RU2731579C1 - Method of using biological preparations in potato cultivation technology on gray forest soils of central non-chernozem region - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture. Disclosed is a method of using biological preparations in technology of cultivating potatoes on gray forest soils of Central Non-Black Earth Region, which includes postharvest treatment of soil, harrowing, cultivation, harvesting of precursor, cultivation to depth of 8.0 cm. As a forerunner, winter wheat is used, then after spring plowing in the second decade may potato planting. Treatment of tubers before planting is carried out using biological preparations, and when growing potatoes, respectively, treatment is carried out of potato plants with a solution of biopreparation in the phase of budding with interval of 15 days.EFFECT: invention ensures increase of potato yield.1 cl, 1 tbl

Description

The invention relates to the field of agriculture, in particular to agrochemistry, and can be used in the technology of growing potatoes on gray forest soils.

Development of new technologies adapted to modern land use conditions, one of which is the study of modern potato varieties and their response to biological methods of potato cultivation. This culture, which is due to its valuable properties, can grow in various soil and climatic conditions.

It should be borne in mind that the trend of potato production in certain regions of the country requires a decrease in the use of pesticides and a transition to the use of biologically active substances (Zasorin E.V., Priimenko Yu.M., Vlasov V.V. Innovative methods of potato cultivation in the conditions of the Central Black Earth Region / Bulletin of the Kursk Agricultural Academy No. 5, pp. 47-49, 2015; Andrianov A.D., Andrianov D.A. Fertilizers and phytoregulators increase the immunity and productivity of early potatoes / Potatoes and vegetables. No. 4, pp. 11-12, 2006 ).

The main components of potato production technology include: 1 - the actual technology, consisting of agricultural machinery, equipment and a system of measures for growing crops; 2 - availability of high-quality seed material of zoned varieties; 3 - an integrated system for protecting plants from weeds, pest diseases.

One of the most important features of modern potato growing in the Central Non-Black Earth Region is the combination of industrial (whose share is not yet large) with farm and private potato growing.

In this regard, the search for effective methods and the development of technology to increase both industrial potatoes and the productivity of potatoes in plantings are relevant.

The task of the research included the complex processing of potatoes with biological preparations, which is mainly aimed at obtaining a large share of the marketable potato crop, i.e. study of the effect of the drug, which should manifest itself in stimulating seed germination, as well as in enhancing the growth of vegetative mass and leaf surface of plants during complex processing. In addition, to study the tested varieties in the conditions of the Ryazan region, which were absent until now, including potatoes in the conditions of the Non-Chernozem zone.

Thus, insufficient knowledge of the agrobiological properties of modern varieties and their response to biological methods of potato cultivation is an urgent problem of modern agriculture.

It should also be noted that research by scientists shows that biological preparations can have an active influence on the development of plants, the formation of their organs and quality indicators. At the same time, for this period of time, there are no comprehensive research approaches to study the effect of biological preparations on agricultural crops, including potatoes under the conditions of the Non-Black Earth Zone (or insufficient research).

Thus, the expansion of the volume and range of application of such drugs, which are aimed at their approbation and introduction into production, is an urgent task of science and production.

There is a known method of soil enrichment during the cultivation of potatoes in grain-row crop rotation, including the introduction 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 embedded in the soil with disc harrows, plowing and cultivation is carried out, when this, as an organic fertilizer, manure is introduced, which is evenly distributed over the soil surface at a dose of 8 ... 10 t / ha before plowing, and then this mass is plowed under the plow to a depth of 15 ... 20 cm, while the manure is reintroduced in the spring, the plow is plowed, cultivating the soil and planting potatoes (Patent RU No. 2576859, А01В 79/02, А01С 21/00 dated 10.03.2016).

However, its disadvantage is that the cultivation of a potato crop does not allow obtaining sufficiently stable yields with high quality tubers in order to form their organs and quality indicators, for example, to increase the production of marketable potatoes and the yield of tested varieties, in particular varieties for industrial processing for food purposes. ... Requirements, which are as follows: not less than 22% of dry matter, not more than 0.4% of reducing sugars, have a non-darkening softness and give little waste when cleaning tubers, i.e. they must be suitable for processing potatoes weighing 80-120 grams, measuring 5-6.5 cm in the largest transverse dimension. Thus, it is suitable for industrial processing in terms of dry matter and other quality parameters.

