ridges with a layer of soil of 3-4 cm with simultaneous loosening of the bottom of the furrow and slopes of the ridges. Subsequent 2-3 inter-row treatments are carried out at intervals of 10-12 days until the potato tops close. To protect plants from diseases and pests, microbiological and entomopathogenic preparations are used (Patent RU No. 2041585, A01B 79/02, A01G 1/00, A01C 1/00, A01M 21/04 dated 20.08.1995).

However, the above method leaves open the question of a more rational use of land associated with a further increase in potato yields. At the same time, herbicides are used to protect plants from weeds, and insecticides are used to protect plants from pests.

The disadvantage of this method is the use of peeling, which provokes the germination of weeds, destroys growing weeds, and embeds crop residues in the soil. There is no evidence that when an intermediate crop, such as white mustard, grown after harvesting winter wheat, is included in the crop rotation for green manure, it has a significant effect on reducing the number of weeds, and therefore creates conditions for the formation of the productivity of potato plants.

A known method of growing potatoes, including the use as a precursor of a grain crop sown on a layer of perennial grasses, stubble stubble, plowing, cutting ridges in the fall, pre-planting treatment of tubers by heating and germinating tubers on covered areas, planting (Patent RU No. 2199197, A01B 79/ 02, A01G 1/00 dated 02/27/2003).

In order to accelerate the growing season, the technological regulations for the cultivation of potatoes provide for pre-sowing treatment of planting material of tubers with the SYMBIONIT-UNIVERSAL bioimmunostimulator in accordance with vitriol (CaSO ₄ ) - 0.2 g (1 tablet) and other preparations. Then, germinated potatoes are planted directly suitable for the conditions of the middle lane or in the conditions of early spring in the first decade of April. The reference point is the period of complete thawing of the soil. And instead of mineral fertilizers and organic fertilizers - manure to obtain consistently high potato yields, it is recommended to use a complex chlorine-free environmentally friendly organomineral fertilizer of prolonged action ROOT MIX and (or) similar action ROOT FEEDER KP-100, biological environmentally friendly plant growth immunostimulants.

However, in the known method, the question remains open about the more rational use of methods of biologization of agriculture, which are a very relevant area and are not used to a sufficient extent. Biologization techniques include: introduction of legumes into crop rotations, intermediate crops for green manure fertilizer, incorporation of straw and other plant residues into the soil, i.e. replacement of manure with other types, for example, the inclusion in the crop rotation of an intermediate crop of white mustard, grown after harvesting winter wheat for green manure, which is an effective means of reducing the number of weeds. In general, the known method does not use all the possibilities of biologization of agriculture.

EFFECT: increased soil fertility, potato yield and tuber quality by creating environmentally friendly conditions.

The technical result is achieved by the fact that in the method of growing potatoes, including tillage after the predecessor by stubble peeling, plowing, cutting ridges, pre-sowing treatment of tubers, planting and pre-harvest treatment of potato plantings, an intermediate crop is used as green manure fertilizer in crop rotation - white mustard obtained the green mass of which is plowed into the soil in autumn, the application of mineral fertilizers, according to the invention, after the predecessor - winter wheat, white mustard is pre-sown in the first ten days of September with a seeding rate of 20 kg / ha to a depth of 2-3 cm, then, in spring, after reaching physical soil ripeness, before planting potatoes, mineral fertilizers are applied at the rate of three centners of nitrophoska per 1 ha, followed by cultivation to a depth of 12-14 cm, and planting potatoes is carried out by cutting the ridges to a depth of 6-8 cm.

In addition, planting of potatoes is carried out in the first decade of May when the physical ripeness of the soil is reached, and tillage is carried out before and after planting potatoes to control weeds and loosen the soil.

The distinguishing features of the claimed method is that when growing potatoes of the Red Scarlet variety, winter wheat is used as a precursor first, in September after it is harvested, white mustard is used as green manure fertilizer to obtain green mass, plowing is carried out, and it is sown in the first decade of September with a seeding rate of 20 kg / ha, to a depth of 2-3 cm. Then, after obtaining the green mass of white mustard, it is plowed, and in the spring, after the physical ripeness of the soil, before planting potatoes, mineral fertilizers are applied at the rate of three centners of nitrophoska per 1 ha, followed by incorporation cultivation to a depth of 12-14 cm, and the planting of potatoes is carried out when cutting the ridges, in the first decade of May with a density of 50 thousand tubers per 1 ha with a KSM-4 potato planter to a depth of 6-8 cm.

