RU2177226C2 - Method of plant protection from diseases, regulation of their growth and protective-stimulating complex for its realization - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: invention relates to method of treatment of seeds and vegetative plant organs. Invention proposes the protective-stimulating complex of plant protection from diseases and regulation of their growth that includes ammophos, urea, ammonia or sodium carbonate, copper sulfate and water, manganese, boron, molybdenum, sulfur, potassium, magnesium, iron, cobalt in the following ratio of components, wt.%: ammophos, 0.08-0.5; urea, 0.08-0.4; ammonia or sodium carbonate, 0.001-0.48; copper sulfate, 0.0002-0.08; iron, 0-0.08; boron, 0.0001-0.08; manganese, 0-0.2; zinc, 0-0.08; molybdenum, 0.000001-0.04; cobalt, 0-0.04; sulfur, 0.0012-0.3; potassium, 0.0004-0.3; magnesium, 0.0002-0.25; and water, the balance. Invention relates to also method of protection of plants from diseases and for their growth regulation that involves treatment of plant with humic compounds. Immediately before application on plants their seeds and organs the protective-stimulating complex is added to working liquid in the ratio (1: 1)-(1: 210), respectively, and depending on crop species and periods of plants development. Working liquid is applied on seed material to be disinfected firstly followed by treatment of vegetating plants with their height from 0.001 m before blooming and later. EFFECT: increased productivity of crops. 2 cl, 2 ex

Description

 The invention relates to agriculture and can be used for processing seeds, vegetative organs of plants, as well as the roots of seedlings of trees.

 Modern intensive crop cultivation technology provides for the widespread use of various types of methods, protective and stimulating agents to protect plants from diseases and regulate their growth.

 Close to the proposed method is a method of stimulating plant growth, including treating the seeds with a mixture of hydrogen peroxide with urea and additional introduction of copper ions into the mixture [1].

 The disadvantage of this method is its non-universality, i.e. inability to use on vegetative plants.

 A known composition for presowing treatment of seeds containing pesticide and sodium salt of humic acid [2].

 The disadvantage of this composition is its low efficiency, since it uses sparingly soluble and incompatible components in the solution, which easily crumble when the seeds dry, which leads to the loss of drugs and environmental pollution.

 A known composition for increasing the drought tolerance of potato plants, including β-chloroethylphosphonic acid and sodium humate [3].

 Its disadvantage is non-universality, as It is not intended to protect plants.

 Known protective stimulating composition for treating plants and their organs, containing urea-formaldehyde resin with sodium sulfoethoxylate, trace elements, sodium salt of humic acid, 1-ethoxysilatran, protectant and water [4].

 A disadvantage of the protective-stimulating composition is its non-universality, because studies conducted in the Penchin experimental base of the Gomel region found that it cannot be used during the growing season, since the leaves of the plants are dehydrated and they stop the vegetation prematurely, which leads to a decrease crop yields.

 Known tool azophos to protect plants from fungal diseases, containing ammophos, copper sulfate, urea, ammonia and water [5]. A fungicidal composition [6] similar to affinity [5] is known for protecting plants from fungal diseases, in which, in contrast to means [5], ammonia is replaced by sodium carbonate. Azophos [5] and fungicidal composition [6] are closest to the proposed invention. Studies conducted in 1997 at the Brilevo state farm in the Gomel region showed that azophos [5] and fungicidal composition [6] have a slightly pronounced fungicidal effect. Another significant drawback of azophos [5] and fungicidal composition [6] is the accumulation of copper salts [7] in soil, plants, and agricultural products as a result of the use of macro amounts of copper sulfate together with other chemicals.

 The aim of the invention is to reduce environmental pollution, agricultural products and expand the scope of application.