As a result, this technology for obtaining potatoes is not high enough on gray forest soils of the Central Non-Black Earth Region, which is associated with the provision of nutrients in the arable soil layer, in particular, there is no possibility of using nutrients in later periods of development of the root system, since only a small part of the roots comes into contact. ... At the same time, the weak development of the roots of the system in the area of fertilizer location reduces the drought resistance of potato plants, and in general, also the production of not sufficiently environmentally friendly products.

There is a known method of preparing the soil zone for the development of potatoes, including cutting ridges, applying fertilizers to the ridges, then planting potatoes, while cutting the ridges is performed at a lower height relative to the traditional one, and potatoes are planted in the main horizon of the treated soil layer, increasing the depth of planting tubers, except In addition, fertilizers are applied to the soil in such a way that their maximum content is at a depth of 25 ... 30 cm with a decrease in this content to the soil surface (Patent RU No. 2629283, А01В 79/02, А01С 21/00, А01В 49/06, А01В 13/02, А01В 13/14, А01В 33/06 dated 28.08.2017).

The disadvantage of this method is that although the cutting of ridges is carried out at a lower height relative to the traditional ones, and potatoes are planted in the main horizon of the treated soil layer, increasing the depth of planting of tubers, however, fertilizers are applied to the soil to a depth of 25 ... 30 cm, therefore fertilization are poorly used in the initial period of development of the root system, i.e. in later periods of development, the root system uses nutrients for a short time, since only a small part of the roots comes into contact. Poor development of the root system in the area of location reduces the drought resistance of potato plants, and as a result, insufficient productivity is observed in the potato production system, in particular, this refers to the different reactions of the tested varieties due to their biological characteristics to expand the use of drugs in potato phytocenoses.

The closest analogue (prototype) to the invention in terms of a set of essential features is a method of minimal tillage, which includes post-harvest tillage, harrowing, cultivation and sowing, while post-harvest tillage is carried out with discators at a speed of at least 16 km / h at an angle of 30 ... 40 ° to the direction of harvesting of the predecessor, harrowing is carried out with spring harrows at a speed of the unit of at least 14 km / h at an angle of 30 ... 40 ° to the direction of processing by discators, cultivation is carried out with a cultivator equipped with flat-cut paws and needle rotors, with a speed of at least 10 km / h at an angle of 30 ... 40 ° to the direction of harrowing, and sowing is carried out using a continuous sowing machine at an angle of 30 ... 40 ° to the direction of movement of the cultivator, while post-harvest processing, harrowing, cultivation and sowing are carried out to a depth of not more than 8.0 cm (Patent RU No. 2453090, А01В 79/02 dated 20.06.2012).

However, with this method, it is also necessary to apply organic fertilizers (for example, manure). The speed of movement of post-harvest equipment is related to achieve the need for a force of impact on crop residues and weeds for harvesting the predecessor, i.e. ensure their effective crushing, mixing with the topsoil and leveling the surface. However, such a technology for growing crops does not provide for the use of biological complex preparations for an active influence on the development of plants, the formation of their organs and quality indicators, for example, on the tested potato varieties, which is responsive to the use of the proposed biological preparations, from the treatment of the potato tubers themselves to the effect of drugs for the timing of the onset of the phases of potato development and for an increase in the share of the marketable potato yield of the tested varieties, for example, the Ryabinushka variety, where the yield increase should be at least 2.1 t / ha.

Consequently, new developments are needed to solve the problem with environmentally friendly methods, namely, to study the reaction of potato varieties to biological preparations and to improve methods for increasing potato yield. Therefore, the study on variety testing of the formation of the yield of potato production for industrial processing for food purposes and its quality, different in the biology of development of zoned and promising varieties of potatoes at given planting rates and the use of drugs in the complex processing of varieties for a given yield will make it possible to offer production the most productive and technological cultivation of potatoes. , in particular, on gray forest soils, as an example of the Ryazan region, for new and promising potato varieties as varieties: Ryabinushka, Zabava, Fritella, Gala. These new varieties were tested in agro-climatic conditions from 2015 to 2018 at the Verderevo agricultural enterprise in the Ryazan region.

The economic efficiency of the technology only for the processing of tubers for the Ryabinushka variety in terms of yield increased by 0.9 t / ha, for the Zabava variety by 1.0 t / ha, for the Fritella variety by 1.3 t / ha, for varieties "Gala" by 0.2 t / ha. And spraying in the budding phase after 15 days increased the yield of the Ryabinushka variety by 1.6 t / ha, for the Zabava variety by 1.5 t / ha, for the Fritella variety by 1.9 t / ha for the Gala "by 1.7 t / ha.

