RU2650295C1 - Synergetic herbicidal composition for combating weeds in the corn crops - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. A synergetic herbicidal composition for combating weeds in corn crops contains metribuzin, picloram and nicosulfuron with a weight ratio of metribuzin: nicosulfuron: picloram, respectively, weight% (5.6–8):(2.3–3.3):1, and the active substances are taken in synergetically effective amounts.

EFFECT: synergetic herbicidal composition for combating weeds in corn crops is proposed.

1 cl, 3 tbl, 1 ex

Description

The invention relates to plant protection products that can be used to control weeds in corn crops, and more particularly to a synergistic combination of herbicides based on metribuzin, nicosulfuron and picloram.

Protecting crops from weeds that impede crop growth is an ever-present problem in agriculture.

In crops of corn, as a rule, from 20 to 25 species of annual and perennial weeds are present, which cause significant economic damage. Thus, according to long-term studies of the herbology department of the Federal State Budgetary Scientific Institution of VNIIF, the economic threshold for weed damage and the advisability of using herbicides in corn crops in the Central Federal District of Russia is 12 pcs / m ² for annual species, and 3 pcs / m ² for perennial species. At the same time, the average yield loss of corn grain in the absence of weed control measures is 40%.

Chemical protection of corn crops from weeds is a complex and multifaceted work, from sowing to phase 5 of corn leaves, when crop plants are especially vulnerable and least competitive, it is necessary to protect them from weeds. In addition, it should be borne in mind that with a wide-row method of cultivation, there is a manifestation of 2 waves of weeds: young species predominate on the first wave, and perennial root shoots (calf and bindweed) and annual cereals (chicken millet) prevail on the second wave. Depending on the weather conditions of the growing season, this vulnerable period takes 20–25 days after emergence of crop sprouts [1, 2].

In recent years, to successfully combat the difficult coenosis of weeds in corn crops in agriculture, two-component herbicidal preparations or their tank mixtures are widely used [1, 3]. Unfortunately, many herbicidal preparations do not solve the problem of successful weed control in corn crops, showing low efficiency against their second wave. On the other hand, some preparations successfully solve this problem, but at the same time have a high aftereffect on subsequent crop rotation crops.

The possibility of improving the range of application of herbicides may consist in combining the active substance with one or more other active substances that improve the desired additional properties. However, in the combined use of several active substances, physical and biological incompatibility is often possible, for example, insufficient stability in the combined formulation, decomposition of the active substances, or antagonism of the active substances. Therefore, combinations of active substances with a favorable spectrum of activity, high stability and, if possible, enhanced synergistic action are desirable, which helps to reduce the consumption rate in comparison with separately administered combined active substances.

Many picolinic acid compounds are a known class of compounds having a herbicidal effect (Pesticide Manual, fourteenth edition, 2006), including picloram (Formula 1), a commercially available herbicide. It is used to control pink mustard and other perennial root weed plants in corn crops at a consumption rate of 1 kg / ha. Presumably has an effect by disrupting the activity of plant hormones.

Known post-emergence herbicide nicosulfuron - - (4,6-dimethoxypyrimidin-2-yl) -3- (3-dimethylcarbamoyl-2-pyridylsulfonyl) -urea, (formula 2) (The Pesticide Manual, 11th ed., Britisch Grop Protection Council 1997 S. 877-879). It is used to control a wide range of one and perennial weeds, especially with huma and wheat grass creeping in corn at a consumption rate of 40-60 g / ha.

The known herbicide is metribuzin - 4-amino-6-tert-butyl-3-methylthio-1,2,4-triazin-5 (4H) -one, (formula 3) (The Pesticide Manual, 11th ed., Britisch Grop Protection Council 1997, S. 840-841), is used to control a wide range of weeds in crops of vegetable crops with a consumption rate of 0.5-1.5 kg / ha. Presumably has a herbicidal effect by suppressing photosynthesis in plants.

As a result of a patent search, the following patents were selected for subsequent analysis.

