UA26375U - Solution for cereal leaf beetle and corn ground beetle extermination on fields of amaranth and other plants - Google Patents

Abstract

A solution for cereal leaf beetle and corn ground beetle extermination on fields of amaranth and other plants contains a hydrophilic surface-active substance, water-soluble phosphorous, potassium, nitrogen fertilizers, sulphur dioxide. It is supplemented with one toxic chemical from the line of toxic chemicals: bazudine, volaton, metaphos, the gamma isomer of hexachlorocyclohexane, wofatox.

Description

Description of the invention

The useful model refers to means of combating plant pests and can be used for 2 destruction of leech and bread weevil on crops of amaranth and other grain plants.

It is most appropriate to use the proposed solution for plants growing on soils depleted of nutrients.

We found that when using a chemical treatment of plants with a mixture of sulfur dioxide and one of the poisons listed below, a synergistic effect is obtained, which allows you to completely destroy the larvae of the leech and the bread weevil, as well as the beetles themselves.

The state of the art in the field of means of destroying plant pests is characterized by the following inventions.

The well-known solution for combating phylloxera of grapes according to the author's certificate of the USSR Mo570355 M. Cl.

AOTM 11/02 publ. in Bull. Mo32, 1977 The solution contains (90 mass): carbon disulfide - 30-60, emulsifier - 0.3-1.8, 12 urea (KA) - 11.5-35, water - the rest.

The active component against pests is a very strong poison - carbon disulfide (C52). The disadvantages of the well-known solution are that when using it, the plants suffocate, the effect of destroying pests is not great.

The known "synergistic insecticidal composition", which includes the active ingredient - cypermethrin according to the patent

of Ukraine Mo26654, published in the bulletin "Industrial Property" Mo7 for 1999. M. Cl. 6 AOOM 53/08. The disadvantage is that complex feeding of plants is not carried out, as a result of which the plants are shriveled.

A well-known tool for combating such plant pests as spider mites, moths, etc. in the form of gaseous sulfur dioxide (505), which is obtained, for example, by burning sulfur in air (COD - 1Omg/m).

This tool is called the best tool for disinfection in the guide "Garden, garden and farm at the dacha", ed. Tavrida, Simferopol, 1994, p. 268. 29 The disadvantage of this tool is that it does not provide complex feeding of plants with fertilizer, as a result of which the plants are shriveled. In air, this tool is not effective as a result of the gas being blown by the wind.

A well-known tool for combating pests and plant diseases according to a patent of Ukraine for a useful model

Mo16621, which is taken from the prototype. The known agent has a composition, 95 mass: sulfur dioxide 10-18, hydrophilic surfactant 3-6, water-soluble nitrogen fertilizer - 8-16, water-soluble phosphorus fertilizer 3-10, water-soluble potassium fertilizer 2-7, water - the rest. -

At the same time, the product additionally contains trace elements in the following amounts: calcium, magnesium, boron, copper, molybdenum up to 0.295 each, iron, manganese, cobalt, zinc - up to 0.0895 each, iodine, selenium, chromium - up to 0.0395 each. at

The disadvantages of the known means are that when treating amaranth and other plants with the known means, it is insufficiently effective in destroying the larvae and beetles of the leech and the bread weevil - only 95905.

The basis of the useful model is the task: development of a solution to destroy the larvae and the beetle itself of the leech and the bread weevil, to obtain a technical result to significantly increase the effectiveness of the solution for spraying amaranth crops to destroy the larvae and the beetles of the leech and the bread weevil.

The proposed solution for the destruction of larvae and beetles of leech and bread weevil on crops of amaranth and other plants contains a hydrophilic surface-active substance, water-soluble phosphorus, potassium, nitrogen fertilizers, sulfur dioxide, which is distinguished by the fact that the solution additionally contains one poison from a number of poisons: bazudin, c volaton, metaphox, gamma-isomer of HCCG, vofatox, and has the following composition based on the calculation of spraying per hectare: 3 cubic meters. solution, in kg: hydrophilic surface-active substance 3-6 water-soluble nitrogen fertilizer 7-10 o water-soluble phosphorus fertilizer 3-8 (is) water-soluble potassium fertilizer 2nd siu dioxide bra 6-8 one of the poisons: -I 20 bazudin ( diazinon) 4095 0.7-1.0 s volaton (foxim) 5090 0.8-12 metaphos (parathionmethyl) 4095 0.5-0.8 gamma isomer of HCCG 1695 5095 10-14 vofatox (parathionmethyl) 3090 0.8 -12 water Up to 1000 l

The solution additionally contains a water-soluble set of microelements in the amount: calcium, magnesium, zinc, boron, copper, molybdenum - up to 30 g each; iron, manganese, cobalt, iodine - up to Zg of each; selenium, chromium - up to 0.Zg each per cubic meter. solution 60 The introduction of one of the above-mentioned poisons into the prototype in addition to sulfur dioxide allows to obtain a new technical result - the complete destruction of larvae and beetles of leech and mealybug on crops of amaranth and other plants.

