RU2800915C1 - Method for evaluating the effectiveness of fertilizers and agents in the cultivation of specific crops in a specific field - Google Patents

Abstract

FIELD: agriculture and crop production.

SUBSTANCE: method consists in taking soil samples, treating seeds with preparations, bringing seeds into contact with soil and moisture, keeping seeds in contact with soil and moisture, determining and comparing germination parameters of treated and untreated seeds. The method is carried out in two stages with successive first and then the second trial sowing of seeds into the soil, the samples of which are taken in advance from a specific field and prepared for trial crops. Soil sampling from a particular field is carried out in autumn, subject to a decrease in soil temperature ranging from +12°C to +5° C. Selected soil samples are mixed to ensure uniformity, left for storage until January in the open air in the open. In January, the soil is divided into two parts, one part is used for the first test sowing, and the second part is used for the second test sowing. Seeds before sowing are treated with disinfectants in accordance with the specified variants for the first trial sowing, whereas the seeds for the control variant are not treated with any agents. The first test sowing of seeds is carried out, the contact of the prototype seeds with the soil is ensured with the addition of water until the lowest soil moisture capacity is reached. The studied fertilizers are applied in the selected proportions to the soil of the experimental variants in the vegetation containers, and fertilizers are not applied to the soil of the control variant of sowing. Vegetation containers with sown seeds are placed in a thermostat and provide a temperature in the thermostat at 20-25°C, maintain experimental and control samples of seed crops in identical conditions until the formation of green mass within 7-15 days. On the same day, in each variant of the samples, the germinated sprouts are separated from the root system, in particular, the green mass of sprouts is cut off from the root system with the seeds remaining in it, the cut sprouts are weighed from each growing container and compared with the control ones. Moreover, the comparison is carried out by calculating the ratio of the mass of cut sprouts of the tested variants to the mass of cut sprouts of the control variant of sowing on the soil. Based on this comparison, from all the variants for the first trial sowing, the most productive variant is selected, corresponding to a larger value of green mass. In the future, to assess the responsiveness of the crop to subsequent agrotechnical measures with the use of stimulant preparations, vegetation experiments are continued only with the most productive variant. The second trial planting is carried out using the remaining second proportion of the selected soil samples using a specific dressing agent and fertilizer that were identified during the first trial planting as forming the most productive variant. After the appearance of sprouts with noticeable leaves at the second trial sowing, they are sprayed with various stimulant agents under investigation. As a control variant, data on the most productive variant of the first trial sowing is taken. As in the first trial sowing, the experimental and control samples of seed crops are kept under identical conditions until the formation of green mass for 7-15 days, on the same day in each variant of the samples, germinated sprouts are separated from the root system, cut sprouts are weighed from each vegetative capacity and compared with the control sowing on the soil for the most productive variant without the introduction of stimulant agents. Comparison is carried out by calculating the ratio of the weight of the cut sprouts of the tested variants to the weight of the cut sprouts of the control variant of sowing on the soil without spraying the plants with stimulant preparations. Based on this comparison, from all variants of the second trial sowing, a variant of a combination of preparations is selected, in which the mass of the green part of the germinated plants is maximum, that is, according to the results of the first trial sowing, agents are determined that form the most productive variant for pre-sowing seed treatment and fertilizers applied to the soil. Based on the results of the second trial sowing, a conclusion is made about the advisability of using the agent to stimulate plant development or foliar feeding in relation to the cultivation of a particular crop in a particular field under production conditions.

EFFECT: method improves the accuracy of evaluating the effectiveness of fertilizers and preparations, their selection from an extensive list, identifying their optimal combination when cultivating specific crops in a specific field, and obtaining the possibility of predicting the potential development of a specific crop variety on a specific soil.

8 cl, 2 tbl, 1 ex

Description

The invention relates to the field of agriculture, in particular to agriculture and crop production in solving issues of targeted land use, and can be used to evaluate the effectiveness of fertilizers and preparations when cultivating specific crops in a particular field in order to select the best combination of them, taking into account the responsiveness of crops to fertilizers and preparations, for example, preparations for dressing seeds, fertilizers applied to the soil, preparations for foliar feeding of plants, and so on.