 This goal is achieved by the fact that in the method of protecting plants from diseases and regulating their growth according to the Slavic technology, which includes treating plants with humic compounds and multicomponent growth regulators based on them, immediately before application to plants, their organs and seeds in the working fluid along with humic compounds a protective-stimulating complex is introduced in a ratio of 1: 1 - 1: 210, respectively, which includes ammophos, copper sulfate, urea, ammonia, and / or sodium carbonate, with the introduction of a complex of other substances, for example, fungicidal, and using different combinations of components depending on the types of crops and the timing of plant development, while the application of working fluid can be carried out starting from seed dressing, and vegetative plants are treated at a height of 0.001 meters to flowering and later. Polymeric compositions, CMC glue, and other substances with mass percentages of not more than 0.08 can be used as adhesives when etching seed material.

The goal in the protective and stimulating complex "Polyazofos-K" for protecting plants from diseases and regulating their growth according to the Slavic technology, including ammophos, copper sulfate, urea, ammonia and / or sodium carbonate and water, is achieved by the fact that copper sulfate is introduced iron, boron, manganese, zinc, molybdenum, cobalt, sulfur, potassium and magnesium are introduced into the complex as a macrocell, that is, in mass percent not exceeding 0.08 in the same quality and timing of plant development with Era, potassium, magnesium and manganese can be introduced in mass percent, large 0.08, and elements such as iron, cobalt and others can be removed from the complex. The ratio of the mass percent of its components is selected as follows, depending on the purpose of the treatment and the type of plant:
Ammophos - 0.08-0.5
Urea - 0.08-0.4
Ammonia or (and) sodium carbonate - 0.001-0.48
Copper sulfate - 0.0002-0.08
Iron - 0-0.08
Boron - 0.0001-0.08
Manganese - 0-0.2
Zinc - 0-0.08
Molybdenum - 0.000001-0.04
Cobalt - 0-0.04
Sulfur - 0.0012-0.3
Potassium - 0.0004-0.3
Magnesium - 0.0002-0.25
Water - Else
A new significant distinguishing feature of the proposed method is that, in the working fluid, immediately before the process of applying it to plants, their organs and seeds, along with humic compounds, the protective-stimulating complex "Polyazophos-K" and other substances are introduced in the mass ratio of humic compounds to the sum of all other components, respectively, 1: 1 - 1: 210, depending on the types of crops and the timing of plant development.

 The new significant difference between the protective and stimulating complex "Polyazofos-K" is a significant decrease to the level of trace element, that is, to 0.08 wt.% In its composition of copper sulfate and the introduction of other micro and macro substances in the complex, which affect plant as a growth regulator, which is a significant difference from the known azophos, which is used only as a fungicide, and with a mild fungicidal effect, as shown by tests.

 From the sources of information the process operations are unknown, such as the introduction into the working fluid along with humic compounds immediately before processing the plants (seeds, roots, aerial vegetative part) of a protective-stimulating complex, including Polyazofos-K in the claimed proportions, as the claimed As an invention, the multicomponent composition and the ratio of the mass percent of the chemical components of Polyazophos-K.

 A significant difference between the method and the complex "Polyazofos-K" is that as a result of their combined effect, for example, on the seeds and the vegetative part of plants, a sharp increase in the growth of production, which is synergistic in nature, is provided with a decrease in the degree of development of diseases. The data obtained are confirmed by an act of testing the effects of the method and "Polyazophos-K" on potatoes.

 The use of copper sulfate not in the form of macro quantities, but as a microelement, that is, a sharp decrease in its mass in Polyazofos-K by ten or more times, can drastically reduce environmental pollution and reduce the amount of copper salts in agricultural products intended for food goals or feed livestock.

 An important advantage of the method and the protective-stimulating complex "Polyazofos-K" is the complex effect on plants, which retains the function of suppressing fungal diseases during the growing season, but there is also a new function - regulating plant growth, suppressing the disease during the storage period of agricultural products, t .e. a significant advantage of the method and "Polyazophos-K" is the expansion of the boundaries of the application of known methods and compositions by providing plants with trace elements and other chemicals that affect the quality and yield of crops.

 The use of humic compounds and multicomponent growth regulators based on them for the implementation of the method, for example, hydrohumate, oxyhumate, peat oxidate, etc., allows you to change the flow of metabolism in plant cells, increase the yield of grain, potatoes, vegetables and other crops, increase drought tolerance and frost resistance of plants during the last vegetation period.