Substances such as OP7, OP10, sulfanol NP-1, synthanol DOS-10, which effectively ensure the wetting and retention of the proposed solution on plant leaves, were used as HPAR. because as a balanced complex of nutrients, fertilizers such as nitrofoska were used, which has the following composition: -Д-

1196 nitrogen, 10.595 RoOv, 1195 KoO, nitroammophoska brand A, composition: nitrogen, phosphorus, potassium - 17-18965 each; nitroammophoska brand B, composition: 13.495 nitrogen, 19905 potassium, 2096 phosphorus.

Phosphorus, potash, and nitrogen fertilizers play a very important role in plant development. Their complex effect on the plant is especially important, that is, the presence of a combination of phosphorus, nitrogen and potassium fertilizers in the solution creates a many times greater beneficial effect than any single fertilizer.

Potassium fertilizers play the most important role in the life of plants. Potassium participates in the processes of synthesis and outflow of carbohydrates in plants, determines the water-holding capacity of cells and tissues, activates enzymes, increases the resistance of plants to damage by diseases and adverse environmental conditions, in particular, it increases frost resistance and drought resistance of plants.

With a lack of potassium, protein synthesis is delayed and non-protein nitrogen (nitrates) accumulates.

Signs of potassium starvation of plants are manifested in the browning of the edges of leaf plates - "edge burn".

Leaves affected by necrosis curl up, die, and after death remain attached to the branch for some time. The introduction of potassium into the proposed solution significantly prevents the oppression of plants at 7/5 Chemical influence.

Nitrogen fertilizers have a primary role in strengthening plant growth processes and increasing productivity.

Nitrogen is a part of amino acids, which are used to build protein molecules, enzymes, nucleic acids, chlorophyll, and also nitrogen is included in phosphatides, glucosides, alkaloids of plants, in many vitamins and a number of other important compounds necessary for plant development. A lack of nitrogen leads to a decrease in chlorophyll in plants, their oppression and growth retardation. The introduction of nitrogen fertilizer into the proposed solution significantly prevents plants from being oppressed by the chemical influence of poisons on them.

Signs of nitrogen deficiency for amaranth: the growth of stems and leaves slows down, side shoots are not formed or are very small. The lower leaves become pale green, their edges curl upwards.

Phosphorous fertilizers play an important role in enhancing plant growth and increasing yield.

Signs of phosphorus deficiency are as follows: slow growth and development of amaranth plants, which leads to delayed flowering and ripening, the amount of grain is significantly reduced, thin shoots are formed with leaves that have a dark green color with a bronze-purple tint. Leaves may fall from the lower part of the branches.

Accurate data on the amount of phosphorus in plants can be obtained during laboratory studies.

Microelements play a very important role in the life and development of amaranth and other plants. their introduction into use of the proposed solution in a complex with fertilizers also significantly prevents the oppression of plants during chemical treatment. As our studies have shown, the most positive result is obtained when using a complex of trace elements taken in the stated concentrations. their role is characterized by the following examples. co

For example: calcium plays an important role in metabolism. Apical meristems of roots and shoots, as well as growing grains, have a great need for it. With a lack of calcium, root growth slows down, roots do not form) z5 Root hairs, roots rot. Lack of calcium in amaranth leads to the fact that dot yellowing appears on young leaves, and old leaves acquire a dark green coloring.

Magnesium is part of chlorophyll and is an activator of many enzymes. Magnesium deficiency is most often observed on light soils. A characteristic sign of magnesium deficiency is chlorosis in old leaves. With a lack of magnesium, crops such as amaranth do not develop well. "

Boron affects carbohydrate, protein, nucleic exchange and other biochemical processes in amaranth. Copper is part of a number of redox enzymes, participates in processes. photosynthesis, carbohydrate and protein metabolism. With a lack of copper, growth is inhibited and the formation of i? reproductive organs. Signs of copper starvation are chlorosis of leaves, loss of turgor and wilting of leaves. Most of all, amaranth needs copper.

Molybdenum has an exclusive role in nitrogen nutrition of amaranth. Deficiency of molybdenum is more common

GI is found on acidic soils. With a lack of molybdenum, the growth of amaranth is inhibited, the leaves acquire a pale green coloring due to a violation of the synthesis of chlorophyll.