Known methods of cultivating crops, including the alternation of crops in a crop rotation, the processing of a fallow field, autumn cultivation, the application of herbicides and the cultivation of a crop, while the order of alternation of mechanical and herbicidal methods of tillage is determined by the level of optimal soil density, and the length of the rotation of the crop rotation is determined by the threshold harmfulness of weeds of the last field of crop rotation (RF patent No. 2387124 according to M. class - A01G 1/00; A01B 79/02, publ. 04/27/2010) (analogue).

However, such methods do not provide for the choice of types of applied fertilizers and preparations according to the effectiveness of their impact on the cultivated crop.

Methods for assessing soil fatigue are known, including the operation of germinating seeds in the test soil placed in vegetation vessels or cuvettes. Germination is carried out for 10-12 days after 20-minute soaking in warm (30°C) water and two hours of drying on filter paper in soil tested for soil fatigue, selected in the root layer of 0-20 cm at a moisture content of 60% of the total moisture capacity, 12 - hourly (per day) illumination of 5 thousand lux, a mixture of three test crops of radish, lettuce and meadow timothy is used as an evaluation test, followed by the calculation of the percentage of germination, on the basis of which three degrees of soil fatigue are distinguished: low (germination is 76% and higher) ; medium (from 50 to 75%); high. (49% and below), on the basis of which they conclude that it is advisable to use the field in agricultural production (RF patent No. 2181238 according to M. class - A01G 7/00, publ. 04/20/2002) (analog).

However, such methods do not provide for the evaluation of the effectiveness of fertilizers and preparations.

There are known methods for evaluating the effectiveness of the use of stimulant preparations for pre-sowing treatment of seeds of grain crops under salinity conditions, which consist in treating seeds with stimulant preparations, placing seeds treated and not treated with stimulant preparations in containers, keeping seeds under saline conditions, determining and comparing parameters characterizing germination of seeds treated and not treated with stimulant drugs, while using closed containers in which test portions of seeds treated and not treated with stimulant drugs are placed, the seeds are covered with dry sand, the weight of which is 4 times the weight of the seeds, and the same with the test portions is added to the containers seeds, the amount of salt solutions, and to assess the effectiveness of the use of stimulant preparations for pre-sowing seed treatment of grain crops under saline conditions, use the difference in the amount of carbon dioxide released per one medium grain during seed germination in contact with salt solutions at room temperature for 16-28 hours (RF patent No. 2581674 according to M.cl. - A01N 25/00; A01P 21/00, publ. 04/20/2016) (prototype).

However, this method is applicable to assess the effectiveness of the use of stimulant drugs only in saline conditions.

There is also known a method for evaluating the effectiveness of the use of stimulant preparations for pre-sowing treatment of seeds of cereal crops on specific soils, which consists in treating the seeds with stimulant preparations, bringing the seeds into contact with moisture, keeping the seeds in contact with moisture, determining and comparing parameters characterizing the germination of treated and seeds not treated with stimulant preparations, while using closed containers in which weighed portions of seeds treated and not treated with stimulant preparations are placed, the seeds are covered with dry sand, the weight of which is 4 times the weight of the seeds, and the same amount of soil is added to the containers solutions isolated from soil pastes, and to assess the effectiveness of the use of stimulant preparations for presowing seed treatment of grain crops, the difference in the amount of carbon dioxide released per one medium grain during seed germination in contact with soil solutions isolated from soil pastes at room temperature for time 16-28 hours (RF patent No. 2581676 according to M.cl. - A01N 25/00; A01P 21/00, publ. 04/20/2016) (prototype).

This method has the following disadvantages:

a) the method does not allow choosing the best combination of preparations and fertilizers when cultivating specific crops in a specific field;

b) it is not possible to predict the potential development of a particular crop variety in a particular field;

c) a complex system is required for determining the amount of carbon dioxide released per one medium grain during seed germination in contact with soil solutions.

The objectives (goal) of the invention are to improve the accuracy of assessing the effectiveness of fertilizers and preparations, their selection from an extensive list, identifying their optimal combination when cultivating specific crops in a specific field, and obtaining the ability to predict the potential development of a specific crop variety on a specific soil.

