CS211409B1 - Root harvesting agent, sugars and sugar beet technological quality - Google Patents

Abstract

A composition for increasing the root yield, sugar content and technological quality of sugar beet, containing as active substance anilides of the general formula I ^g^N-COCH2-rf R where R' means hydrogen, alkyl or halogen. r2 means hydrogen, alkyl of 2 to 3 C, R3 means hydrogen, alkyl of gene, in an amount of 0.001 to 0.1 kg.ha"1. 1 to 1 to 1 to /1/ 4 C or 3 C, alko4 C, haloRegulation of the yield of agricultural crops with the composition according to the invention is achieved by application at various stages of sugar beet development. The active substance can be taken up by useful plants either through the pod or through the leaves. The composition according to the invention can be applied once or several times during the growing season.

Description

A composition for increasing the yield of root, sugar content and technological quality of sugar beet, comprising an active agent C. How anilides of the formula I ^ g of N, N-COCH ₂ -rf

R alkyl wherein R 'is hydrogen or halogen.

r 2 is hydrogen, alkyl xyalkyl of 2 to 3 C,

R 3 is hydrogen, alkyl and gene, in an amount of 0.001 to 0.1 · kg · ha1.

up to / 1 /

C or 3 C, Al 4 C, haloCrop crop control with the composition of the invention is achieved by application at various stages of sugar beet development. The active substance can be taken up by crop plants either through the soil or through the leaves. Means according to. The invention can be applied once or several times during the vegetation season.

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SUMMARY OF THE INVENTION The present invention is directed to a composition for increasing root crop, sugar content and the technological quality of sugar beet comprising at least one acylanilide derivative.

Various derivatives of substituted acylanilides are known to exhibit herbicidal effects. A number of compounds of this type have found application in agricultural chemical preparations to combat weeds in agronomic crops such as 3 ', 4'-dichloropropionionililide, 2-chloro2', 6-diethyl-N- (methoxymethyl) acetanilide, 3,4 ' - 2-chloro-N- (isobutoxymethyl) -2-, 6 ^- acetylidyl, N, Ndimethyl 1-2,2-diphenylacetamide, N- 1,1-dimethylpropinyl / -3,5-dichlorobenzamide, 2-chloro-N-isopropylacetanilide, 3-chloro-2-methyl-p-valerotoluidide and others.

Leh herbicidal properties are. very differently. Some are used as selective herbicides in pre-or pre-herbicide application, others in post-emergence application and mostly in mixtures with other herbicidal substances to extend the spectrum of their action to other weeds.

and

At present, efforts to increase crop yields by application of chemicals are a very topical problem. Increasing the crop and at the same time of table or technological quality, especially of the main crops, is the center of interest of workers in the field of breeding, nutrition, agrotechnics and plant protection.

One of the main crops that provides world-wide nutrition is sugar beet. Its crop and especially the technological quality of the same cultivar is characterized by great variability depending on fertilization, irrigation, agrotechnics, but mainly on climatic conditions and mainly on precipitation.

It is clear from the scientific and patent literature that the issue of increasing the efficiency of sugar beet cultivation and its technological processing is addressed in addition to nutritional, agrotechnical and Shakhtar measures by the application of regulators.

The application of regulators achieves higher utilization of sugar beet yield potential, higher root yield and increased sugar content in the root and thus its better quality and maturity. This is also beneficial in reducing losses during the growth, harvesting, storage and processing of sugar beet.

The increased sugar content in the root is associated with a lower water content in the root, which results in a reduced root fragility and thus less vulnerability in harvesting and handling, which is a significant factor for mechanized sugar beet harvesting.

Beets with increased sugar content in the root also contain lower levels of nitrogen, ash and colloids.

The application of root crop regulators and sugar beet sugarness during its growth will be beneficial even after its harvesting during storage by decreasing the disimilation processes.

The beneficial effect of regulators is reflected not only on the quality of the root, but also the leaves by ea. increase feed value.