 The use of the zinc microelement as part of the new Polyazofos-K preparation changes the permeability of cell membranes, the use of cobalt - the permeability of the plasma membrane, the use of molybdenum - improves the absorption of phosphorus by plants, the use of manganese - affects the movement of phosphorus from aging leaves to young, the use of copper and boron improves the intake into nitrogen plants, etc.

 The proposed method and the protective and stimulating complex "Polyazofos-K" meet the applicability criterion, since the task of increasing crop yields and obtaining more environmentally friendly products is the most relevant.

 Protective-stimulating complex "Polyazofos-K" has a high technological preparation and all its components can be introduced into the complex in the factory.

 The method is as follows. To prepare the working fluid using the proposed method, the humic compounds are diluted with water to the desired concentration, thoroughly mixing. Protective-stimulating complex "Polyazofos-K" is added to the working fluid gradually. In the case of its factory preparation in the form of paste, "Polyazophos-K" is introduced into the working fluid in a continuous paste-like mass. In the case of its preparation in the form of solid or solid and liquid components, these components can be introduced into the working fluid in a certain sequence. It is also possible to introduce into the working fluid, as a matter of priority, "Polyazofos-K", and then humic compounds.

 Consider a specific case of processing plants using a method, for example, the processing of vegetative potatoes. The tank of the tractor sprayer OUK-30 is 1/2 filled with water. Then, the humic compound oxyhumate is poured into it with the stirrer operating. From the additional tank for the mother liquor, the pump delivers the previously dissolved and constantly mixed components of the protective complex “Polyazofos-K” to the main tank. The ratio of oxyhumate and Polyazofos-K is selected from the calculation of processing 1 ha of potato plantings as follows: 0.5-1 l of oxyhumate, 3-4 kg of paste-like Polyazofos-K, from which the mother liquor is prepared and poured into the tank. Those. the ratio of oxyhumate and "Polyazophos-K" corresponds to 1: 6-8 or 1: 3-4. From the working fluid can be introduced from 0.008 to 10 kg of fungicides to enhance, for example, anti-late blight effect. At the same time, insecticides can be administered to combat the Colorado potato beetle in an amount of 0.03-10 kg / ha.

 To accelerate the formation of stems and tubers, calcium can be added to the working fluid in amounts of 0.03-8 kg / ha, depending on its presence in the soil. When using calcium in the indicated amounts, it is allowed to use copper sulfate as a fungicide, i.e. use in the method of "Bordeaux fluid". After introducing all the necessary chemicals into the sprayer tank, the latter is filled with water with constant stirring of the working fluid. After filling the tank with water for 5 minutes, stir the working fluid, and then process the planting of potatoes with a flow of working fluid of 200-300 l / ha.

To process, for example, barley crops in the ear phase, the OUK-30 tractor sprayer tank is filled with water to 1/2 of the volume. From the additional tank for the mother liquor, a paste-like "Polyazofos-K" is fed into the main tank by preliminary dissolving it at the rate of 2-3 kg / ha. Then, in the main tank with constant stirring of the working fluid, CAS liquid nitrogen fertilizers (N: P ₂ O ₅ : K ₂ O = 28: 0: 0) are fed at the rate of 30 l of a factory prepared solution per 1 ha. After that, again through the filler neck, oxyhumate is introduced into the main tank at the rate of 1 l / ha and the tank is filled with water. Working fluids consume 200-300 l / ha. Thus, the ratio of oxyhumate and protective-stimulating complex, including "Polyazofos-K", is for the case the treatment of barley crops 1: 32-33.

 Example 1 of the preparation of the working fluid when pickling seed potatoes is as follows. The tank of seed potato dressing equipment OPS-1AK is poured into 2/3 of the volume with water. Then, the paste-like "Polyazofos-K" is introduced at a rate of 0.25 kg / t, oxyhumate - 0.2 l / t and other substances, for example, succinic acid 0.00002 kg / t, the fungicide TEKTO at the rate of 0.09-0 12 kg / t, etc. In this case, the ratio of oxyhumate and protective-stimulating complex will be close to 1: 1.7-1.85. After the introduction of all the components of the protective-stimulating complex, including Polyazofos-K, the OPS-1AK equipment tank is completely filled with water with constant stirring of the working fluid and the working fluid is applied onto the surface of the seminal club with a flow rate of 1-2 l / t.