Known domestic selective post-emergence herbicide Octave (60 g / l nicosulfuron + 3.6 g / l florasulam) systemic action to control annual and perennial cereal and dicotyledonous weeds in corn crops (US Pat. RF No. 2574742).

A synergistic combination of herbicides is known (US Pat. RF 2245621) with components (A) and (B), wherein (A) is a herbicide from the group of sulfanylurea compounds or their salts, (B) is one or two herbicides - metribuzin and / or nicosulfuron. Moreover, components A) and B) are taken in an effective amount. The mixture is used to control weeds in crops, especially corn.

A known method of controlling weeds in tolerant corn crops (US Pat. RF 2251270) by joint or separate pre-emergence or post-emergence or pre- and post-emergence application of herbicides on plants, while one or more broad-spectrum herbicides are used as herbicides, for example, the salt of glyphosate and (B) the nicosulfuron herbicide, or metribuzin, while components (A) and (B) are taken in a synergistically effective ratio.

Known herbicidal composition containing as active ingredients nicosulfuron and mesotrione (US Pat. RF 2614066) for weed control in the fields of corn. The composition may also further comprise picloram and its salts, or metribuzin and many other herbicides. In the patent materials, the use of picloram and metribuzin is not shown in the examples and their effect is not proved. The information is declarative in nature.

The closest analogue of the proposed technical solution is a herbicidal composition containing component [A] and component [B], where component [A] is a sulfonylurea compound and component [B] consists of one product selected from the following known herbicides: metribuzin or picloram ( RF patent 2472343). The composition is intended for pre-emergence and post-emergence control of various monocotyledonous and dicotyledonous weeds for processing crops. The patent does not contain information on the possible use of the composition for weed control in corn crops. The specified compounds (A) and (B) with individual use affect some weeds unsatisfactorily, the composition is not used in corn crops.

The technical task of the proposed technical solution: to develop a synergistic herbicidal composition for use in corn crops, which has a wide range of herbicidal effects throughout the entire growing season and at the same time does not show an environmental impact on the subsequent crop (spring wheat) crop rotation, which has high activity and prolonged exposure.

The technical result achieved from the use of the proposed herbicidal composition is: the ability to deal with a wide variety of undesirable plants; the manifestation of a synergistic herbicidal effect; decrease in the consumption rate of the composition; reducing the dose of the individual active ingredients than when the corresponding active ingredients are applied separately, reducing environmental pollution.

The technical result is achieved by using a synergistic herbicidal composition for weed control in crops of corn containing metribuzin, picloram and a derivative of sulfanylurea in effective quantities. In this case, nicosulfuron is used as a sulfanylurea derivative with a weight ratio of metribuzin: nicosulfuron: picloram, respectively, wt.% (5.6-8) :( 2.3-3.3): 1, and the active substances are taken in synergistically effective amounts.

For use in industry, a three-component herbicidal composition for controlling weeds in corn crops is proposed, which has a wide herbicidal spectrum of action, high biological activity and prolonged exposure throughout the growing season of the crop. The composition eliminates phytotoxic side effects in comparison with individual active substances.

The development of resistance of certain weed species caused by the systematic use of the same herbicides will practically be absent when using the proposed herbicidal combination, because it uses active substances with different mechanisms of action.

The proposed combination of active ingredients of herbicides can be presented in the form of ready-made mixtures with conventional auxiliary agents used for the preparation of formulations, which are then diluted with water for spraying objects.

The claimed three-component composition can be obtained in various formulations depending on the biological and / or chemical-physical parameters. For example, such as emulsifiable concentrates (CE), oil-water or water-oil emulsions, oil-based dispersions, suspoemulsions, etc.

The proposed composition of the active ingredients of the herbicides is not toxic to corn, while maintaining a negative side effect on the crop, in comparison with its individual active ingredients, it effectively suppresses the whole spectrum of the multi-species coenosis of weeds in corn crops and has a high prolonged phytotoxic effect in the soil on resistant weed species (cereal and root shoots) throughout the growing season.

