RU2364084C1 - Agent for treating sugar beet to protect from storage decay - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: agent for treatment of sugar beet to protect from storage decay containing aqueous solution of fungicide is described. Derivatives of carboxylic acid are used as fungicide and has formula RCOOX, where X=H, Na, K, C₁-C₁₀-alkyl, NH₄, R=H, CH₃, C₂H₅, C₆H₅, CH₃-CH=CHCH=CH-, excluding propanoic acid and its salt with consumption rate of 0.1-100 hectare/t.

EFFECT: increase of efficiency while controlling storage decay and decrease of sugar lost during storage.

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Description

The invention relates to agriculture and can be used for storage of sugar beet root crops for controlling rot decay.

The use of sugar beets for industrial purposes for the production of sugar is associated with the storage of root crops lasting 60-160 days or more in field piles, which are platforms with a base width of 4-6 m, on which the beets are laid in piles 1.5-1.75 m high and cover with covering material (straw or reed mats).

One of the causes of loss of beets during storage is the activity of microorganisms that cause rotting of root crops. Beet root diseases during storage are characterized by the common name - rot rot. Losses from blasting rot can be very significant: in some sugar factories, losses amounted to 30%. When the amount of the mixture of rotten mass is 8-10% or more, plants often do not get crystalline sugar at all. When uterine beets are damaged during storage, the yield of root crops suitable for planting and their productivity are significantly reduced by 15-60%.

The most active causative agents of rot rot include fungal species: fusarium rot (fusarium spp), gray rot (botrytis cinerea), penicillosis (penicillium spp). The most aggressive causative agent of rot rot is the botritis fungus, which belongs to the group of imperfect fungi from the species of hyphomycetes. Rotting rot primarily affects weakened root crops: dried, frostbitten, wounded, as well as those affected by leaf and root diseases during the growing season. Almost always, the defeat of root crops in the kagats is caused not by one fungus, but by their complex, therefore, the loss of sugar and the degree of decay increase.

Bacterial preparations are known, for example Bactofit, Phytosporin, obtained on the basis of various strains of cultures of Bacillus subtilis (US Pat. RF 2083109), pseudomonas sp (US Pat. RF No. 2000683), botrytis cinerea (ed. St. USSR 1055412). However, these drugs are ineffective against a number of pathogens of fungal diseases, for example, sugar beet rot rot.

Known tool for processing sugar beets against rotting rot, which is a biologically active amount of neutral isoprenoids from dried and crushed wood fir green (US Pat. RF 2261601). The method of obtaining the drug is multistage and time-consuming. A commercial preparation is a 5% emulsion containing a non-ionic emulsifier OP-7.

Known methods for storing sugar beets by treating root crops with a solution of carbon ammonia (UGAM) (USSR St. Av. 677720, 904571). The disadvantage is a large amount of free ammonia, which creates adverse sanitary conditions in the preparation of the working solution. The presence of bound carbon dioxide in the preparation does not provide the maximum effectiveness of the preparation.

To prevent damage to sugar beets by rotten rot during storage, trichloromethyl ether of alkanethiosulfonic acids, for example trichloromethyl ether of ethane or propane thiosulfonic acids, as well as their mixtures with methyl ether of methanethiosulfonic acid (St. USSR 296521) are used. However, this method of storage of sugar beet root crops causes a decrease in sugar in beets during storage.

Known methods for storing sugar beet root crops by treating against rotting with an aqueous solution of pyrocatechol (a.s. St. USSR 328881), an aqueous solution of 2-chloroethylphosphonic acid, the trade name Etrel (a.s. St. USSR 625654), and milk of lime (Karpenko P.V. Beet production . M., 1964, p. 223), carbon ammonia (av. St. USSR 677720), calcium oxide (av. St. USSR 347053), a mixed composition containing the sodium salt of maleic acid hydrazide, fundamentalazole and polycarbacin (av. St. USSR 1464958), an aqueous solution of pyrocatechol with dimethyl sulfoxide (Av. St. USSR 1294311), an aqueous solution a target of thiabendazole (TEKTO fungicide) (Golyshin N.M. Fungicides in agriculture, M. 1982, pp. 115-116), a mixture of thiabendazole with sodium salt of maleic hydrazide (St. USSR 1072851), a solution of 2-chloroethyltrimethylammonium chloride - TUR preparation (av.St. USSR 880340),

All the above methods of processing sugar beets against rotting rot have one common drawback - low storage efficiency, weak suppression of rotting rot.

The closest technical solution to the claimed tool for the processing of sugar beets against rotting is an aqueous solution of trichloromethyl ether of alkanethiosulfonic acids of the general formula AIK —SO ₂ —S — CCl ₃ having fungicidal activity (ed. St. USSR No. 296521).

The disadvantage of the prototype is the low efficiency in relation to rot rot.

The aim of this invention is to increase the effectiveness of the fight against rotting and reducing sugar loss during storage.