Thus, it generally affects the agrochemical factors of fertility, weed control and loosening of the soil. Ultimately, fertilizers, especially organic fertilizers, significantly influenced all soil regimes, changing the habitat of plants, which was reflected in the growth and development of potatoes and obtaining high yields. There was a significant suppression of weeds when an intermediate crop of white mustard, grown after harvesting winter wheat and cultivated for green manure, was included in the crop rotation.

Thus, the above information indicates that the presented invention has the claimed properties, and a set of distinguishing features of the described method, which ensures the achievement of the specified result.

As a result of the analysis of the state of the art, modern progress due to the introduction of a high-yielding variety and the improvement of potato cultivation technology based on the biologization of agriculture in the conditions of the Ryazan region on dark gray forest soils, characterized by signs identical to all the essential features of the claimed invention, was not found, therefore, the claimed invention corresponds condition "novelty".

An additional search for known solutions showed that the claimed invention is not obvious to the specialist from the prior art, since new conditions have been selected to stimulate the grown plants of a high-yielding potato variety. Therefore, the claimed invention meets the condition of "inventive step"

To confirm the technical results, experimental field work was carried out to study soil fertility, which is expressed in the content of humus and its composition according to the options: control - natural fertility, without fertilization; straw + nitrogen (10 kg of ammonium nitrate); green manure fertilizer, i.e. through the use of methods of biologization of agriculture, which is a very relevant area. Thus, in the technological aspect, these are the factors of biologization of potato cultivation technology - the use of green manure fertilizers. The claimed method to a greater extent takes into account and uses the fertility of the soil, its ability to serve as a habitat for cultivated plants, a source and an intermediary in providing earthly life factors, i. biological features of culture and soil, new elements of industrialization.

Currently, the potato variety "Red Scarlett" is accepted for research.

Variety - "Red Scarlett" - an early variety is called a masterpiece of world selection and a standard of taste. It was bred by Dutch specialists from HZPCHoltandB.V. (Netherlands).

Differs in intensive and fast accumulation of a crop of commodity production already by the 45th-55th day of vegetation. The plant is low or medium tall, semi-straight. Stems of medium thickness with moderate anthocyanin coloration. The leaves are large, dark green, dull, open, slightly wavy at the edges. Inflorescences of medium size.

The appearance of the tubers of the variety "Red Corlett" is distinguished by a leveled, very attractive appearance. It has an oblong elongated-oval shape with a ratio of diameter to length of 1 / 1.5-1.69 (shape index), medium or large sizes, weight 60-125 g. The color of the peel is red (from the English Red) flaky. The eyes are small, lie at a depth of 1.1-1.3 mm. Its pulp does not boil soft and does not darken during heat treatment, the pulp is dense and slightly mealy due to a small amount of starch (10.1-15.6%). The yield of marketable tubers is 82-96% of the total yield. We will specifically show the yield indicators below from studies on dark gray forest soils of the Ryazan region for 2019-2020.

It should be noted that the variety "Red Scorlett" is resistant to diseases: golden and pale nematodes (R _o 1, R _o 4), cancer, common scab. This variety is well suited to the southern and central regions of Russia. In the Ryazan region, for normal development and growth, this is an early ripe variety.

Example. As noted above, the scheme of the field experiment included three options.

For the cultivation of potatoes, the predecessor was winter wheat with a grain yield in 2019 of 2.0 t/ha; in 2020 - 2.8 t/ha, straw - 4.0-5.6 t/ha. In the variant: straw + nitrogen, ammonium nitrate was added at the rate of 10 kg of nitrogen per ton of straw. After that, the soil was cultivated with disc harrows BDT-3 to a depth of 8-10 and 10-12 cm.

White mustard was used as green manure fertilizer, with sowing in the first ten days of September. Mustard was sown at the rate of 20 kg/ha to a depth of 2-3 cm. The yield of white mustard green mass in the variant with green manure plowing was 7.52 t/ha in 2019; in 2020 - 8.2 t/ha.

In the spring, BZTS-1.0 harrowing was carried out on the experimental plot to cover moisture at the physical ripeness of the soil. Before planting potatoes, for all options, mineral fertilizers were applied at the rate of three centners of nitrophoska per 1 ha, followed by planting with cultivation to a depth of 12-14 cm.