These tasks are achieved by the fact that in the method for assessing the effectiveness of fertilizers and preparations when cultivating specific crops in a specific field, which consists in taking soil samples, treating seeds with preparations, bringing seeds into contact with soil and moisture, keeping seeds in contact with soil and moisture, determination and comparison of germination parameters of treated and non-treated seeds; the method is carried out in two stages with the successive execution of the first and then the second trial sowing of seeds into the soil, samples of which are taken in advance from a specific field and prepared for trial crops, while the results of the first trial sowing determine the best combination of preparations for pre-sowing seed treatment and applied fertilizers into the soil, and based on the results of the second trial sowing, a conclusion is made about the advisability of using a drug for another purpose (for example, a drug to stimulate plant development or foliar feeding) in relation to the cultivation of a particular crop in a particular field under production conditions. Soil sampling from a specific field is carried out in autumn, subject to a decrease in soil temperature in the range from +12°C to +5°C. Soil samples are taken from a depth of 3-20 centimeters, in particular, in the upcoming cultivation of grain and leguminous crops in the field, the soil is taken mainly from a depth of 5-10 centimeters. Soil samples are taken from different points of the field, as a rule, from 50-200 points, depending on the size of the field area, mainly from 80-100 points, with a larger number of sampling points assigned to larger areas. When taking soil samples from a field with uneven macrorelief and with slopes, samples are not taken from low-lying areas of the field, where the soil is usually more fertile, but from elevated areas. The total mass M _{o of} the selected soil samples is preliminarily calculated taking into account the upcoming number of options for the planned vegetation experiments and the volume of soil layout in vegetation vessels according to the formula:

where m _c is the mass of soil placed in one growing vessel; n is the number of options for vegetation experiments; k is the excess soil coefficient.

Soil excess coefficient k is assigned within values from 1 to 1.5. The selected soil samples are mixed to ensure uniformity, placed in containers, bags or plastic bags and left for storage until January-month in the open air in the open, taking them out to a distance of no more than 100 kilometers from the place of withdrawal. In January, the soil is divided into two parts, one part is used for the first test sowing, and the second part is used for the second test sowing. The soil mass in fractional division is calculated according to the above formula for determining the total mass. The first share of the soil and seeds begin to prepare for the first trial sowing, for which they are gradually heated. To do this, the soil and seeds are kept for 2 days at an ambient temperature of +2°C, then they are kept at a temperature of +10°C for 2 days, then they are kept at a temperature of +24°C for 6 days. When the soil temperature reaches +8°C, the soil is distributed into vegetation containers (into vegetation vessels or cuvettes), the number of which is assigned according to the number of planned experimental and control options for the first trial sowing of seeds. Soil moisture is adjusted to 25-30%. To ensure natural conditions of moisture supply for irrigation, melt water is prepared by thawing snow, which is inherent in the same area in which soil samples were taken. Seeds before sowing are treated with disinfectants in accordance with the specified options for the first trial sowing, for example, chemical and biological protectants, while the seeds for the control variant are not treated with any drugs. The first test sowing of seeds is carried out, the contact of the test samples of seeds with the soil is ensured with the addition of melt water until the lowest soil moisture capacity is reached. The studied fertilizers are applied to the soil of the experimental variants in the vegetative containers in the selected proportions, and the soil of the control variant of sowing is not fertilized. Vegetation containers with sown seeds are placed in a thermostat and provide a temperature of 20-25 ° C in the thermostat, providing identical temperature conditions, more close to natural ones. After the start of seedlings, the growing containers are brought to light. If it is necessary to intensify photosynthesis, additional irradiation is carried out with crop lamps. After 6-7 days after sowing, the germination rate is evaluated in natural terms and, if necessary, calculated as a percentage. Withstand experimental and control samples of seed crops in identical conditions until the formation of green mass within 7-15 days. For cereals and leguminous crops, 10 days are taken as optimal. On the same day, in each version of the samples, the germinated sprouts are separated from the root system, for example, the green mass of sprouts is cut off from the root system with the seeds remaining in it. Weigh the cut sprouts (green mass) from each vegetative container and compare with the control ones. Comparison is carried out by calculating the ratio of the weight of the cut sprouts of the tested variants to the weight of the cut sprouts of the control variant of sowing on the soil. This ratio is usually expressed as a percentage. Based on this comparison, from all the options for the first trial sowing, the most productive option is selected, corresponding to a larger value of green mass. In the future, to assess the responsiveness of the crop to subsequent agrotechnical measures using stimulant drugs, for example, for foliar feeding, vegetation experiments are continued only with the most productive variant and a second trial sowing is carried out using the remaining second share of the selected soil samples. The second trial sowing is carried out according to the same procedure as the first trial sowing, however, using the particular protectant and fertilizer that were identified during the first trial sowing as forming the most productive variant. After the appearance of sprouts with noticeable leaves during the second trial sowing, they are sprayed with various studied stimulant preparations, and the number of vegetation containers is prescribed according to the number of studied types of stimulant preparations. As a control variant, data on the most productive variant of the first trial sowing is taken. As with the first trial sowing, the experimental and control samples of seed crops are kept in identical conditions until the formation of green mass for 7-15 days (for cereals and leguminous crops, 10 days are taken as optimal), providing proper conditions for caring for crops such as watering and lighting . As in the first trial sowing, on the same day, in each variant of the samples, the germinated sprouts are separated from the root system, for example, the green mass of sprouts is cut off from the root system with the seeds remaining in it. Cut sprouts (green mass) are weighed from each growing container and compared with the control (with sowing on the soil for the most productive variant without the introduction of stimulant drugs). Comparison is carried out by calculating the ratio of the weight of the cut sprouts of the tested variants to the weight of the cut sprouts of the control variant of sowing on the soil without spraying the plants with stimulant preparations. On the basis of this comparison, from all variants of the second trial sowing, the best variant of the combination of preparations is selected, in which the mass of the green part of the germinated plants is maximum. At the first stage, based on the results of the first trial sowing, a conclusion is made about the advisability of using one or another drug (for example, a disinfectant) for seed treatment at the preparatory stage before sowing, and at the second stage, based on the results of the second trial sowing, the most productive option for using stimulant preparations for processing developing plants.