It should be borne in mind that for individual zones, and in particular the Central Non-Black Earth Region, the yield is limited by the duration of the frost-free period and the sum of active temperatures for this period.

In nature, external conditions are constantly changing, so plants can influence each other by releasing special chemicals into the soil and air, which in the smallest quantities have a depressing effect on neighboring plants. At the same time, studies show a certain effect of the use of the preparations "Albit" and "Biocomposite-Correct" on the increase in the share of the marketable crop of potatoes of the tested varieties.

The claimed invention is aimed at solving the following problem - studying the reaction of potato varieties to biological preparations and improving methods for increasing potato yield, as well as the development of potato plants with an appropriate growing season of tubers with complex treatment with a biological preparation of potatoes, while taking into account the receipt of environmentally friendly products.

To solve the problem in the known method of using biological preparations in the technology of potato cultivation on gray forest soils of the Central Non-Black Earth Region, including post-harvest tillage, harrowing, cultivation, harvesting the predecessor, cultivation to a depth of 8.0 cm, according to the invention, winter wheat is used as a predecessor, then, after spring plowing in the second decade of May, potatoes are planted, while the treatment of tubers before planting is carried out using biological preparations, and when growing potatoes, respectively, the treatment of spraying potato plants with a solution of a biological product in the budding phase with an interval of 15 days is carried out.

In addition, for industrial processing of suitable marketable potatoes, its weight is 80 ... 120 grams, size 5 ... 6.5 cm in the largest transverse dimension.

Analysis of patent and scientific and technical literature did not reveal technical solutions identical to the claimed method, which gives reason to consider it to be consistent with the criterion of protectability of "novelty".

The solution to the problem of the effective use of complex processing of biological products (treatment of tubers + spraying in the budding phase and after 15 days) were carried out on dark gray forest soil, heavy loamy. For four years of research, the soil pH was 5.6 ... 5.9. With such indicators, the reaction of the soil solution is considered weakly acidic. The humus content in the soil ranged from 3.1 to 4.0%. The soil with such indicators is considered medium-humus, medium-fertile.

The content of mobile forms of phosphorus is low (156-164 mg / kg), the content of mobile forms of potassium is increased (235-244 mg / kg).

The influence of biological preparations "Albit" and "Biocomposite-correct" on the productivity of potatoes was carried out by us on the example of the enterprise "Verderevo" of the Ryazan region in the period from 2015 to 2018.

The following potato varieties were accepted for research: "Gala", "Ryabinushka", "Zabava", "Fritella" with the use of biological products "Albit" with a flow rate of 0.1 l / t with a working fluid flow rate of 10 l / t and for foliar application 50 g / ha with a working fluid flow rate of 400 l / ha and a biological product "Biocomposite-correct" for treating tubers before planting at a rate of 2.0 l / t, with a working fluid flow rate of 30 l / t and for foliar application of 3.0 l / ha with a liquid flow rate of 400 l / ha. Thus, the experiments included the following options:

1. Without the use of biological agents (control).

2. Treatment of potato tubers with a solution of the biological product "Albit" before planting (with a flow rate of 0.1 l / t with a working fluid flow of 10 l / t).

3. Spraying of growing potato plants with a solution of the biological product "Albit" in the phase of row closing - budding with an interval of 15 days (with a consumption rate of 0.1 l / t with a working fluid consumption of 400 l / ha).

4. Complex treatment with biological product "Albit" (treatment of tubers + spraying in the budding phase and after 15 days).

5. Without the use of biological agents (control).

6. Treatment of potato tubers with a solution of the biological product "Biocomposite-Correct" before planting (with a flow rate of 2.0 l / t, with a working fluid flow rate of 30 l / t).

7. Spraying of growing potato plants with a solution of the biological product "Biocomposite-Correct" in the phase of row closing-budding with an interval of 15 days (with a consumption rate of 3.0 l / t with a working fluid consumption of 400 l / ha).

8. Complex treatment with the biological product "Biocomposite-Correct" (treatment of tubers + spraying in the budding phase and after 15 days).