The planting of Red Scarlett potatoes was carried out in the first decade of May with a density of 50 thousand tubers per 1 ha using a KSM-4 potato planter to a depth of 6–8 cm. Before planting, the ridges were cut with a KOH-2.8 hiller cultivator.

Pre-emergence and post-emergence inter-row cultivation was carried out by KOH-2.8 rotary harrows BRU-0.7. On plantings of potatoes, two pre-emergence treatments and one post-emergence treatment were carried out for weed control and loosening, as well as two hillings.

Agrotechnics corresponded to the zonal recommendations, which include the Ryazan region.

The experiments were repeated three times. The experiment was set up by the method of randomized repetitions. Placement of plots - in one tier. The total area of the plot is 108 m ² .

The method of accounting for the yield is continuous, from the entire accounting area of the plot. The method of fractional accounting determined the biological yield of potatoes and its structure.

Static processing was carried out by the method of dispersion analysis according to B.A. Dospekhov (1985) using a computer.

The calculation of the humus balance in the soil under potatoes was carried out according to the method proposed by A.M. Lykov (Popov P.D. et al., 1987).

In the experiment, the introduction of mineral and organic fertilizers into the soil affects not only the agrochemical factors of fertility. Fertilizers, especially organic fertilizers, significantly affect all soil regimes, changing the habitat of plants, which affects their growth and development, and ultimately the yield.

The results of biometric counts of potatoes are shown in Fig. one.

Weeds have a significant impact on the growth and development of potato plants. Potatoes are among the plants with weak competitive ability in relation to weeds, especially at the beginning of the growing season. After the rows are closed, potato plants suppress newly emerging weeds well, but if weeds break into the upper tier, they cause great harm to the crop, reducing its size and deteriorating quality. Therefore, the potato field must be free of weeds throughout the growing season (Fig. 2).

The conducted studies have shown that the inclusion in the crop rotation of an intermediate crop of white mustard, grown after harvesting winter wheat for green fertilizer, is an effective tool in reducing the number of weeds.

If we consider each variant of the experiment as a separate agrophytocenosis, then they developed unequal conditions for the formation of the productivity of potato plants (Table 1).

The data in Table 1 indicate that in the years of research, the maximum productivity of potato plants of the Red Scarlett variety was obtained from plowing the green mass of white mustard for fertilizer. In this variant, the mass of tubers from one bush in 2019 was 336 grams, in 2020 - 564 grams, which is 6.6 and 18.5% more than in the control, respectively.

The final indicator of the effectiveness of a particular agricultural method is the value of the crop yield. Harvesting potatoes, carried out by the method of continuous accounting, revealed a close dependence in the change in the variants of experience in the years of research (Table 2).

The studied variants of the experience had an impact on such indicators of crop quality as the starch content in tubers and their marketability (Fig. 3).

The data of FIG. 3 indicate that the studied tuber quality indicators depend both on the weather conditions of the growing season and on the experimental options. In favorable conditions for potatoes in 2020, the marketability of tubers was 19.0-29.1% higher than in 2019. According to the content of starch in tubers, an inverse relationship was revealed. In 2019, with a low yield of potato tubers, their starch content was 1.6-2.0% higher than in 2020.

The most important indicator of soil fertility is the content of humus and its composition. Our calculation of humus for potatoes by nitrogen is presented in Table 3.

To calculate the estimated balance of humus, the following were taken: the yield of winter wheat grain is 30 centners / ha, straw - 60 centners / ha, the yield of green mass of white mustard - 120 centners / ha, nitrogen removal of 1 ton of tubers - 5 kg and recommended standards and coefficients.

The results of biometric counts carried out in potato plantings show that such indicators as plant height, number of stems in a bush, leaf surface area changed depending on the experiment options in 2019. And they were significantly lower than in 2020. The number of stems in the bush and the leaf area were more in 2020 than in 2019 by 0.9 - 1.1 pieces and by 8.0 - 2.3 thousand ^{m 2} / ha, respectively.

On average, in the experiment, the variants with green manure plowing contributed to slightly better growth and development of potato plants compared to the control and the variant with straw. Potato plants were much taller, better leafy and had a greater stem density. The option with green manure plowing had an undeniable advantage over other options. In this variant, compared with the control, the plants were higher by 2.2-19.6%, the number of stems in the bush and the leaf area were 4.8-13.3% and 4.8-25.1% higher, respectively.