In FIG. 1 shows a photograph of the sprouts of the control variant during the first trial sowing of barley variety "Orlan" on the soil without fertilization and without pre-treatment of seeds with disinfectants; in fig. 2-4 show photographs of sprouts of test samples from a series of the first trial sowing of barley variety "Orlan" on soil with the application of fertilizers NPK 15:15:15 and with preliminary seed treatment, respectively, with the disinfectants "Maxim KS", "ProRostim" and "Maisky" ; in fig. 5-7 show photographs of sprouts of test samples from the series of the first trial sowing of barley variety "Orlan" on the soil with the application of fertilizers NPK 16:16:16 and with preliminary seed treatment, respectively, with the disinfectants "Maxim KS", "ProRostim" and "Maisky" ; in fig. 8-12 shows photographs of sprouts of test samples from the series of the second trial sowing of barley variety "Orlan" on the soil with the application of fertilizers NPK 16:16:16 and with preliminary seed treatment with the "Maxim KS" disinfectant and subsequent foliar feeding, respectively, with preparations "Megamix - Nitrogen (N-Yu)", "Megamix - Profi", "Megamix - Phosphorus", "Megamix - Zinc" and "FlorHumate".

The method for evaluating the effectiveness of fertilizers and preparations in the cultivation of specific crops on a specific field is carried out in two stages with the sequential execution of the first and then the second test sowing of seeds into the soil, samples of which are taken in advance from a specific field and prepared for test crops, while according to the results of the first trial sowing, the best combination of preparations for presowing seed treatment and fertilizers applied to the soil is determined, and based on the results of the second trial sowing, a conclusion is made about the advisability of using a drug for another purpose (for example, a drug to stimulate plant development or foliar feeding) in relation to the cultivation of a particular agricultural crop on specific field in a production environment.

The method is performed in the following order:

1. Soil samples are taken from a specific field in autumn, subject to a decrease in soil temperature in the range from +12 ° C to + 5 ° C and a slowdown in biological processes in the soil. Soil samples are taken from a depth of 3-20 centimeters, focusing on the depth of the root layer of plants, in particular, in the upcoming cultivation of grain and leguminous crops in the field, the soil is taken mainly from a depth of 5-10 centimeters.