 The protective and stimulating complex "Polyazofos-K" is used in the form of paste or crushed and mixed solid components in appropriate packaging, as well as liquid and solid components. When mixed with water, Polyazophos-K forms a suspension and is used in accordance with the technological operations of the method described above, i.e. for treating seeds of various crops, spraying plants during their growing season, spraying individual plant organs, for example, roots of tree seedlings. "Polyazophos-K" is one of the important elements of the implementation of a method of protecting plants from diseases, and regulating their growth according to Slavic technology.

 Example 2. Laboratory experiments performed in 1993 in the meristem laboratory of the Lyaskovichi state farm in the Gomel region and carried out in order to determine the optimal ratio of the components of the protective-stimulating complex, the ratio of the mass percent of the components of Polyazofos-K was established, in which a synergistic effect was noted their effects on plants.

For vegetative potatoes, the ratio was close to that indicated below, based on 1 ha:
Ammophos - 0.21
Urea - 0.16
Ammonia - 0.08
Copper sulfate - 0.024
Iron - 0.01
Boron - 0,034
Manganese - 0.021
Zinc - 0,023
Molybdenum - 0.0021
Sulfur - 0.071
Potassium - 0.038
Magnesium - 0,023
Water - Else
During spring processing of seed potatoes, the ratio of mass percent and the composition of the components of "Polyazofos-K" was as follows, based on 1 ton of tubers:
Ammophos - 0.08
Urea - 0.16
Ammonia - 0.012
Copper sulfate - 0.024
Boron - 0,034
Magnesium - 0.021
Molybdenum - 0.0021
Sulfur - 0.017
Potassium - 0.0084
Water - Else
Tests at the Gomel Regional Experimental Station confirmed the synergistic effect of Polyazofos-K on seed tubers and vegetative potato plants (see table). Moreover, in order to quickly prepare the working fluid, Polyazophos-K was previously dissolved in water, creating a mother liquor - a complex composition. Example 1. To obtain 100 g of the composition used in the processing of vegetative potato plants, to a solution of ammophos obtained by dissolving 0.2 g of a substance in 30 ml of H ₂ O, 0.07 g of ammonia, 0.14 g of urea, a solution are added with stirring 0.02 g of CuSO ₄ • 5H ₂ O - in 4 ml of H ₂ O ₃ , the remaining components of Polyazophos-K are dissolved in a certain sequence, the weight of the suspension is adjusted to 100 g with water. Analogously to Example 1, the compositions for test options 4-9 are obtained .

The experiments were carried out on potatoes in the rotation of the experimental field of the Gomel regional experimental station with sod-podzolic sandy loamy soil. The arable horizon of the soil was characterized by agrochemical indicators: pH 5.8, hydrolytic acidity 1.2 and the amount of absorbed bases 8.5 m - equiv. per 100 g of soil; humus 1.6%, K ₂ O 21.4, P ₂ O ₅ 26.4 mg per 100 g of soil. The predecessor is winter rye. The accounting plot area is 50 m ² , the repetition of the experiment is fourfold. Potatoes were treated with preparations according to the experimental design: seed tubers before planting at the rate of 4 l / t of working fluid using seed treatment potatoes OPS-1AK, plants during the growing season were treated with backpack sprayers OP-10A, at a rate of 250-400 l / ha. The first vegetation treatment was carried out when the potato plants were 15–20 cm high, and the subsequent ones with an interval of 8–10 days.

