RU2092004C1 - Component composition for plant and their organs treatment - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: composition has polymeric film-forming agent (carbamide-formaldehyde resin), solvent (water) and special additions (alkaline metal stearate, humic acid sodium salt, liquid macroelements) and involving liquid complex fertilizers and/or liquid nitrogen fertilizers and trace elements involving ferrous sulfate and/or copper sulfate, growth stimulating agent - 1-ethoxysilatran and agent for plant protection at the following ratio of components, wt.-%: carbamide-formaldehyde resin (by dry matter) 0.1-1.0; alkaline metal stearate 0.001-0.05; humic acid sodium salt 0.005-0.15; liquid macroelements 1-45; trace elements 0.1-2.0; 1-ethoxysilatran 0.001-0.01; agent for plant protection 0.1-20, and water - the rest. EFFECT: enhanced effectiveness of composition. 3 cl, 1 tbl

Description

 The invention relates to agriculture and can be used for processing seeds, tubers and vegetative organs of plants.

 The modern intensive technology for the cultivation of crops provides for the widespread use of various types of composite compositions for treating plants and their organs. For example, a hydrophobizing film-forming composition containing a dressing agent has been developed. This composition is currently not used due to the toxicity of the film former (polystyrene) and solvent (chloroform).

 Also known composition for presowing treatment of seeds containing a pesticide and sodium salt of humic acid. The disadvantage of this composition is its low efficiency, because sparingly soluble and incompatible components are used in the solution, which are easily crumbled upon drying of the seeds, which leads to the loss of preparations and environmental contamination.

 Recently, various formulations containing several components have been used to increase crop yields. These formulations include fertilizers, retordants, herbicides, fungicides, etc. Very promising compositional compositions for foliar top dressing of plants are liquid complex fertilizers (HCF) and liquid solutions containing nitrogen fertilizers (CAS). The main disadvantage of these compositions is the high degree of leachability of nutrients under the influence of atmospheric precipitation and groundwater.

 As agricultural practice shows, the effectiveness of the composite compositions used can be improved by introducing a polymer film former into them. For this purpose, the sodium salt of carboxymethyl cellulose, polyvinyl alcohol, polyacrylates, etc. are used. However, these polymer film formers have a number of significant drawbacks. So, for example, the sodium salt of carboxymethyl cellulose requires preliminary crushing, soaking and filtering. Polyvinyl alcohol is soluble only in hot water and can form a precipitate on the working bodies of the pickling machines. If micronutrients are included in the composition, then in the presence of these polymers coagulation of the components of the composition occurs, which leads to failure of the pipelines. In addition, these polymers are expensive and scarce.

 The closest in technical essence and the achieved results to the proposed one is a composite composition for treating plants and their organs, containing a polymer film former (phenol-formaldehyde resin) in an amount of 2-10 wt. target additives: fir oil in an amount of 0.5 to 4.0 wt. and solvent acetone in an amount of 76.0 to 95.5 wt. The composition is intended for pre-sowing seed treatment, the consumption rate of the composition per ton is established experimentally.

 Production tests showed that this composition with this particular content of components is not universal and is suitable for use for a specific crop.

 The components of known composition during the treatment of the surface of seeds and vegetative organs of plants form a compacted spatial polymer network, the structural and physico-chemical properties of which do not sufficiently ensure the release of nutrients for their entry, for example, to a germinating seed of an agricultural crop.

 The objective of the invention is to develop a composition that is devoid of the above disadvantages, and the use of which should help increase crop yields.

 This goal is achieved in that the composition for treating plants and their organs containing a polymer film former, target additives and a solvent, according to the invention, contains a urea-formaldehyde resin as a polymer film former, water as a solvent, and alkali metal stearate as target additives, humic acid sodium salt, liquid macronutrients, including liquid complex fertilizers and / or liquid nitrogen fertilizers, as well as microelements, including Ulfat bivalent iron and / or copper sulfate, a growth factor-1 etoksisilatran crop protection and in the following ratio, wt.