Soil samples are taken from different points of the field, as a rule, from 50-200 points, depending on the size of the field area, mainly from 80-100 points. At the same time, a larger number of sampling points are assigned for larger areas. When taking soil samples from a field with uneven macrorelief and with slopes, samples are not taken from low-lying areas of the field, where the soil is usually more fertile, but from elevated areas. Thus, they are guided by obtaining objective results for the entire field.

The total mass M _{o of} the selected soil samples is preliminarily calculated taking into account the upcoming number of options for the planned vegetation experiments and the volume of soil layout in vegetation vessels according to the formula:

where m _c is the mass of soil placed in one growing vessel; n is the number of options for vegetation experiments; k is the excess soil coefficient.

The soil excess coefficient k is assigned to ensure sufficient soil volume for vegetation experiments within the range from 1 to 1.5 (at k=1, the soil will be completely used up, at k=1.5, a third of the soil will remain in excess).

As a rule, with a small number of vegetation experiments, the mass of the selected soil samples is usually adjusted to 6-50 kilograms.

The selected soil samples are thoroughly mixed to ensure uniformity (homogeneity), placed in containers, bags or plastic bags and left for storage in the open air in an open form, taking them out to a distance of no more than 100 kilometers from the place of withdrawal, otherwise the climatic conditions can be very differ in comparison with the climatic conditions of the places where soil samples were taken and affect the composition of the soil microflora.

2. The selected soil samples are stored in the open air (in the presence of snow - under the snow cover) until January, which is necessary to synchronize with the time of biological ripening of crop seeds after harvesting.

3. In January, the soil is divided into two parts, one part is used for the first test sowing, and the second part is used for the second test sowing. The soil mass in fractional division is calculated using the indicated formula to determine the total mass. The first portion of the soil and seeds of 99 percent purity begin to prepare for the first trial sowing, for which they are gradually heated. To do this, the soil and seeds are kept for 2 days at an ambient temperature of +2°C, then they are kept at a temperature of +10°C for 2 days, then they are kept at a temperature of +24°C for 6 days. When the soil temperature reaches +8°C, the soil is distributed into vegetation containers (into vegetation vessels or cuvettes), the number of which is assigned according to the number of planned experimental and control options for the first trial sowing of seeds. These containers are numbered or marked according to the trial sowing option. Soil moisture is adjusted to 25-30%.

4. In order to avoid the use of mixed water for irrigation, melt water for irrigation is prepared by thawing snow inherent in the same area in which soil samples were taken (no further than a circle of 100 km).

5. Before sowing, the seeds are treated with disinfectants in accordance with the specified options for the first trial sowing, for example, chemical and biological protectants, while the seeds for the control variant are not treated with any drugs.

6. Sowing seeds or 50 pieces, or 100 pieces of the test culture in each growing container to a depth of 2-3 cm. In this case, the seeds are placed at a distance of 0.5-1.5 cm from each other.

7. Provide contact of experimental samples of seeds with the soil with the addition of melt water until the lowest soil moisture capacity is reached. If a control variant with sowing on sand is also planned, then the quartz sand is pre-washed, clay particles are removed, calcined in the standard mode, sieved through a sieve with 1.0 mm holes, also laid out in a separate vegetative container, and after sowing, a control sample of seeds is brought into contact with sand with the addition of melt water until the lowest moisture capacity of the sand is reached. In particular, in this embodiment, the sand is brought to a moisture content of 60% for cereals and 80% for legumes.

8. The studied fertilizers are applied to the soil in vegetation containers in selected proportions. Fertilizers are not applied to the soil of the control variant of sowing. If, in addition to the control sample with sowing on the soil, a control sample with sowing on the sand is planned, then no fertilizer is applied to the sand either.

9. Vegetation containers with sown seeds are placed in a thermostat and provide a temperature of 20-25 ° C in the thermostat, thereby providing identical temperature conditions, more close to natural ones.

10. After the start of germination (usually after 3 days after sowing), the growing containers are brought to light. If it is necessary to intensify photosynthesis, additional irradiation is carried out with crop lamps. After 6-7 days after sowing, the germination rate is evaluated in natural terms and, if necessary, calculated as a percentage.

11. Withstand experimental and control samples of seed crops in identical conditions until the formation of green mass for 7-15 days (for cereals and leguminous crops, 10 days are taken as optimal).