Many thousands of compounds have been tested with these effects on sugar beet, but none of them have been beneficial to the yield and quality of beet under all agro-ecological conditions.

For example, the use of maleic hydrazide is described by Schreiber 'K. et al., J. Amer. Soc. Sugar Beet Technol. 67/1966/2-Chloroethanoic acid Phonic acid Kuhn H. et al .: Pf 1 anzenernShr

Bodentd. 1, 40, 229 (1997), pyrocatechin Singh, B. et al., J. Amer. Soc. Beet Technol. 16, 45 (1970), vanadyl sulfate Singh B. et al., Sugar J. 32, 19 (1970) et al.

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However, none of the many compounds tested found use as a regulator of the yield and quality of sugar beet.

It has now been found that an increase in correlate crop, sugar content and technological quality of sugar beet, i.e. an increase in root weight, sugar content in spices, maturity of sugar beet and reduction of non-sugar components in the root can be achieved by applying the composition of the invention. SUMMARY OF THE INVENTION The composition of the invention comprises an active ingredient of one or more acylanilide derivatives of general formula I / l / coch ₂ -r '.

means hydrogen, alkyl o i to means defects, alkyl o i to means hydrogen, alkyl o ' 1 to

C or halogen

C, alkoxyalkyl of 2 to 3 C,

C, halogen, -1 in an amount of 0.001 to 0.1 kg.ha

The crop crop control with the composition according to the invention is achieved by application at various stages of sugar beet development, and this will be achieved by the application of the invention. pre-sowing, simultaneously with sowing, pre-emergence or post-emergence for a period of 3 weeks to 7 months prior to harvest. The active substance of the crop enhancer can be taken up by useful plants bud! through the root, that is, through the roots, or by spraying, through the leaves. The composition of the invention may be applied once or several times during the growing season. The effect of the compositions according to the invention results in changes in the physiological, biochemical and morphogenetic processes of plants, which are reflected in the regulation of assimilation production, thereby increasing the deposition of assimilates in economically important organs. The preparation of the active ingredients of the compositions according to the invention can be carried out according to methods known in the literature.

Application of the composition according to the invention can be carried out by spraying, watering, spraying, fogging, sprinkling on all or part of the plants or on the surface of the soil or incorporation into the soil, either by surface or strip treatment.

Suitable application forms are solutions, emulsions, dispersions, suspensions, aqueous or oily, 2 wettable powders, dusts, dusts, dusts, pastes, granulates and microgranules with the addition of liquid and / or solid carriers, if appropriate. diluents, wetting agents, adhesives, binders, modifiers, surfactants, eraulsion agents. and / or dispersants, antifoams, pigments or dyes.

Suitable liquid carriers are, for example, aliphatic hydrocarbons such as cyclohexane, paraffins, aromatic hydrocarbons such as benzene, toluene, xylene, chlorinated hydrocarbons such as carbon tetrachloride, ethylene chloride, chlorinated aromatics, alcohols such as methanol, butanol and their ethers, glycols, ketones such as acetone. isobutyl ketone, cyclohexanone, isophorone, dimethylformamide or dimethylsulfoxide.

As the surfactant, cationic amulgates such as quaternary ammonium compounds can be used, from anionic emulsifiers, for example, soap, sticky soap, alkali metal salts of aliphatic monosulfones with long chain salts, aliphatic aromatic sulfonic acid salts, and polyoxyethylene glycol acetic acid salts with long chain polyesters. alcohols or alkylphenols and polycondensation products of ethylene oxide.

It is also possible to prepare liquid or paste concentrates consisting of the active substance, an emulsifier or a dispersant and, optionally, solvents, which can then be diluted with water. Wettable powders can be formulated by mixing the active ingredients with dispersing and powder carriers to form a homogeneous mixture and grinding. Suitable carrier materials are, for example, talc, diatomaceous earth, kaolin, bentonite, calcium carbonate norm. calcium phosphate, sand, silica gel.