Planting time is the second decade of May. Potato tubers were planted with a CH-4B planter to a depth of 10-12 cm. The planting was carried out with a row spacing of 70 cm, the planting rate was 4.2 t / ha. The repetition is fourfold.

Variety "Gala" - in terms of ripening, refers to the mid-season, table variety.

The Ryabinushka variety belongs to the mid-season varieties.

Variety "Zabava" is an early ripe potato variety for table use.

The Fritella variety is a mid-season variety for table use.

The studied varieties are resistant to the causative agent of potato cancer, golden potato cyst nematode. Moderately susceptible to the causative agent of late blight, resistant to wrinkled and banded mosaic, leaf twisting.

Example. For the Non-Black Earth Zone, potato planting was preceded by the following activities. The predecessor is winter wheat. Agricultural technology: stubble plowing to a depth of 10 ... 12 cm, autumn plowing (MTZ-1221 + PLN-4-35) to a depth of 25 ... 27 cm, early spring harrowing (MTZ-1221 + BZSS-1.0) in two tracks to a depth of 3 ... 4 cm, cultivation (MTZ-1221 + KPS-4) to a depth of 8 ... 10 cm, cutting ridges (MTZ-1221 + KOH-2.8), preparation of tubers, planting (MTZ-1221 + CH-4-5) to a depth of 10 ... 12 cm, then the first inter-row cultivation (MTZ-1221 + KRN-4.2) to a depth of 3 ... 4 cm, hilling (MTZ-1221 + KOH-2.8) to a depth of 15 ... 20 cm, plant protection (for the control of weeds before the start of potato sprouting (third decade of May), a continuous herbicide "Zenkor" (1.4 kg / ha) was used, against pests - two-time treatment with an insecticide "Karate Zeon" (0.1 l / ha with a mass colonization of plantings with Colorado potato beetle larvae) for processing with an AVT-1 sprayer in a unit with an MTZ-1221 tractor, mowing tops (MTZ-1221 + KIR-1.5) .It should be noted that the techniques were carried out as soon as possible.

In addition, it should be noted that the preparation "Biocomposite-Correct" is a suspension in the culture liquid of a consortium of highly effective strains of different types of bacteria, including those previously not used in agricultural microbiological preparations. The preparation contains a culture of live bacteria and products of their metabolism.

The preparation "Biocomposite-Correct" contains new, for the first time used strains of bacteria. The microorganisms that make up the drug have a wide spectrum of action, namely phytoprotective, growth-stimulating, destructive, antagonistic, nitrogen-fixing and phosphate-mobilizing properties. Strains - producers of the drug are non-pathogenic, harmless to humans, animals, do not possess toxicity, allergenicity and toxicogenicity. Hazard class - 4 (low-hazard substance).

Thus, the combination of all the properties of a drug of this class makes it promising for use in plant growing. However, until now, under the conditions of the Ryazan region, no production tests of the preparation "Biocomposite-Correct" have been carried out directly when growing potatoes.

It should be noted that the most common of the similar drugs is "Albit". He has become for us in fact the standard of drugs of its class in the practice of plant growing.

With regard to the drug of biological origin, "Albit" is a real example, when the development of Russian scientists is competitive in comparison with the best analogues of our country and abroad. Unlike most analogues, "Albit" is a natural preparation that increases the immunity and stress resistance of plants, increasing the yield.

The active ingredient “Albita” is a natural biopolymer of poly-beta-hydrosimalyan acid from soil bacteria Bacillus megaterium. In natural conditions, these bacteria live on the roots of plants, stimulate their growth, protect against diseases and adverse environmental conditions. The preparation also contains substances that stabilize and enhance the effect of the main active ingredient: magnesium sulfate, potassium phosphate, potassium nitrate, carbamide and pine extract. The drug "Albit" does not contain live microorganisms, but only the active substance from them, which makes the drug's action more stable, less susceptible to the influence of environmental conditions.

The meteorological conditions of the growing seasons for the years of experiments: 2015, 2016, 2017 - were characterized by normal moisture and increased temperature conditions (GTC - 1.0), were relatively favorable for the growth, development and formation of high yield of tubers. It should be noted that 2018 is a year with insufficient moisture for potatoes, especially during the critical period of moisture consumption - the phase of the onset of tuberization (GTK-0.8).