12. On the same day, in each version of the samples, the germinated sprouts are separated from the root system, for example, the green mass of sprouts is cut off from the root system with the seeds remaining in it. Weigh the cut shoots (green mass) from each growing container and compare with the control (sowing on soil without fertilization and/or sowing on sand without fertilization). Comparison is carried out by calculating the ratio of the weight of the cut sprouts of the tested variants to the weight of the cut sprouts of the control variant of sowing on the soil. This ratio is usually expressed as a percentage. Based on this comparison, the most productive variant is selected from all the options for the first trial sowing, corresponding to a greater value of green mass, which makes it possible to select and prescribe a specific disinfectant and a specific ratio of applied fertilizers when cultivating a specific crop in a specific field. It is also possible to compare the control variant with sowing on sand, for example, to additionally identify the features of the relationship of a particular plant variety with a particular soil.

13. In the future, to assess the responsiveness of the crop to subsequent agrotechnical measures using stimulant drugs, for example, for foliar (foliar or foliar) feeding, vegetation experiments are continued only with the most productive variant and a second test sowing is carried out using the remaining second fraction of the selected soil samples .

14. The second trial planting is carried out in the same manner as the first trial planting, but using the specific protectant and fertilizer that were identified during the first trial planting as forming the most productive variant.

15. After the appearance of sprouts with noticeable leaves (for example, about 3-5 centimeters long) at the second test sowing, they are sprayed with various stimulant preparations under study (for example, for foliar feeding), and the number of vegetation containers is assigned according to the number of stimulant preparations studied. Data on the most productive variant of the first trial sowing is taken as a control variant, and, if necessary, another growing container is additionally formed as a control one with repeated sowing of seeds according to this most productive variant without subsequent application of stimulant preparations.

16. As with the first trial sowing, the experimental and control samples of seed crops are kept in identical conditions until the formation of green mass for 7-15 days (for cereals and leguminous crops, 10 days are taken as optimal), ensuring proper conditions for caring for crops as watering and lighting.

17. As with the first trial sowing, on the same day, in each variant of the samples, the germinated sprouts are separated from the root system, for example, the green mass of sprouts is cut off from the root system with the seeds remaining in it. Cut sprouts (green mass) are weighed from each growing container and compared with the control (with sowing on the soil for the most productive variant without the introduction of stimulant drugs). Comparison is carried out by calculating the ratio of the weight of the cut sprouts of the tested variants to the weight of the cut sprouts of the control variant of sowing on the soil without spraying the plants with stimulant preparations. On the basis of this comparison, from all variants of the second trial sowing, the best variant of the combination of preparations is selected, in which the mass of the green part of the germinated plants is maximum.

This makes it possible to select and prescribe a specific stimulant drug (for example, for foliar feeding) with a specific application rate of this drug in the subsequent sowing directly under production conditions.

Thus, at the first stage, based on the results of the first trial sowing, a conclusion is made about the advisability of using one or another preparation (for example, a disinfectant) for seed treatment at the preparatory stage before sowing, and at the second stage, based on the results of the second trial sowing, the most productive option for using the preparations is determined - stimulants for the treatment of developing plants.

Example 1. In accordance with the description of the claimed method, soil samples were taken from field No. 8 near the village of Maksabash, Tyulyachinsky district of the Republic of Tatarstan in autumn, subject to a decrease in temperature to +5°C. Soil samples were taken from a depth of 5-10 centimeters of the arable layer. Soil samples were taken from 100 different points in the field, the total weight of the selected soil samples was 20 kilograms. The selected soil samples were mixed and left for storage in plastic bags in the open air.

The task of the first trial sowing was to identify and select the best preparation for pre-sowing seed treatment from among the three names "Maxim KS" (contact fungicidal disinfectant), "ProRostim" (bioorganic preparation) and "Maisky" (biofungicide) in relation to the amount of applied NPK complex fertilizers 15:15:15 and NPK 16:16:16. Thus, 7 samples of the first trial sowing were formed, which required 7 vegetative vessels (cuvettes) according to the number of sowing samples, namely, three variants of preparations with NPK 15:15:15 fertilizer, three variants of preparations with NPK 16:16:16 fertilizer and one control sample without NPK fertilization. After separating 10 kg of harvested soil, soil with the same mass of 1 kg was placed in each cuvette (the rest of the soil was not used). Produced the first trial sowing seeds superelite spring barley variety "Orlan" 50 seeds in each pot and carried out the procedures for the care of crops according to the description of the claimed method. After 10 days, the green mass of the sprouts was separated (cut off) and weighed on a balance. The principle of formation of variants of samples and the results of the first trial sowing of seeds are presented in Table 1.