Urea-formaldehyde resin / dry solids / 0.1 1.0
Alkali metal stearate 0.001 0.05
Humic acid sodium salt 0.005 0.15
Liquid Macronutrients 1.0 45.0
Microelements 0.1 2.0
1-ethoxysilatran 0.001 0.01
Plant protection product 0.1 20.0
Water Else
As the best embodiments of the invention, the following may be recommended:
Urea-formaldehyde resin / dry solids / 0.1 0.5
Alkali metal stearate 0.001 0.004
Humic acid sodium salt 0.005 0.05
Liquid nitrogen fertilizers 5.0 35.0
Copper sulfate 0.1 1.0
1-ethoxysilatran 0.001 0.005
Plant protection product 0.1 4.0
Water Else
or
Urea-formaldehyde resin / dry solids / 0.51 1.0
Alkali metal stearate 0.0041 0.05
Humic acid sodium salt 0.051 0.15
Liquid complex fertilizer 1.0 10.0
Ferrous sulfate 0.5 2.0
1-ethoxysilatran 0.0051 0.01
Plant protection product 4.1 20.0
Water Else
The choice of urea-formaldehyde resin is due to its deficiency, high wetting ability and hiding power. This polymer under the influence of soil microbes is completely destroyed and absorbed by the plant. The hydrophilic nature of the polymer coating on the seeds and organs of plants contributes to the active occurrence of water sorption processes. Water molecules sorbed by the polymer product are absorbed by the proteins of the cell and serve as a trigger for enhancing metabolism.

 The trace elements used in the composition proposed by the authors not only activate the metabolic processes occurring in plant cells, but also play the role of initiators of the curing process of the coating. The spectrum of trace elements is very wide, they are necessary for plants in biochemical processes that occur during respiration and photosynthesis, have a high degree of catalytic properties, and contribute to the formation of chlorophyll. The mass of trace elements in the composition is strictly defined and depends on the type of crop, on the type of soil, on the pH of the soil, etc. Moreover, one of the micronutrients can be used in the spring for pre-sowing seed treatment, another in the summer when applying the composition to the vegetative organs of plants.

 Sodium salt of humic acid is a multifunctional compound. The main function of this drug is plant growth regulator. At the same time, it increases drought and frost resistance of plants, activates the metabolism process. It is soluble in water. Having surface-active properties, it contributes to the combination of solid and liquid components of the composition and their dissolution in water. For example, the rate of dissolution of fat in cold water in the presence of sodium salt of humic acid increases by 2-2.5 times.

 A mixture of macronutrients, which are compounds of nitrogen, phosphorus and potassium, can be introduced into the composition both in suspended and in liquid form, for example, in the form of liquid complex fertilizers or liquid nitrogen fertilizers. Macronutrients as well as micronutrients are used in spring seed treatment and in summer processing of vegetative plants. The set of macronutrients and their mass varies depending on the type of crop, the type of soil, and its pH.

 The introduction of a mixture of macronutrients (nitrogen, phosphorus, potassium) in the composition proposed by the authors allows us to solve the issue of their dosed entry into the plant due to the fixation of macronutrients in the structural polymer network.

 The inclusion of 1-ethoxysilatran in the composition of the organosilicon preparation enhances and activates biological processes, increases the activity of phytohormones that activate the synthesis of DNA and RNA, the activity of enzymes, which leads to the stimulation of cell division, growth and differentiation, i.e. processes underlying morphogenesis.

 When using organic silicon compounds, along with the activation of biological processes, a slowdown in the absorption of toxic and radioactive elements of strontium, cesium and cadmium by plants is observed. In addition, the introduction of hydrolyzable 1-ethoxysilatran into the polymer structural network determines the mode of immobilization of the components from the coating composition in a period characterized by a sufficient amount of moisture and heat.

 A plant protection agent is also introduced into the composition to protect them from pests, weeds, and diseases. The introduction of this tool directly into the film-forming composition can reduce the amount of the drug, because it does not crumble and is not lost when transported and sprayed onto seeds, vegetative organs or when foliar processing of crops.