The period from planting to emergence of potatoes in the years of experiments was 22-24 days. The timing of the onset of phenological phases depended on the meteorological conditions and the effect of biological preparations, the use of which contributed to the acceleration of the emergence of seedlings by 2-4 days in comparison with the control variant. The subsequent phases of development also came earlier. The tested potato varieties turned out to be responsive to the use of these preparations in complex processing.

The effect of the drug is manifested in stimulating seed germination, as well as in enhancing the growth of vegetative mass and leaf surface of plants. As a result of the studies, the influence of the use of the preparations "Albit" and "Biocomposite-Correct" on the increase in the share of the marketable yield of the tested varieties of potatoes was determined.

Varieties for industrial processing for food purposes must contain at least 22% of dry matter, no more than 0.4% of reducing sugars, have a non-darkening pulp and give small waste when cleaning tubers. The most suitable for processing are potatoes weighing 80-120 grams, 5-6.5 cm in size in the largest transverse dimension. Note that in the studies, all potato varieties met the requirements for industrial processing in terms of dry matter and other quality indicators (the data in the table are not shown to shorten the text).

The qualitative composition of tubers and biochemical processes under the same conditions of production and storage are a varietal characteristic of potatoes. So, for example, the dry matter content of potatoes changed little (21.2-21.8%) from the potato variety, within the experimental error. Note the higher starch content in the Zabava variety (15.3-15.5%) than in other experimental varieties.

Thus, a positive effect of the use of biological preparations on increasing the yield of tubers was revealed. When using the drug "Albit" the greatest increase in the yield of potatoes was formed during the complex processing on the variety "Fritella", and amounted to 2.1 t / ha in comparison with the control variant, and the greatest increase in the yield when using the drug "Biocomposite-Correct" was formed during the complex processing on the variety "Zabava" and is 2.9 t / ha.

The maximum number of tubers per plant was noted for the Fritella variety - 2.2 pcs. (with complex treatment with the drug "Albit") and "Zabava" - 2.7 pcs. (in case of complex treatment with the preparation "Biocomposite-correct").

The greatest increase in the mass of tubers from one plant was observed in the Ryabinushka variety after the complex treatment with the Biocomposite-Correct preparation (by 51.6 g).

This indicates a different reaction of these varieties to this factor due to their biological characteristics, and creates preconditions for the expansion of their use in potato phytocenoses.

In the experiments, all potato varieties met the requirements for industrial processing in terms of dry matter and other quality indicators (not shown). The dry matter content of potato varieties remained relatively constant at 21.2-21.8%. The Zabava variety has a higher starch content (15.3-15.5%).

The timing of the onset of phenological phases depends on meteorological conditions and the effect of biological preparations. Application, which contributes to the acceleration of the emergence of full shoots by 1-2 days compared to the control option. The subsequent phases of development also come ahead of schedule, but already by 4-6 days. Compared to control. The variants of complex processing and treatment of tubers with the preparation "Biocomposite-Correct" of the potato variety "Ryabinushka" turned out to be more effective.

Physiological processes occurring in a plant have a direct impact on the formation of high yields, since 90-98% of the yield of potato tubers is created due to the productivity of photosynthesis.

As the research results show, the biological products used have high biological activity and, as a result, contribute to a more complete realization of the genetic potential of the potato. This manifests itself in increased growth and development of plants and ultimately leads to an increase in yield and quality of potatoes.

Thus, in the system of potato growing, the use of biological preparations is a promising technique that allows you to increase the productivity of the harvest of environmentally friendly potatoes. According to the results of the experiments, biological preparations "Albit" and "Biocomposite-Correct" had a multifunctional effect on potato plants. The maximum yield increase was noted with the complex treatment with the "Biocomposite-Correct" preparation on the "Gala" variety.

Claims (2)

1. A method of using biological preparations in the technology of potato cultivation on gray forest soils of the Central Non-Black Earth Region, including post-harvest tillage, harrowing, cultivation, harvesting the predecessor, cultivation to a depth of 8.0 cm, characterized in that winter wheat is used as a precursor, then after spring plowing in the second decade of May, potatoes are planted, while the tubers are treated before planting using biological preparations, and when growing potatoes, accordingly, spraying potato plants with a solution of a biological product is carried out in the budding phase with an interval of 15 days. 2. The method according to claim 1, characterized in that for the industrial processing of ready-made commercial potatoes the weight is 80 ... 120 grams, the size is 5 ... 6.5 cm in the largest transverse dimension, with complex processing using biological preparations to increase the yield of tubers.