According to Table 1, the most productive option was chosen (sample No. 1.5), which confirms the best composition of the use of the drug "Maxim KS" and fertilizer NPK 16:16:16, which was recommended directly for the industrial sowing of barley. In the future, during the second trial sowing, only this variant was worked.

The task of the second trial sowing was to identify and select the best preparation for foliar (leaf) feeding of an agricultural crop (in this example, spring barley of the Orlan variety), for example, from among five items, namely Megamix-Azot (N-10) , "Megamix-Profi", "Megamix-Phosphorus", "Megamix-Zinc" and "FlorGumat". Formed 6 samples of the second test sowing, which required 6 vegetation vessels (cuvettes) according to the number of sowing samples. To fill the cuvette, the second half of the previously selected soil was used, from which 6 kg were used (1 kg per cuvette). Sowed in each cuvette, 50 pieces of barley seeds of the Orlan variety, pre-treated with the drug "Maxim KS" and immediately applied fertilizers NPK 16:16:16. Upon reaching a length of sprouts (usually 3-4 cm) sufficient for foliar application, the plants in 5 cuvettes were sprayed with different foliar preparations from among the studied ones, and the plants in one trough were not treated with any foliar application and were left as control sample. After 10 days after sowing, the green mass of the sprouts was separated (cut off) and weighed on a scale. The results of the second trial sowing of seeds are presented in table 2.

As a result of comparing the total mass of sprouts with the control one according to table 2, it was obtained that the most advantageous for foliar top dressing of spring barley "Orlan" is the use of the preparation "Megamix-Nitrogen (N-10)" (sample according to option No. 2.1).

On the basis of two trial crops, a general conclusion was made that in order to obtain a high yield during the subsequent production sowing of spring barley of the Orlan variety in field No. apply fertilizers NPK 16:16:16, and foliar feeding of plants should be carried out with the preparation "Megamix-Nitrogen (N-10)".

The proposed method makes it possible to increase the accuracy of assessing the potential effectiveness of fertilizers and preparations when cultivating specific crops in a particular field and to select the best preparations from a variety of them. As a result, a fairly simple and accurate tool for choosing a combination of fertilizers and preparations appears when cultivating specific crop varieties for industrial sowing in a particular field. It turns out the possibility of choosing and prescribing a specific fertilizer and a stimulant drug with a specific application rate of this drug in the subsequent sowing directly in production conditions. This creates better conditions for the growth and development of plants and further higher yields. At the same time, it becomes possible to predict the patterns of development of specific crop varieties in a particular field when using certain fertilizers, preparations, and their combinations.

Claims (9)

