RU2735142C1 - Agent for crop topdressing - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the agriculture. Disclosed is an agent for foliar dressing of agricultural crops, containing zinc microelement in form of chelate, macronutrient in form of nitrogen and auxiliary substances, wherein device additionally contains water-insoluble zinc compound. All components are taken at a certain ratio.

EFFECT: invention increases yield of agricultural crops and improves quality of microfertilizer due to maximum prolongation of nutrition during the growing season.

1 cl, 3 tbl, 2 ex

Description

The invention relates to the production of fertilizers for foliar (foliar) feeding of agricultural plants containing zinc in a water-insoluble form and a water-soluble form to increase the yield of various crops.

Currently in agriculture there is a problem of providing plants of various origins with nutrients during the growing season. This problem is usually solved by using mineral fertilizers.

It is known that plants are able to absorb nutrients not only by the root system, but also by the leaf surface. This type of processing is called foliar feeding. Treatment of the leaf surface of plants with aqueous solutions of macro- and micronutrient fertilizers improves the photosynthetic activity of plants, creates favorable conditions for their growth and development, increases productivity by 15-18%, increases resistance to adverse environmental factors.

Foliar dressing with micronutrient fertilizers improves vegetative growth and development of plants, increases productivity and quality of the resulting product. The trace elements contained in the preparations increase the utilization rate of basic fertilizers. The most important trace elements include cations of biometals such as iron, manganese, zinc, copper, as well as molybdenum, titanium and boron. Unlike macronutrients, nitrogen, phosphorus, potassium, the removal of which with the harvest of agricultural crops amounts to hundreds of kilograms per hectare, the consumption of microelements is much lower, from a few grams to several hundred grams.

The composition and ratio of trace elements are selected taking into account the individual needs of a particular culture.

Nitrogen is the main biogenic element; it is part of the protein and nucleic acids. Nitrogen is a part of such vital substances as amino acids, chlorophyll, phosphatides, as well as organic compounds such as alkaloids, glycosides, etc. The mineral forms of nitrogen that enter plants go through a complex cycle of transformations, eventually being incorporated into organic compounds. Basically, nitrogen is used in the form of urea, which improves the penetration and leaf absorption of trace elements.

Zinc has an effect on the metabolism in plants and their growth, which is due to its content in more than 30 enzymes. With a lack of zinc, reducing sugars accumulate, and the content of sucrose and starch decreases, the accumulation of organic acids increases, the content of auxin decreases, and protein synthesis is disrupted. During zinc starvation, there is an accumulation of non-protein soluble compounds, amitosis, amino acids. Plants, for example, tomatoes during zinc starvation form small twisted leaves, plates, petioles. All plants with a zinc deficiency are characterized by growth retardation. Its deficiency manifests itself, first of all, on acidic, highly podzolized soils. Zinc fertilizers are used when the content of this element is less than 0.2-1 mg per 1 kg of soil.

The trace element zinc is introduced into foliar microfertilizers both in the form of salts and in the form of chelate complexes with various complexones.

As a result of the patent information research, the following patents and information sources were selected.

Known means for foliar treatment of cultivated plants (RU 2484073), containing a composition of trace elements of copper, zinc, boron, iron, molybdenum, cobalt, selenium and manganese and a composition of macroelements in the form of nitrogen, magnesium and sulfur.

It is also known micronutrient fertilizer for plant nutrition and planting material processing (RU 2138467), containing salts of trace elements, namely: copper sulfate, zinc sulfate, ammonium molybdenum acid, potassium iodide, cobalt sulfate and manganese sulfate.

There are leaf microfertilizers that have a fairly high content of water-soluble zinc, for example: Volski Mono-Zinc is a fertilizer in the form of a suspension containing 6.1% zinc (75 g / l) and 5% nitrogen, used for foliar feeding 100-300 l / ha ; Polydon Zinc - composition of zinc chelate 70 g / l and nitrogen 20 g / l, applied together with pesticides and solutions of mineral fertilizers, the optimal dosage is 0.5-1 l / ha; Adobe Zinc - composition zinc 6.16% and nitrogen 2.63%, manufacturer Adobe, Poland.

The advantages of this type of microfertilizers are fast action due to the high rate of penetration and assimilation of zinc. The disadvantages of these compositions - due to rapid leaf penetration, a sharp increase in high concentrations of zinc in leaf tissues can occur. This, in turn, leads to local toxicity, which is why plants have to reduce the bioavailability of zinc. As a result, the effectiveness of the applied zinc microfertilizers decreases. In addition, the concentration of zinc in mono-micronutrient fertilizers based on water-soluble forms rarely exceeds 15%, which requires higher rates for the use of such drugs.