, 211409

The preparation can be carried out by applying the active ingredient to the carrier by means of a volatile solvent. By the addition of wetting agents, the powdered preparations and pastes can be converted into a water-dispersible state by spraying them. Examples of suitable dispersants are the condensation products of sulfonated naphthalene and sulfonated naphthalene derivatives with formaldehyde, the condensation products of naphthalene, optionally naphthalenesulfonic acid with phenol and formaldehyde, as well as alkali metal salts of lignin sulphonic acid, salts of dibutylnaphthalenesulfonate and sulfonate sulfated hexadecanols and salts of sulfated fatty alcohol glycol ethers, di-tertiary ethylene glycols, dialkyldilaurylammonium chloride, alkali metal and alkaline earth metal salts of fatty acids, lignin, sulfite waste or acetylcellulose. Suitable antifoams are, for example, silicone oils.

Granules and microgranules intended for application to the podium or foliar can be prepared by agglomeration, impregnation or coating. The granules may contain from 0.01 to 25% by weight of active ingredient and from 0 to 10% by weight of other ingredients such as stabilizers, plasticizers, diluents 1, adhesives and modifiers.

Suitable solid carriers are: natural stone materials such as alumina, talc, quartz, diatomaceous earth, feldspar, kaolins, raontmorillonite, saponite, chalk, limestone, sepiolite, eclorite, bentonite, vermiculite, atapulgite, zeolites, ground organic products sawdust, tree bark, corn cobs, activated charcoal and more.

Adhesives such as carboxymethylcellulose or acetylcellulose, natural or synthetic powdered, granular or latex polymers such as gum arabic, polyvinyl alcohol and polyvinyl acetate may be used in the treatment.

Polymeric microgranules can be prepared by, for example, impregnating the active substances in the form of their solutions with the active substances in the form of their porous granules and removing the solvent.

The proportion of active substances in the various preparations can be varied within wide limits and may range from 0.01 to 95% by weight. The amount of active substance used to treat the crop for crop control and its quality depends on the type used; substances, from the method of application, objectives, from the time of application, number of applications, from ecological factors, from crop type to cultivar and other factors. At doses ranging from 0.001 to 0.1 kg ha ¹ active substance in the applied dose does not show the herbicidal activity and does not phytotoxic. The active compounds in the composition according to the invention can be used either alone or in mixtures with one another.

The following examples illustrate but do not limit the compositions of the invention and their effect.

EXAMPLE

Sugar beet plants (Bata vulgaris), cultivar Dobrovická A were spray-treated at two staged doses in two graduated doses with test compounds. For application, the compounds were formulated as wettable powders and dissolved in water to a 0.1% solution. After 21 days, the root weight of the beets was determined, the sugar content was determined refractometrically, and the values obtained were compared to an untreated control.

sugar content in Z in Z control

Bile applied dose in g / ha root weight in 8 ^{c |} - \ O / -NHCOCH ₂ Cl

5.6

12.2 13.1 128.6

2.8

13.0 14.2 148.5

Cl

^ OCKjCI

N ^x ch (ch ₃ ) ₂

5.6

2.8

11.9 14.3 136 _R 2 .9 91.8 2.4 s

inspection

11.0, 11.3 100 Z

Claims (3)

211409 4 content of sugar sugar content in Z in Control of gallbladder applied g / ha weight of root in 8 c | - O / -NHCOCH 2 Cl 5,6 12,2 13,1 128,6 2,8 13,0 14,2 148.5 Cl ^ OCKJCI N xch (ch3) 2 5.6 2.8 11.9 14.3 136, .9 9 r 2i 2.4 91.8 Control 11.0, 11.3 100 OF THE INVENTION Harvesting Means the root, sugar and technological quality of sugar beet, characterized in that it contains anilides of the general formula I as an active substance wherein R is hydrogen, alkyl is R 2 is hydrogen. R 3 is hydrogen, alkyl is in an amount of 0.001 to 0.1 kg.ha to up to N-COCH 3 -R 11, ft 4 C or halogen, 3 C, alkoxyalkyl of 2 to 3 C 4 C, halogen, Severography, np, race 7. Most