1. A method for assessing the effectiveness of fertilizers and preparations in the cultivation of specific crops in a specific field, which consists in taking soil samples, treating seeds with preparations, bringing seeds into contact with soil and moisture, keeping seeds in contact with soil and moisture, determining and comparing germination parameters seeds treated and not treated with preparations, characterized in that the method is carried out in two stages with sequential execution first of the first and subsequently of the second test sowing of seeds into the soil, samples of which are taken in advance from a specific field and prepared for test crops, soil sampling from a specific field carried out in the fall, subject to a decrease in soil temperature in the range from + 12 ° C to + 5 ° C, the selected soil samples are mixed to ensure uniformity, left for storage until January in the open air in the open, in January the soil is divided into two parts, one a share is used for the first test sowing, and the second share is used for the second test sowing, the seeds are treated with disinfectants before sowing in accordance with the specified options for the first test sowing, while the seeds for the control variant are not treated with any drugs, the first test sowing of seeds is carried out, contact is provided test samples of seeds with soil with the addition of water until the lowest moisture capacity of the soil is reached, the studied fertilizers are applied to the soil of the experimental variants in the growing containers in selected proportions, and fertilizers are not applied to the soil of the control sowing option, the growing containers with the sown seeds are placed in a thermostat and provided in a thermostat temperature of 20-25 ° C, test and control samples of seed crops are kept under identical conditions until the formation of green mass for 7-15 days, on the same day in each version of the samples, germinated sprouts are separated from the root system, in particular, the green the mass of sprouts from the root system with the seeds remaining in it, the cut sprouts from each growing container are weighed and compared with the control ones, and the comparison is carried out by calculating the ratio of the mass of the cut sprouts of the tested variants to the mass of the cut sprouts of the control variant of sowing on the soil, based on this comparison from all options for the first trial sowing, the most productive variant is selected, corresponding to a greater value of green mass, in the future, to assess the responsiveness of the crop to subsequent agrotechnical measures using stimulant drugs, vegetation experiments are continued only with the most productive variant, the second trial sowing is carried out using the remaining second share of the selected soil samples using a specific disinfectant and fertilizer, which were identified during the first trial sowing as forming the most productive variant, after the appearance of sprouts with noticeable leaves during the second trial sowing, they are sprayed with various studied stimulant preparations, as a control variant, data on the most productive variant of the first trial sowing, as in the first trial sowing, the experimental and control samples of seed crops are kept in identical conditions until the formation of green mass for 7-15 days, on the same day in each variant of the samples, germinated sprouts are separated from the root system, weighed cut sprouts from each vegetative capacity and compared with the control sowing on the soil for the most productive variant without the introduction of stimulant preparations, the comparison is carried out by calculating the ratio of the mass of cut sprouts of the tested variants to the mass of cut sprouts of the control variant of sowing on the soil without spraying plants with stimulant preparations, on Based on this comparison, from all variants of the second trial sowing, a combination of preparations is selected in which the mass of the green part of the germinated plants is maximum, that is, according to the results of the first trial sowing, the preparations that form the most productive variant for pre-sowing seed treatment and fertilizers applied to the soil are determined, and according to the results the second trial sowing, a conclusion is made about the advisability of using the drug to stimulate the development of plants or foliar feeding in relation to the cultivation of a particular crop in a particular field under production conditions. 2. A method for assessing the effectiveness of fertilizers and preparations in the cultivation of specific crops in a specific field according to claim 1, characterized in that soil samples are taken from a depth of 3-20 centimeters, in particular, in the upcoming cultivation of cereals and leguminous crops in the field, the soil is taken mainly from depths of 5-10 centimeters. 3. A method for assessing the effectiveness of fertilizers and preparations in the cultivation of specific crops in a specific field according to claim 1, characterized in that soil samples are taken from different points of the field, as a rule, from 50-200 points, depending on the size of the field area, mainly from 80-100 points, while more sampling points are assigned for larger areas. 4. A method for evaluating the effectiveness of fertilizers and preparations in the cultivation of specific crops in a specific field according to claim 1, characterized in that the total mass M _{o of} the selected soil samples is preliminarily calculated taking into account the upcoming number of options for the planned vegetation experiments and the volume of soil layout in vegetation vessels according to formula: where m _c is the mass of soil placed in one growing vessel; n is the number of options for vegetation experiments; k - coefficient of excess soil in the range of values from 1 to 1.5. 5. A method for assessing the effectiveness of fertilizers and preparations in the cultivation of specific crops in a specific field according to claim 1, characterized in that melt water is prepared for irrigation by thawing snow inherent in the same area in which soil samples were taken. 6. A method for assessing the effectiveness of fertilizers and preparations in the cultivation of specific crops in a specific field according to claim 1, characterized in that the shares of soil and seeds begin to prepare for each test sowing, for which they are gradually heated, for this the soil and seeds are kept for 2 days at an ambient temperature of + 2 ° C, then 2 days are kept at a temperature of + 10 ° C, then 6 days are kept at a temperature of + 24 ° C, when the soil temperature reaches + 8 ° C, the soil is distributed into vegetation containers, the number of which is assigned according to the number planned experimental and control options for the first trial sowing of seeds, then bring the soil moisture to 25-30%. 7. A method for evaluating the effectiveness of fertilizers and preparations in the cultivation of specific crops in a particular field according to claim 1, characterized in that the number of vegetation containers is assigned according to the number of studied types of stimulant preparations.