UA46624A - FUNGICIDAL COMPOSITION - Google Patents

Abstract

A fungicidal composition includes a mixture of aqueous solution of green vitriol and a stock solution with neutral or weak alkaline reaction of the working solution. In so doing the green vitriol solution with the concentration of 0.5 - 3 % is mixed with the stock for which 0.5-3 % carbamide solution in the ratio of 1:1-2 to the solution that has a рН value within the range 5.5-7 is used.

Description

Description of the invention

The invention relates to agriculture, to means of protection of agricultural and ornamental crops from infectious and non-infectious diseases with mild contact-intestinal toxicity for some types of insect pests.

Inorganic metal-retaining compounds used as pesticides are known. This group includes inorganic compounds of copper (copper sulfate, Bordeaux liquid, copper chloride), iron (ferrous sulfate), magnesium, calcium (magnesium chlorate, calcium chlorate), zinc (zinc phosphide), aluminum (phostoxin). |1. 70 Handbook of pesticides: Application hygiene and toxicology / Comp. L. K. Sedokur; Under the editorship A. V. Pavlova. -

3rd ed., ex. and additional - K. Vrozhai, 1986. - p. 274). Such a preparation as Bordeaux liquid (an aqueous solution of a mixture of 1 - 395 copper sulfate with slaked lime to a neutral or slightly alkaline reaction pH 6 - 8) is quite effective as a fungicide. However, the current shortage of mussels and their sharp increase in price forces us to look for a cheaper alternative. Inorganic fungicides include iron compounds. Iron as a macroelement for plants is 72 irreplaceable, and its deficiency slows down photosynthesis and respiration. Iron deficiency often occurs in many types of cultivated plants, especially on carbonate soils, causing mass chlorosis, therefore foliar or fertilizing spraying with a solution of iron-containing preparations is very important in the complex of protective and preventive measures. Iron enters the plant in the form of Re(3-). Iron sulfate as a fungicide, similar to copper sulfate in terms of use, has also been known for a long time. Iron sulfate is produced in the form of 5390 soluble technical powder mainly for industrial purposes in agriculture, it is recommended to use aqueous solutions of iron sulfate for plant protection. The C - 495th solution of iron sulfate is used against diseases of trunks and branches, scab and other spots on fruit crops, as well as on vineyards. Plants are sprayed with the specified solution before the beginning or after the end of vegetation (2. Pozin M.B. Technology of mineral fertilizers, pesticides, industrial salts, oxides and acids, part 1, Izd. 4th edition - L.: Chemistry, 1974. - p. 3451. "

The disadvantages of these compounds include the fact that Z - 495 solutions of iron sulfate are recommended in the fight against diseases only on fruit crops and grapes before the beginning or after the end of the growing season. This is due to the phytotoxicity of Z - 4956 solution for plants during the growing season due to an acidic reaction (pH Z - 5).

Reducing the concentration of the working solution to 0.5 - 195 allows you to use iron sulfate on plants that are growing, but the fungicidal activity is practically absent. Therefore, the use of iron sulfate against Ha infectious diseases of plants is ineffective and in a concentration of 0.5 - 195 it is used only to combat chlorosis. For foliar feeding, you can use iron sulfate (2), (3), iron carbonate (25), ee, iron-ammonia alum, as well as various iron complexes: Red-dtpa (iron diethylenetriaminepentaacetate) - "o antichlorozin, Be-zdta, Be-zdda, Re-lignin sulfonate. |Z. B. F. Fedyushkin Mineral fertilizers with 3o microelements.: Technology and application. - L: Chemistry, 1989. - "Industry - village", 272 p.|. WITH

The closest to the claimed invention is a compound that includes a 1.5-2.595 solution of iron sulfate in a mixture with an aqueous solution of calcium oxide hydrate (slaked lime) - Ca(OnH)2 at a ratio of components of 1: 0.5-1 to obtaining a neutral or weakly alkaline reaction (pH 6 - 8) and spraying with a working "liquid, vegetative plants, against diseases (4. Patent Mo 2166851, Compound for the protection of agricultural - 50 plants from diseases and the method of its application MKI AO1TM 59/06, 59/00, published Bull. Mo. 14, 2001 - prototypes. The disadvantage of the specified compound is that due to the high pH value of the solution (6-8) it can only be used on plants.

The basis of the invention is the task of improving the compound and expanding/spectrum of its application due to the selection of components and the introduction of urea as a mineral fertilizer base at a certain ratio and the use of the compound not only as a fungicide, but also for foliar feeding. e The task is achieved by the fact that the fungicidal composition, which includes a mixture of an aqueous solution of iron

Gee! vitriol and bases with a weakly alkaline or neutral reaction of the working solution, according to the invention, a 0.5 - 395 solution of urea is used as a base, and an aqueous solution of iron vitriol is taken with a concentration of 0.5 b - C Fo in a ratio of 1 - 2: 1 at the pH of the solution 5.5 - 7. ka 20 The introduction of urea into the composition of the mineral fertilizer solution in a certain ratio allows you to reduce the acidity of the solution to pH 5.5 - 7 and use it as a foliar top dressing and fungicide at the same time.

T» The mixture is prepared by mixing iron sulfate and 0.5 - 395, a solution of urea mineral fertilizer in a ratio of 1: 1 - 2 and spraying the plants growing with the resulting mixture.