Known highly concentrated sheet zinc microfertilizers in the form of suspensions, which contain water-insoluble forms of finca, for example, in the form of zinc oxide. These are YaraVita Tsintrak 700, Lebozol Zinc 700, Basfoliar Zn Flo. They are distinguished by a high zinc content (up to 700 g / l), prolonged action due to the use of water-insoluble forms of this microelement. Foliar zinc microfertilizers with a lower release rate may be more beneficial than fertilizers based on water-soluble forms. A rather slow release of zinc can provide both long-term zinc nutrition of plants over several vegetative phases, and protect plant leaves from local zinc phytotoxicity inherent in high zinc concentrations when using highly soluble forms. At the same time, slowly released forms of zinc may be inferior to water-soluble forms in the rate of onset of positive biological effects. So, if it is necessary to quickly overcome a deficiency, or pseudo zinc in plants, water-insoluble forms of zinc will act more slowly. In this case, it takes time to convert the insoluble forms of zinc into bioavailable, water-soluble forms.

These mineral micro fertilizers are distinguished by a high zinc content (up to 700 g / l), prolonged action due to the use of water-insoluble forms of this microelement. Foliar zinc microfertilizers with a lower release rate may be more beneficial than fertilizers based on water-soluble forms. A rather slow release of zinc can provide both long-term zinc nutrition of plants over several vegetative phases, and protect plant leaves from local zinc phytotoxicity inherent in high zinc concentrations when using highly soluble forms. At the same time, slowly released forms of zinc may be inferior to water-soluble forms in the rate of onset of positive biological effects. So, if it is necessary to quickly overcome a deficiency, or pseudo zinc in plants, water-insoluble forms of zinc will act more slowly. In this case, it takes time to convert the insoluble forms of zinc into bioavailable, water-soluble forms.

The closest to the claimed product is microfertilizer for foliar feeding of agricultural crops Ultramag Chelate Zn - 15 (150.0 g / kg), where zinc is used in a water-soluble form. The disadvantage of this composition is rapid leaf penetration, as a result of which high concentrations of zinc in the leaves increase sharply, which can reduce the mobility and bioavailability of zinc due to the local toxicity of zinc in the plant leaf (List of pesticides and agrochemicals permitted for use in the Russian Federation. 2019 year)

The technical problem solved by the authors was the creation of a leaf zinc microfertilizer, which can provide a fairly fast, more complete and long-term leaf nutrition with zinc while reducing the toxicity of the latter for plants.

The technical result obtained is an increase in the yield of agricultural crops and an improvement in the quality of microfertilizers due to the maximum prolongation of nutrition during the growing season.

The technical result is achieved by the fact that the agent for foliar feeding of agricultural crops contains a trace element zinc in the form of a chelate, a macro element in the form of nitrogen and auxiliary substances. The tool additionally contains a water-insoluble zinc compound with the following content of ingredients, wt. %:

total nitrogen 0.1-20 zinc chelate 0.1-30 water-insoluble zinc compound 10 - 60 Excipients 0.3-35 water the rest is up to 100%

As the water-insoluble zinc compound, zinc oxide, zinc orthophosphate, zinc carbonate or zinc oxalate are used.

The invention is illustrated by the following examples.

Example 1. Technology of preparation of means

The calculated amount of artesian water and the calculated amount of nitrogen-containing compound are loaded into the reactor with stirring, bringing the pH of the mixture to 9.5 ± 0.1. Then the calculated amounts of auxiliary connections are loaded. The mixture is stirred until uniform and the calculated amount of water-insoluble zinc compound and zinc chelate are charged. The resulting suspension is homogenized, mixed until smooth. The resulting composition, see table. 1.

Example 2. The effectiveness of the agent for stimulating the growth of crops

The effectiveness of the proposed agent was studied in the course of agrochemical tests, which established the positive effect of these micronutrients on the yield of agricultural crops (spring wheat, corn) and the quality of the grown products. The consumption rate of the drug was 0.2-2.0 l / ha. The percentage of components in the tool is presented in table. 1.