Below the present invention is described in more detail using examples.

EXAMPLE 1. Assessment of the biological effectiveness of active substances. Experimental conditions: artificial climate laboratory chamber (FGBNU VNIIF) when grown in the following hydrothermal regime: long hours of daylight hours 16 hours, nights 8 hours, temperature in the chamber during the daytime 25 ° C, nighttime 20 ° C, illumination 20 thousand lux, air humidity 75%, soil - 60% of PV by daily irrigation with demineralized water. The experiment was carried out when growing test plants in the conditions of the above modes using disposable vegetation vessels with a capacity of 600 g of a mixture of sod-podzolic soil, sand and organic matter in a ratio of 1: 1: 1. Processing test plants with the studied drugs in doses of the drug was carried out in the development phase of corn - the beginning of the formation of the 3rd leaf. Application of drugs to the studied test plants with a flow rate of 250 l / ha. The repetition of the experiment is 3 times. 14 days after treatment with the preparations, the aerial part of the test plant was cut off and weighed, followed by a comparison of their weight with control variants.

An artificial climate laboratory sowed corn. All plants of this study, after careful preliminary alignment by repetitions, were treated with the planned doses of the following herbicidal preparations: metribuzin (140 g / ha, 160 g / ha and 200 g / ha); nicosulfuron (36 g / ha, 48 g / ha and 60 g / ha); picloram (20 g / ha, 25 g / ha and 30 g / ha). The results of assessing the comparative level of phytotoxicity of various herbicidal preparations for corn are shown in table 1.

According to the results of statistical processing, the following data on the synergy coefficient were obtained. The calculation was as follows.

The calculations of the synergetic (additive, antagonistic) interaction were carried out according to the Colby-Limpel formula:

where E is the "expected" effect of the composite preparation (A + B + C);

x -% reduction in the ground mass of the test plant from the use of the herbicide A individually at a dosage close to its content in the composition;

y is the% reduction in the ground mass of the test plant from the use of the herbicide B in an order similar to the previous one;

z -% reduction in ground weight of the test plant from the application of the herbicide B in the same order.

If the ratio between the experimentally observed effectiveness (E _expect ) and the expected efficiency (E _expect ) is a synergistic factor (SF) - more than 1, the mixture

shows a synergistic effect:

The coefficients of synergism of herbicidal mixtures when processing vegetative test plants, see table 2.

The resulting synergistic effect guarantees increased reliability in the fight against competing weeds in corn crops, leading to a significant reduction in the amount of active component required for weed control.

The effect in the soil was determined 3 months after the use of drugs after spraying vegetative corn plants in the phase of 3 leaves. The level of aftereffect of various herbicidal preparations on test plants of rape, sugar beet and spring wheat is shown in table 3.

Used Books

1. Spiridonov Yu.Ya., Polyansky S.Ya., Ulina A.I., Venevtsev V.Z., Zakharova M.N., Rozhkova L.V. The technology of cultivating corn for grain in the Ryazan region using integrated plant protection // Federal State Budgetary Scientific Institution VNIMS Ryazan. 2016.28 p.

2. Semin S.A., Semin Yu.A. The effect of herbicides and plant growth regulators on the weediness of corn crops // Agrochemical Bulletin. 2014. No4. S. 22-24.

3. Panfilov A.E. MaysTer is a universal preparation // Plant Protection and Quarantine. 2012. No3. S. 19-21.

Claims (1)

A synergistic herbicidal composition for controlling weeds in corn crops, containing metribuzin, picloram and a sulfonylurea derivative in effective amounts, characterized in that nicosulfuron is used as a sulfonylurea derivative at a weight ratio of metribuzin: nicosulfuron: picloram, respectively, weight% (5.6%, 5%) (5%). 8) :( 2,3-3,3): 1, and the active substances are taken in synergistically effective amounts.