 From the analysis of the table it follows that the synergistic effect of the method and the protective and stimulating complex "Polyazofos-K" made it possible to obtain yields, for example, in the sixth experimental version, 509.1 c / ha with the yield of the first control variant, that is, without treatment with fungicides, in 355.2 c / ha, the second control option, with four-fold treatment with contact fungicides, in 402.5 c / ha and the third control option, with treatment with arceride, in 402.0 c / ha. The yield increase in the sixth version of the experiment with respect to the first version of the control was 153.9 kg / ha, to the second version of the control - 106.6 and to the third version of the control the increase was 107.1 kg / ha, respectively. If it is fate that the increase in the second version of the control with respect to the first was 47.3 kg / ha and in the third with respect to the first, respectively 46.8, then the difference in the increase in the sixth version, minus the increase in the result of the fifth variant of the experiment in which The claimed method without the use of arceride and the protective and stimulating complex "Polyazofos-K" is 51.1 c / ha. This result is 4.3 c / ha higher than the increase in the third experiment compared with the first, but taking into account the error of the experiment, we can assume that the use of arceride fungicide in the third and sixth variants of the experiment gives the same increase in 46.8-51.1 c / ha. Within these limits is an increase of 47.3 c / ha in the second experiment with a four-fold treatment with contact fungicides.

 Since the increase from the application of the method and "Polyazofos-K" in the fifth embodiment of the experiment, comprising 102.8 kg / ha, exceeds the increase of 46.8-47.3 kg / ha from the use of fungicides in the second and third variants of the experiment by more than two times, the synergy of the result of the integrated use of the method and "Polyazophos-K" is not in doubt.

 Significant is the result of suppression of the disease. So the suppression of late blight in the sixth version of the experiment compared with the first and third options is 1.5-2 times, and the suppression of rhizoctonia, which is the most dangerous disease for potato seed production, is 4.5-9 times, respectively.

 Tests of the proposed method and "Polyazophos-K", within the claimed mass percent, on cereals, fodder and sugar beets, berries, pome seeds, stone fruits and vegetables, also gave positive results both in increasing yields and reducing disease susceptibility.

 From the above advantages of the method and the protective-stimulating complex "Polyazofos-K" it is obvious their versatility for use on different crops and high efficiency both in increasing yields and in suppressing diseases.

Sources of information
1. Patent for invention RU N 2025926, class A 01 C 1/00, A 01 N 59/20, 1995.

 2. USSR author's certificate N 869734, cl. A 01 C 59/00, 1981.

 3. Patent for invention RU N 2008769, cl. A 01 C 57/20, A 01 N 61/00, 1994.

 4. Patent for the invention RU N 2092004, class. A 01 C 25/24, A 01 C 21/02, A 01 C 1/06, A 01 C 1/00, 1997.

 5. Copyright certificate of the USSR N 1338133, cl. A 01 N 47/28, 1987.

6. Copyright certificate of the USSR N 1734622, cl. A 01 N 59/20, 1992. (prototype)
7. Prokopenko S. F., Chentsov V.V. Low-volume spraying of agricultural crops, Moscow: VO Agropromizdat, 1989, p. 18.

Claims (1)

1. A protective and stimulating complex for protecting plants from diseases and regulating their growth, including ammophos, urea, ammonia or carbon dioxide, copper sulfate and water, characterized in that it additionally contains manganese, boron, molybdenum, sulfur, potassium, magnesium, iron , cobalt in the following ratio of components, wt.%:
Ammophos - 0.08-0.5
Urea - 0.08-0.4
Ammonia or sodium carbonate - 0.001-0.48
Copper sulfate - 0.0002-0.08
Iron - 0-0.08
Boron - 0.0001-0.08
Manganese - 0-0.2
Zinc - 0-0.08
Molybdenum - 0.000001-0.04
Cobalt - 0-0.04
Sulfur - 0.0012-0.3
Potassium - 0.0004-0.3
Magnesium - 0.0002-0.25
Water - Else
2. A method of protecting plants from diseases and regulating their growth, including treatment with a working fluid containing humic compounds, characterized in that immediately before applying to plants, their seeds and organs, a protective-stimulating complex according to claim 1 is introduced into the working fluid along with humic compounds 1 in a ratio of 1: 1-1: 210, respectively, depending on the types of crops and the timing of plant development, the working fluid is applied starting from the seed dressing, and vegetative plants are treated x an altitude of 0,001 m before flowering later.

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