Me, Iron plays an important role in oxidation-reduction processes. Amaranth suffers from iron deficiency on 2) carbonate and overcalcified soils. With a lack of iron, lime (iron) chlorosis develops. At the same time, the leaf tissues lose their green coloring, turn yellow, but a network of green veins remains on the leaves. With a strong manifestation of chlorosis, the leaves become thin, then turn brown and dry, then the stems dry. In addition, sp iron plays an important role in the processes of enzyme formation. A culture such as amaranth needs the most iron.

Manganese is part of enzymes involved in the processes of photosynthesis, respiration, carbohydrate metabolism and nitrogen assimilation. Manganese deficiency is more often observed when amaranth is cultivated on soils with a high content of humus or excessively limed soils. c Cobalt participates in oxidative processes and activates enzymes, affects the formation of vitamins, in particular, vitamin B12. Cobalt deficiency is primarily found in amaranth. External signs of cobalt deficiency are similar to symptoms of nitrogen starvation. Zinc is part of enzymes, promotes photosynthesis, protein exchange and affects the formation of growth stimulants. With a lack of zinc, rosettes develop: the leaves become small in the shape of a rosette.

With a lack of zinc, grain crops do not develop well: amaranth, etc.

Iodine plays a very important role in the formation of enzymes in amaranth. With a lack of iodine, a disease called black spotting appears. The soils of Ukraine contain an insufficient amount of iodine, necessary for the normal development of amaranth.

Selenium participates in the formation of tocopherol-vitamin E, various cell structures in amaranth. Without selenium, the synthesis of a number of important enzymes is impossible, it takes part in the formation of proteins. Without selenium, the process of cellular respiration and metabolism is disrupted. In many regions of Ukraine, there is a lack of selenium in the soil.

Chromium participates in the biosynthesis of metalloenzymes and their activation. With a lack of chromium, the process of glucose formation in amaranth is disrupted.

The following substances were used as water-soluble compounds of trace elements: calcium chloride, magnesium sulfate, boric acid, copper sulfate, molybdenum superphosphate, iron sulfate, manganese sulfate, cobalt sulfate, zinc sulfate, potassium iodide, selenourea, chromium sulfate hydrate.

The general features of the prototype and the proposed solution are that the solution for the destruction of larvae and 7/o leech beetles and mealybugs on crops of amaranth and other plants contains a hydrophilic surface-active substance, water-soluble phosphorus, potassium, nitrogen fertilizers, sulfur dioxide .

Distinctive features of the proposed solution are the following: that the solution additionally contains one poison from a number of poisons: bazudin, volaton, metafox, gamma-isomer HCCG, vofatox, and has the following composition based on the calculation of spraying per hectare Tcub.m. solution, in kg: hydrophilic surfactant 3-6 water-soluble nitrogen fertilizer 7-10 water-soluble phosphorus fertilizer 3-8 water-soluble potassium fertilizer 2nd sulfur dioxide 6-8 one of the poisons: bazudin (diazinon) 4095 0.7-1 ,0 volaton (foxim) 50905 0.8-12 metaphos (parathionmethyl) 4095 0.5-0.8 gamma isomer of HCCG 1695 5096 10-14 vofatox (parathionmethyl) 3090 0.8-12 o) water Up to 1000l

The solution additionally contains a water-soluble set of microelements in quantities: calcium, magnesium, zinc, boron, copper, molybdenum - up to 300 g each; iron, manganese, cobalt, iodine - up to Zg of each; selenium, chromium - up to 0.Zg each per cubic meter. solution -

To destroy larvae and beetles of leech and mealybug on crops of amaranth and other plants, the plants are sprayed with the proposed solution. When spraying, a high concentration of sulfur dioxide and one of the additional poisons is created on the surface and around amaranth plants, which has a devastating effect on pests due to the synergistic effect of the two poisons. high school

A complex of nitrogen, phosphorus and potassium fertilizers, together with a complex of trace elements dissolved in water, are absorbed by plants through the leaves and root system, which supplies plants with an additional portion of nutrients that resist the oppression of plants when they are affected by sulfur dioxide.

The achievement of a new technical result - an increase in the effect of destroying larvae and beetles of leech and bread weevil on amaranth and other crops is confirmed by the following examples: 2 s Example Mo1

When spraying amaranth crops with bazudin 5095 s.p. at consumption of 2 kg/ha, the efficiency of destruction of larvae and beetles of leech and bread weevil was 9295, when spraying amaranth crops with sulfur dioxide at consumption of 8 kg/ha, the efficiency of destruction of larvae and beetles of leech and bread weevil was 9595, and when spraying with the proposed solution the efficiency was 99.995 due to the synergistic effect of the two

GI poisons: bazudin and sulfur dioxide.