Observations of potato infestation showed that as a result of fairly careful planting care, the level of infestation in both years of research is quite low (herbicides were not used). Only by harvesting in 2020, the number of weeds according to the experimental options increased by 2.5-3.0 times, mainly due to a sharp increase in the plants of the wood louse (Stellaria media). Potato plantings were dominated by young spring weeds: white gauze (Chenopodium album), wild radish (Rafanus rafanistrum), obhbwf upturned (Amaranthus retroflexus), and millet (Ehinochloa crusgalli). Less common on the experimental plot were: odorless chamomile (matricaria perforata), field yakut (Thaspi arvensis). Of the perennial weeds, the most common were: field bindweed (Convolvulus arvense) and field sow thistle (Sonshus arvensis).

The plowing of straw against the background of the introduction of fertilizer into the soil with compensating doses of nitrogen led to a slight increase in the infestation of potato plantings.

The cultivation of stubble mustard white for green manure has been an effective tool in suppressing weeds. In this variant, the number of weeds is 33.3-43.4% lower than in the control.

In the variant with straw incorporation, the mass of tubers increased in comparison with the control in both years of research: by 2.9% in 2019 and by 8.1% in 2020.

Counting the number of tubers from 1 bush showed a strong dependence of this indicator on the weather conditions of the growing season. In normal weather conditions in 2020, the number of tubers according to the experimental options was 11.8-12.2 from one bush. In 2019, fewer tubers were formed (7.1-7.9 pieces per bush).

Fractional analysis of potato tubers showed that there were significantly more tubers weighing more than 80 grams in 2020 than in 2019. In the variant with green manure, there were almost 2 times more large tubers than in the control. The straw variant is closer to benchmarks in both 2019 and 2020.

Our statistical processing of yield data allows us to conclude that the influence of the studied options on the yield of potato tubers is significant. In 2019, no significant increase in potato yield was obtained on the variants. In 2020, a significant yield increase was obtained for the studied options.

If we evaluate the effect of the studied options on average over two years, then it should be recognized that the potato yield increased by 10.8% and 11.4%, respectively, from the plowing of straw and the incorporation of green manure.

Variants of straw + nitrogen and green manure provided the highest marketability of tubers, which turned out to be in direct proportion to the level of yield.

Thus, the calculations show that in the control variant, the humus balance is negative (-12.0 c/ha). In the variants with the use of straw + nitrogen, the deficit of the humus balance is reduced to -2.0 c/ha with a higher level of potato yield compared to the control. In the variant with green manure fertilizer, a positive humus balance of 0.4 c/ha is formed.

The conducted studies allow us to draw the following conclusions:

Incorporation into the soil of the green mass of white mustard, grown stubble after harvesting winter wheat, contributes to better growth and development of potato plants, suppression of weeds, an increase in tuber yield by 11.4% and an improvement in their quality.

The introduction of compensating doses of nitrogen in the variant with straw provides an increase in potato yield by 10.8%.

Thus, for the described three variants of experiments on the cultivation of potatoes of the "Red Scarlett" variety, it is advisable to use the incorporation into the soil of green masses of white mustard grown stubble after harvesting winter wheat, while the indicator chosen is the growth and development of potato plants, weed suppression and increase in yield tubers, as well as improving their quality.

Specific data on the rationale for the effectiveness and results of the claimed method of growing potatoes using biologization in agriculture (Tables 1 and 2).

A significant increase in potato yield in both years of research was obtained only from the use of green manure.

The incorporation of straw + nitrogen into the soil increased the level of profitability by 2.8%, and the plowing of green manure reduced it by 7.7%.

Claims (2)

1. A method of growing potatoes, including tillage after the predecessor by stubble peeling, plowing, cutting ridges, pre-sowing treatment of tubers, planting and pre-harvest processing of potato plantings, as a green manure fertilizer in crop rotation, an intermediate crop is used - white mustard, the resulting green mass of which is plowed in autumn into the soil, the application of mineral fertilizers, characterized in that after the predecessor - winter wheat, white mustard is pre-sown in the first decade of September with a seeding rate of 20 kg / ha to a depth of 2-3 cm, then in the spring after reaching the physical ripeness of the soil, before planting potatoes, mineral fertilizers at the rate of three centners of nitrophoska per 1 ha, followed by cultivation to a depth of 12-14 cm, and planting potatoes is carried out when cutting the ridges to a depth of 6-8 cm. 2. The method according to p. 1, characterized in that the planting of potatoes is carried out in the first decade of May when the physical ripeness of the soil is reached, and the tillage is carried out before and after planting the potatoes.

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