In the conditions of the Nizhny Novgorod region, foliar feeding of plants of spring wheat of the Ester variety, with the declared composition of 2.0% of total nitrogen and 40.0% of total zinc, and a particle size of 1.0 microns, contributed to the safety of plants by the harvesting period by 98%. The tool had a positive effect on the formation of elements of the structure of the crop: the weight of 1000 grains increased by 0.3 g, which had a positive effect on the yield and quality of seeds. The seed yield increased by 1.4 c / ha, while the yield in the control was 28.6 c / ha. The use of the claimed agent during the growing season contributed to an increase in the content of crude gluten in the grain by 0.3-0.7%, the protein content - by 0.2-0.3%. The highest efficiency was observed when using the composition at a dose of 2.0 l / ha.

For comparison, under the same conditions in the Nizhny Novgorod region, the Ultramag Chelate Zn-15 agent was used, where only water-soluble zinc was used in the form of a chelate and its content in the preparation was 15%. This preparation showed the following results: the weight of 1000 grains increased by 0.1 g. The seed yield increased by 0.6 c / ha, while the yield in the control was 26.7 c / ha. The use of the product during the growing season contributed to an increase in the content of crude gluten in the grain by 0.1-0.3%, the protein content - by 0.1-0.2%. The greatest efficiency was noted when using the agent at a dose of 200.0 l / ha. The data are given in table. 2.

Similarly with the example of the Nizhny Novgorod region, an experiment was carried out on the corn crop of the Krasnodar 315 MB hybrid in the conditions of the Rostov region, the use of the agent, with the declared composition of 2.0% total nitrogen and 40.0% total zinc, the particle size of the agent 1.0 μm, in unfavorable conditions had a positive effect on plant productivity. It was noted with a single feeding at a dose of 2.0 l / ha, an increase in the mass of grain from one plant (110.6 g, control - 92.7 g). The increase in grain yield under the influence of the agent was 4.5-11.0 c / ha (7.9-19.4%), against the yield in the control of 56.8 c / ha. The product had no negative impact on the quality of the corn grain. The crude protein content in the grain ranged from 11.3-11.9% throughout the experiment. Protein collection increased by 9.8-25.7%. The greatest efficiency was noted when using the agent at a dose of 2.0 l / ha.

For comparison, under the same conditions in the Krasnodar Territory, the Ultramag Chelate Zn-15 agent was used, where only water-soluble zinc was used in the form of a chelate and its content in the preparation was 15%. This preparation showed the following results: it was noted with a single feeding at a dose of 2.0 l / ha, an increase in the mass of grain from one plant (100.1 g, control - 91.3 g). The increase in grain yield under the influence of the agent was 2.0-5.7 c / ha (4.7-14.5%), against the yield in the control 54.8 c / ha. The product had no negative impact on the quality of the corn grain. The crude protein content in the grain ranged from 8.7-10.9% throughout the experiment. Protein collection increased by 4.2-15.3%. The greatest efficiency was noted when using the product at a dose of 300.0 l / ha. The data are given in table. 3.

Prolongation of the action of the claimed composition of micronutrient fertilizer was achieved due to the content of two forms of zinc in the preparation. The water-soluble form in the form of zinc chelate acted immediately upon receipt of the microfertilizer, and the water-insoluble form in the form of zinc oxide or other water-insoluble zinc salt - some time after the use of micronutrient fertilizer. Each form of zinc has its own benefits. The advantages of the water-insoluble form of zinc: high zinc content, slow release of zinc, which provides long-term zinc nutrition over several vegetative phases and protects the leaves of agricultural plants from local zinc phytotoxicity. The advantage of the water-soluble chelated form of zinc is that it greatly facilitates the absorption of the metal by the plant compared to the metal salt.

Similar results were obtained when carrying out agrochemical tests in the same intervals, see table. 1. and on the same crops, see table. 2 and 3, when using a water-insoluble form of zinc in the form of a salt: zinc orthophosphate, zinc carbonate or zinc oxalate.

When using the claimed agent, a more effective application of the agrochemical to plants was observed with a uniform coverage of the sprayed liquid across the entire leaf plate of the plant, an increase in liquid adhesion to the leaf surface, and resistance to washing off by rain and dew.

Claims (3)

1. Means for foliar feeding of agricultural crops containing a trace element zinc in the form of a chelate, a macronutrient in the form of nitrogen and auxiliary substances, characterized in that the product additionally contains a water-insoluble zinc compound with the following content of ingredients, wt%: total nitrogen 0.1-20 zinc chelate 0.1-30 water-insoluble zinc compound 10-60 Excipients 0.3-35 water the rest is up to 100% 2. The agent according to claim 1, characterized in that zinc oxide, zinc orthophosphate, zinc carbonate or zinc oxalate are used as the water-insoluble zinc compound.