At lower concentrations of components in the solution compared to those specified in the formula, the effect

Me begins to decrease significantly, and at concentrations greater than those indicated in the formula, the oppression of amaranth plants with poisons begins. The formula contains the optimal concentrations of the components of the solution for spraying amaranth against diseases. - Example Mo2 s When spraying amaranth crops with volaton 5095 c.u. at a consumption of 2 kg/ha, the efficiency of destroying leech larvae and beetles was 8495, when spraying amaranth crops with sulfur dioxide at a consumption of 8 kg/ha, the efficiency of destroying pests was 9595 , and when spraying with the proposed 5B solution, the efficiency was equal to 99.995 due to the synergistic effect of two poisons: volaton and sulfur dioxide.

At lower concentrations of the components compared to those indicated in the formula, the effect begins to decrease significantly, and at concentrations greater than those indicated in the formula, the oppression of amaranth with poisons begins.

The formula contains the optimal concentrations of the components of the solution for spraying amaranth against diseases.

Example MoZ3 60 When spraying amaranth with metaphos, 4095 s.p. at a consumption of 1 kg/ha, the efficiency of destroying larvae and beetles of leech and bread weevil was 8295, when spraying amaranth crops with sulfur dioxide at a consumption of

In kg/ha, the efficiency of destroying pests was 9595, and when spraying with the proposed solution, the efficiency is equal to 99.995 due to the synergistic effect of two poisons: metaphos and sulfur dioxide.

At lower concentrations of the components compared to those specified in the formula, the effect begins to decrease significantly, and at concentrations greater than those specified in the formula, the oppressiveness of amaranth with poisons begins.

The formula contains the optimal concentrations of the components of the solution for spraying amaranth against diseases.

An example of Mo4

When spraying amaranth with vofatox 3095 s.p. at a consumption of 1.4 kg/ha, the efficiency of destruction of leech and mealybug larvae and beetles was 8095, when spraying amaranth crops with sulfur dioxide at a consumption of kg/ha, the efficiency of destruction of leech and mealybug larvae and beetles was 9595, and when spraying with the proposed solution, the efficiency was equal to 99.995 due to the synergistic effect of two poisons: vofatox and sulfur dioxide.

At lower concentrations of the components compared to those specified in the formula, the effect begins to decrease significantly, and at concentrations greater than those specified in the formula, the oppression of amaranth with poisons begins. 7/0 The formula contains the optimal concentrations of the components of the solution for spraying amaranth against diseases.

As a result of feeding plants with complex fertilizers containing nitrogen, phosphorus, potassium, as well as trace elements useful for plants, plants more successfully resisted chemical treatment and got rid of plant pests faster.

The technical result when using the proposed aqueous solution is that more than /5 complete - (99.995) destruction of amaranth pests is achieved, while when using the prototype tool, complete destruction of amaranth pathogens is not achieved: only 80-9595. A comparison of the test results of the proposed solution and the prototype shows that the proposed aqueous solution for spraying amaranth creates a new technical result, which consists in a significant increase in the efficiency of the destruction of larvae and beetles of leech and mealybug on amaranth crops.

Claims (1)

The formula of the invention 1. A solution for the destruction of leech and bread weevil on crops of amaranth and other plants, containing a hydrophilic surface-active substance, water-soluble phosphorus, potassium, nitrogen fertilizers, sulfur dioxide, which is distinguished by the fact that the solution additionally contains one poison from a number of poisons : bazudin, volaton, metafox, - gamma-isomer of HCCG, vofatox and has the following composition based on the calculation of spraying 1 ha 1 cubic meter. m. of solution, in kg: hydrophilic surfactant 3-6 water-soluble nitrogen fertilizer 7-10 water-soluble phosphorus fertilizer 3-8 - water-soluble potassium fertilizer 2-1 (ze) sulfur dioxide 6-8 one of the poisons: (Se ) bazudin (diazinon) 40 95 0.7-1.0 udin (d ) os volaton (foxim) 50 90 0.8-12 metaphos (parathionmethyl) 40 95 0.5-0.8 gamma-isomer of HCCG 16 95 10-14 or 50 96 « vofatox (parathionmethyl) ZO 95 0.8-12 - s water up to 1000 l. "» 2. The solution according to claim 1, which is distinguished by the fact that it additionally contains a water-soluble set of trace elements in the following quantities: calcium, magnesium, zinc, boron, copper, molybdenum - up to 30 g each; iron, manganese, cobalt, iodine - up to 3 g each; selenium, chromium - up to 0.3 g each. o Official bulletin "Industrial property". Book 1 "Inventions, useful models, topographies of integrated Ge") microcircuits", 2007, M 14 , 10.09.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. (95) - and sl 60 b5