 When choosing a plant protection product, preference is given to a drug that does not cause side effects when in contact with other components of the composition.

 In the process of moisture absorption by seed, roots, leaves, stems, etc. the components of the composition also absorb moisture, localizing water molecules in the region of action of the active groups of both the polymer and other components of the composition. From this moment, the composition applied to the surface of the seeds or plants begins to fulfill its functions.

 The composition, developed by the inventors, as shown by laboratory and production tests carried out on the farms of the Gomel region of Belarus, can be used with the full composition of the components (with a corresponding decrease in their weight in the composition), for example, in pre-sowing seed treatment and three times in the summer when processing vegetating plants. For example, for crops, the first treatment (watering or spraying) is carried out in the phase of tillering the exit to the tube, the second treatment 14-15 days after the first. In the case of vegetables (cucumbers, tomatoes), the first treatment is carried out by spraying in a phase of 1-2 leaves, subsequent processing 10-15 days after the first.

 At the same time, in the spring and summer treatments of agricultural plants, the components of the composition can be used alternately and with the greatest efficiency. At the same time, the effect of saving components is achieved and the possibility of obtaining cleaner products in an environmental respect is realized.

 For example, during pre-sowing treatment of seeds of grain crops, the composition may include: macro-nutrients (nitrogen, phosphorus, potassium) in liquid form, for example, in the form of ZhKU, micronutrients represented by iron compounds, as well as sodium salt of humic acid, disinfectant, for example, Baytan, urea-formaldehyde resin and alkali metal stearate. During pre-sowing treatment of beet seeds, the composition may include copper, humic acid sodium salt, urea-formaldehyde resin and alkali metal stearate.

 During summer processing of agricultural plants (for example, cereals), the composition may include liquid macroelements, mainly nitrogen, for example, in the form of CAS, a mixture of microelements, for example, copper, iron, sodium salt of humic acid, urea-formaldehyde resin, alkali metal stearate and protective equipment plants from diseases, weeds, pests, etc. depending on the type of crop. Thus, combinations of components of the composition can be very diverse and vary depending on the type of plant, type of soil, time of use of the composition.

 The use of urea-formaldehyde resin and an alkali metal stearate (inhibiting the active centers of polymer molecules) in the composition makes it possible to obtain a coating with controlled physicochemical properties on the treated surfaces of the plant, for example, by combining the qualitative and quantitative composition of the coating components, it is possible: 1) to control the degree and time of curing coating films, and hence the rate of removal of macro- and microelements from the polymer network; 2) to change to a greater or lesser extent the amount of water absorbed by the components of the composition, creating on the surface of the seeds and vegetative organs of plants a kind of water “shirt” that protects them from drying out under adverse weather conditions.

 It was experimentally established that the effect in agriculture from the use of the invention proposed by the authors is determined not only by the composition and mass content of the components, but also by the technology for preparing the working composition. Each individual component of the composition has a certain functional load, implemented only in those variants of the composition that are proposed by the authors. The selection of the components of the composition was carried out taking into account their physical and chemical activity, the ability to combine with other components of the composition, film-forming and enveloping ability, optimization of the technology of preparation and use of the composition, etc. A very important property of the composition proposed by the authors is its manufacturability during storage and use, the absence of side effects from the occurrence of chemical reactions upon contact in the aqueous environment of the components of the composition.

 To prepare the working solution proposed by the authors of the composition, the urea-formaldehyde resin is diluted with water to the desired concentration, thoroughly mixing. Alkali metal stearate, compounds of macro- and microelements, stimulants, plant protection products, etc. add to the working solution gradually and in a certain sequence. We give a specific example of the preparation of a working solution for presowing treatment of barley seeds. The tank of the pickling machine, for example, PS-10, is filled with water at 2/3 of the volume. Then, the components of the composition are loaded into it for a certain mass of seeds. Based on the calculation of one ton of seeds, this requires: 100 ml (130 g) of an aqueous solution of urea-formaldehyde resin, 2 g of alkali metal stearate, 100 g of ferrous sulphate, 1.5 kg of HCF, 1 g of 1-ethoxysilatran, 200 g an aqueous solution of sodium salt of humic acid, 1 kg of baytan and 10 l of water. Each component of the composition is added with the stirrer running.