This goal is achieved through the use of funds for the processing of sugar beets against pest rot containing an aqueous solution of fungicide. Derivatives of carboxylic acids of the formula RCOOX are used as a fungicide, where X = H, Na, K, C ₁ -C ₁₀ -alkyl, NH ₄ , R = H, CH ₃ , C ₂ H ₅ , C ₆ H ₅ , CH ₃ - CH = CHCH = CH-, with a consumption rate of 0.1-100 g / t.

The following compounds of the formula RCOOX were tested for fungicidal activity (see Table 1):

Table 1 Connection No. R X Connection No. R X one H H 35 C ₆ H ₅ Na 2 H NH ₄ 36 C ₆ H ₅ K 3 H Na 37 C ₆ H ₅ CH ₃ - four H K 38 C ₆ H ₅ C ₂ H ₅ - 5 H CH ₃ - 39 C ₆ H ₅ C ₃ H ₇ - 6 H C ₂ H ₅ - 40 C ₆ H ₅ C ₄ H ₉ - 7 H C ₃ H ₇ - 41 C ₆ H ₅ C ₅ H ₁₁ - 8 H C ₄ H ₉ - 42 C ₆ H ₅ C ₆ H ₁₃ - 9 H C ₅ H ₁₁ - 43 C ₆ H ₅ C ₈ H ₁₇ 10 H C ₆ H ₁₃ - 44 C ₆ H ₅ C ₁₀ H ₂₁ eleven H C ₈ H ₁₇ 45 CH ₃ —CH = CHCH = CH H 12 H C ₁₀ H ₂₁ 46 CH ₃ —CH = CHCH = CH NH ₄ 13 CH ₃ H 47 CH ₃ —CH = CHCH = CH Na fourteen CH ₃ NH ₄ 48 CH ₃ —CH = CHCH = CH K fifteen CH ₃ Na 49 CH ₃ —CH = CHCH = CH CH ₃ - 16 CH ₃ K fifty CH ₃ —CH = CHCH = CH C ₂ H ₅ - 17 CH ₃ CH ₃ - 51 CH ₃ —CH = CHCH = CH C ₃ H ₇ - eighteen CH ₃ C ₂ H ₅ - 52 CH ₃ —CH = CHCH = CH C ₄ H ₉ - 19 CH ₃ C ₃ H ₇ - 53 CH ₃ —CH = CHCH = CH C ₅ H ₁₁ - twenty CH ₃ C ₄ H ₉ - 54 CH ₃ —CH = CHCH = CH C ₆ H ₁₃ - 21 CH ₃ C ₅ H ₁₁ - 55 CH ₃ —CH = CHCH = CH C ₈ H ₁₇ 22 CH ₃ C ₆ H ₁₃ - 56 CH ₃ —CH = CHCH = CH C ₁₀ H ₂₁ 23 CH ₃ C ₈ H ₁₇ 57 n-HOC ₆ H ₄ - H 24 CH ₃ C ₁₀ H ₂₁ 58 n-HOC ₆ H ₄ - NH ₄ 25 C ₂ H ₅ CH ₃ - 59 n-HOC ₆ H ₄ - Na 26 C ₂ H ₅ C ₂ H ₅ - 60 n-HOC ₆ H ₄ - K 27 C ₂ H ₅ C ₃ H ₇ - 61 n-HOC ₆ H ₄ - CH ₃ - 28 C ₂ H ₅ C ₄ H ₉ - 62 n-HOC ₆ H ₄ - C ₂ H ₅ - 29th C ₂ H ₅ C ₅ H ₁₁ - 63 n-HOC ₆ H ₄ - C ₃ H ₇ - thirty C ₂ H ₅ C ₆ H ₁₃ - 64 n-HOC ₆ H ₄ - C ₄ H ₉ - 31 C ₂ H ₅ C ₈ H ₁₇ 65 n-HOC ₆ H ₄ - C ₅ H ₁₁ - 32 C ₂ H ₅ C ₁₀ H ₂₁ 66 n-HOC ₆ H ₄ - C ₆ H ₁₃ - 33 C ₆ H ₅ H 67 n-HOC ₆ H ₄ - C ₈ H ₁₇ 34 C ₆ H ₅ NH ₄ 68 n-HOC ₆ H ₄ - C ₁₀ H ₂₁

Example 1. Determination of fungicidal activity

All claimed compounds were tested for fungicidal activity. Tests were carried out on agar media by contact activity. The inhibition of fungal mycelium growth was determined: fusarium rot (fusarium spp), gray rot (botrytis cinerea), penicillosis (penicillium spp).

In all cases, a solution was used, at a concentration of AI 0.04%.