The results of research and production experience on the use of the proposed compound against diseases of 29 plants in the conditions of the Donetsk branch of the Institute of Horticulture (1996 - 1998, Artemivskyi district, Donetsk region) in the village of fruit crops showed a fairly high efficiency (see Tables 1 - 3). The tested compound was practically not inferior to the prototype in the effectiveness of suppressing the causative agents of fungal diseases and significantly increased the yield.

The working solution for garden treatment is prepared immediately before use on a mechanized 60 filling unit (for example, SZS-10 type). When spraying fruit orchards with tractor sprayers

OPV-2000 consumption rate of the working fluid was 1O0OOl/ha.

The acidity of the solution in the specified concentrations can be pH-5.5 - 7.0 and is controlled by universal litmus paper. The rate of liquid consumption when using a carbamide-sulphate mixture by a mechanized method is multi-liter and depends on the type of culture. because Data on the biological effectiveness of the proposed compound:

Name of variants On average for 3 years of observations, 90

Note: the treatments were carried out during the period of budding - green cone", the calculation of the efficiency of 70 was made by the percentage of leaves affected by scab at the end of May and the beginning of June.

Variant names Average of 15 observations, 96 years of urea 20

Note: the treatments were carried out during the period of ovary formation (end of May-beginning of June), the effectiveness is calculated for 9 o defeat of fruits in the month of July.

It should be noted that there was also a decrease in the development of powdery mildew (up to 5090) and the number of such pests as young leaf-gnawing caterpillars, aphids, 25 Midianits by 20 - 3595 compared to the control.

The average yield of apple trees in variants with the use of the proposed compound was 17 - 32 cents/ha higher than in the variants using the liquid prototype and 45 - 4 cents/ha higher than the control (without treatment). h with y

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35 . . . . . but "

Note: treatments were carried out in the "green cone" phenophase, efficiency was measured after flowering, after 95 leaf defeats. As can be seen from the table, the proposed composition was slightly inferior to the efficiency of the prototype.

The average yield of plum variety Uhorka Donetska in the version with the use of this compound was 8 cents higher than when using the liquid prototype and 23 cents/ha higher than in the control. " 20 Good results were obtained when berry cultures were treated with a fungicidal compound (tables 4 - 5). The rate of consumption of working fluid on berry trees was 8O0Ol/ha. x"

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Ф The increase in the raspberry yield from the plots treated with the proposed fungicidal compound per 20 ha amounted to an average of Х3.2. Observations also established that when treated with this compound during the formation of leaf rosettes (the emergence of flower stalks), the resistance of raspberries to spring frosts increases. In 1999 - 2000

2010, during the period of emergence of flower stalks, the air temperature dropped to 7 - 9 degrees. On the plots treated with carbamide-sulfate compound, the yield was 13.5 tons per hectare, while there was no marketable crop on the control and treated with rya liquid, according to the prototype. z" bo Dew of urea berries 65 Note: spraying was carried out during the period of leaf growth, efficiency was recorded during the harvest period (July).

7 average yield increase compared to the control with an average yield of 47 t/ha.

As can be seen from the table, the effectiveness of the proposed compound against a complex of strawberry diseases was quite high (70 - 90905) and, in addition, the treatment allowed to increase the marketable yield by Zc/ha compared to the standard.

The results obtained when using the fungicidal compound on vegetable crops also confirm its effectiveness against such diseases as late blight on tomatoes (see Table 6). Experimental plots of tomatoes were treated with a tractor sprayer with a consumption rate of 600 - 80Ol/ha. The use of the drug in a concentration of 0.5 - 1965 in the variant with manual spraying reduced the development of true powdery mildew on cucumbers by 2 - 7/0 times compared to the control. The treated cucumber plants were also more resistant to downy mildew, because the drying of the tops on the once-treated plants occurred 8-13 days later than the control ones.

Table 6

Comparative effectiveness of the application of 1,095 proposed compounds against late blight of tomatoes

Name of options (Biological effectiveness by years of observation, 95U average over the years 1997 1998 1999 2. The proposed compound: 1095 iron sulfate » 1.595 urea

Note: treatments were carried out twice - before flowering and after the formation of an ovary; efficiency was measured during the period of mass harvest in August for 95 affected plants of the same Volgograd variety.

It should be emphasized that despite the fact that the biological efficiency of the proposed compound is slightly lower, the amount of standard harvest is the same due to higher yield. The increase compared to the standard was 12.3 c/ha. In the treated areas, damage to plants by the Colorado potato beetle was 3095 lower than in the control, which indicates the presence of an antifeedant or weak intestinal contact effect on this pest (larvae). The crop "obtained when using the fungicidal compound met the quality requirements, according to the sanitary and hygienic certification of plant products.

Thus, the use of the proposed compound allows you to expand the range of its application and "use it not only as a fungicide, but for foliar feeding, which has a beneficial effect on growth and fruiting and is due to the action of nitrogen and iron, as macroelements. This is especially characteristic of fruit crops experiencing iron deficiency "chlorosis" on carbonate soils. Crops treated with a fungicidal compound for the purpose of prevention do not require foliar fertilization. (Se)

Claims (1)

The formula of the invention " The fungicidal composition, which includes a mixture of an aqueous solution of iron sulfate and a base with a neutral or slightly alkaline reaction of the working solution, which differs in that a solution of iron sulfate with a concentration of "0.5 - Z 95" is mixed with a base for which a 0.5 - Z 95 solution is used urea in a ratio of 1:1-2 to a solution of 7 s with a pH of 5.5-7. from the Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2002, M 5, 15.05.2002. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. Cheka" (at) (at) name) "with" 60 b5