 In a similar manner, a known composition is prepared. Specific options for the proposed composition and the effectiveness of its use are presented in the table. The effectiveness of the proposed development was evaluated by yield increase. As an example, data from vegetation experiments on grain crops are given.

 Analyzing the data presented in the table, we can draw the following conclusions. Firstly, there can be many options for the composition and the set of components, as well as their mass, must be determined by the specific conditions for growing crops. Secondly, the selection of the components of the composition is carried out in such a way that, improving the technological process of forming the working solution and its spraying, we obtain the synergy effect from their joint use. Thirdly, a very important point is the possibility of combining liquid complex macro-fertilizers with other components of the composition, fixing them in the polymer matrix with a corresponding decrease in leachability. Fourth, it follows from the table that the composition under number 3.1.10 has optimal properties. When applying the composition 3.1.12. during the summer processing of the vegetative organs of plants, an additional increase in the yield of grain (barley) crops by 12.3% is obtained. Compositions 3.1.11 and 3.1.12 are one of the many possible variants of the composition proposed by the authors.

 According to the applicants, the proposed composition for processing plants and their organs meets the criterion of "novelty", since the authors do not know the specified combination of the components of the composition, and their mass content in the composition is also new. With a full set of components of the composition, a synergy of its action is manifested, which is confirmed by the data of experiments (increase in barley yield by 16-19%).

 The proposed composite composition meets the criterion of "inventive step", because the application shows the possibility of forming a composite coating with new physical and mechanical properties on the treated surface, which is confirmed by the synergy effect of the film during its operation during the growing season of crops.

 The proposed composition meets the applicability criterion on the grounds that the current task of increasing crop yields and obtaining more environmentally friendly products is the most urgent. The possibility of using the composition is confirmed by the presence on the farms (collective farms, state farms) of equipment both domestic and imported, for example, a seed dressing machine.

Claims (1)

 1. A composition for treating plants and their organs containing a polymer film former, a solvent and target additives, characterized in that it contains a urea-formaldehyde resin as a polymer film former, water as a solvent, and alkali metal stearate and humic sodium salt as target additives acids, liquid macroelements, microelements, 1-ethoxysinatron and plant protection products in the following ratio of components, wt. Urea-formaldehyde resin (dry solids) 0.1 1.0
Alkali metal stearate 0.001 0.05
Humic acid sodium salt 0.005 0.15
Liquid Macronutrients 1.0 45.0
Microelements 0.1 2.0
1-Ethoxysilatron 0.001 0.01
Plant protection product 0.1 20.0
Water Else
2. The composition according to claim 1, characterized in that as liquid macrocells it contains liquid nitrogen fertilizers, as microelements of copper sulfate in the following ratio of components, wt. Urea-formaldehyde resin (dry solids) 0.1 0.5
Alkali metal stearate 0.001 0.004
Humic acid sodium salt 0.005 0.05
Liquid nitrogen fertilizers 5.0 35.0
Copper sulfate 0.1 1.0
1-Ethoxysilatran 0.001 0.005
Plant protection product 0.1 4.0
Water Else
3. The composition according to claim 1, characterized in that as a liquid macrocells it contains liquid components of fertilizer, as trace elements ferrous sulfate in the following ratio, wt. Urea-formaldehyde resin 0.51 1.0
Alkali metal stearate 0.0041 0.05
Humic acid sodium salt 0.0051 0.15
Liquid complex fertilizer 1.0 10.0
Ferrous sulfate 0.5 2.0
1-Ethoxysilatran 0.0051 0.01
Plant protection product 4.1 20.0
Water Else1

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