The results are summarized in table 2.

table 2 №№ Experiment Options Mycelium growth inhibition,% Fusarium rot Gray rot Penicillosis one Composition 1 one hundred one hundred 99.0 2 Composition 2 one hundred 99.6 one hundred 3 Composition 3 91.8 one hundred 94.6 four Composition 7 99,2 97.6 94.5 5 Composition 13 one hundred 98.5 one hundred 6 Composition 16 88.9 93.3 96.9 7 Composition 24 89.8 one hundred 93.8 8 Composition 25 96.4 99,2 98.3 9 Composition 37 one hundred 99.0 one hundred 10 Composition 41 97.7 one hundred 95.8 eleven Composition 45 one hundred 90.9 99.8 12 Composition 49 97.5 93.9 one hundred 13 Composition 54 one hundred 89.9 96.1 fourteen Composition 58 99.3 one hundred 98.6 fifteen Composition 61 97.4 99.0 97.1 16 Composition 68 one hundred 92.3 one hundred 17 Composition 71 95.5 94.2 94.9 eighteen Composition 29 96.8 98.5 97.5 19 Composition 30 one hundred 98.7 99.8 twenty Composition 31 96.1 96.7 98.4 21 Composition 32 94.2 95.9 95.9 22 Composition 33 98.8 96.3 one hundred 23 Composition 34 98.3 97.6 99.9 24 Composition 35 98.3 96.1 97.9 25 Composition 36 97.5 92.9 95.8 26 Prototype 82.7 73.3 18.0 27 Control, fungal mycelium growth, mm 59.0 37.0 12.0

All of the claimed compounds showed fungicidal activity above the prototype of trichloromethyl ether of ethanethiosulfonic acid.

Example 2. Field tests

Field tests were carried out jointly with VNIISS on the experimental fields in the Kursk region (open sites of the Ryshkovsky beet reception center).

The change in preservation indicators in the experimental sections of the kagat was monitored by laying net samples of root crops in wells located in its upper part to a depth of 80 cm. For this, net samples of root crops were formed, identical in size, weight, phytopathological state and quality indicators, according to 10 pieces. in each and an average weight of 7-8 kg. Samples were weighed, labeled, processed with preparations and stored in the appropriate section of the kagat. The repetition of experiments three times. The processing of root crops laid in the experimental kagat with preparations was carried out using a sprayer of the OP-2000 brand, whose nozzles were mounted on the boom of the beadloader. Specific consumption of working solution for processing 3 l / t root crops. Disposable processing, consumption rate 0.1-100 g / t. The average actual contamination of beets laid in the experimental kagat is 9-11%. According to the phytopathological state, beet heap was visually evaluated as “good”. Bookmark experience was carried out in favorable weather conditions. Beetroot raw materials laid in kagat corresponded to the 2nd category of distribution by storage duration (the experiment lasted 20 days). Throughout the entire period, the average ambient temperature was 10 ° С during the day, with sharp drops to 0-2 ° С at night, air humidity 80-90%. During the experiment, intermittent precipitation in the form of rain was observed. The average temperature inside the kagat for the entire storage period was 12-15 ° C, in the experimental sections (with preparations) - 8-10 ° C. After harvesting the root crops before laying them for storage, they were treated with the claimed compounds at a flow rate of 0.1-100 g / t.

The results of storage of root crops of sugar beets in the kagat are presented in table 3.

Table 3 Indicators Before storage After storage (20 days) Control without processing Samples treated with the drug Fitosporin Connection one prototype Connection 26 Rot mass,% reduction from control 1,2 0.6 0.7 0.9 0.4 Mass loss,% - 6.15 3.6 2,8 3.8 2.0 The average daily weight loss,% - 0.13 0.06 0,045 0.051 0,032 Beet: Sugar content, Cx _sv % 16,43 15.45 15.75 15.85 15.65 16.30 The average daily loss of sugar,% - 0,049 0,034 0,029 0,039 0.017 Reducing substances,% 0,070 0.121 0.107 0,074 0,080 0,046 Normal juice: sucrose content,% 17.7 16.7 16.9 16.25 16.9 17.40 purity,% 86.3 84.0 85.0 80.3 75.0 85.5

Thus, the decrease in rotting of root crops averaged 67%. To protect the sugar beet root crops during storage from the main causative agents of rot rot, it is necessary to treat the root crops before laying the claimed compounds with fungicidal activity.

The use of the proposed drug will reduce the loss in the mass of root crops during storage and significantly reduce the prevalence and development of rotting rot, reduce sugar loss during storage.

The overall level of root crop germination by kagat was low: in the treated root crops, the size of the sprouts did not exceed 1.1 cm, while the root crops treated with phytosporin, it was 3.2 cm, and according to the prototype - 3.6 cm.

Claims (1)

An agent for treating sugar beet against twig rot containing an aqueous solution of a fungicide, characterized in that carboxylic acid derivatives of the formula RCOOX are used as fungicide, where X = H, Na, K, C ₁ -C ₁₀ -alkyl, NH ₄ , R = H, CH ₃ , C ₂ H ₅ , C ₆ H ₅ , CH ₃ -CH = CHCH = CH-, with the exception of propionic acid and its salts, at a rate of 0.1-100 g / t.