RU2359457C1 - Composition for stimulating growth and development and for protecting crops from fungus diseases - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: here is disclosed composition for stimulating growth and development and for protection of crops from fungus diseases; said composition corresponds to 7.7-dimethyl-2-phenyl-4-(4-metoxyphenyl)-5-oxso-5,6,7,8-tetrahydroquinilin of formula

. The invention can be used for treatment of seeds or tubers to increase their germination and resistance to fungus diseases.

EFFECT: maintaining efficient effect at reduced cost.

7 tbl, 3 ex

Description

The invention relates to the field of agriculture and can be used to process seeds or tubers in order to increase their germination and resistance to fungal diseases.

Known tetrahydrate (+) hydrotartrate (+) cis- [2S, 5R-1,5-dimethyl-2- (1-hydroxy-3-propyl)] - pyrrolidinium of the formula

,

,

showing morphogenetic and growth-regulating activity (see RF patent for invention No. 2186768, IPC C07D 207/08).

However, this substance is difficult to synthesize and, accordingly, expensive.

Known fungicide against diseases of crops with a stimulating effect on plant growth of the General formula

High fungicidal activity in combination with a stimulating effect on plant growth provides effective protection of crops from widespread pathogens (see RF patent for the invention No. 2200393, IPC A01N 55/08).

However, this substance has a complex structure.

Known means for combating phytopathogenic diseases of cultivated plants, which is an effective combination of 4-phenoxyquinoline of the formula

with various fungicides (see RF patent No. 2221425, IPC A01N 43/42, A01N 43/40).

However, the halogen-substituted aromatic rings included in the composition usually lead to toxic properties. In addition, chlorine-containing aromatic compounds tend to accumulate in the soil due to their high stability.

The objective of the present invention is to provide a non-toxic and inexpensive stimulant, quite simple to obtain.

The technical result is to maintain the effectiveness of the impact when cheaper.

The problem is solved in that the agent for stimulating growth and development, protection against fungal diseases of crops is a compound 7,7-dimethyl-2-phenyl-4- (4-methoxyphenyl) -5-oxo-5,6,7, 8-tetrahydroquinoline (THC) of the formula

For this substance, antioxidant and cryoprotective properties were previously identified. This compound can be obtained by the method published in the work of Kharchenko V.G., Markova L.I., Kazarinova T.D., Yudovich L.M. About the nature of heterocyclization of triketones of the 2- (3-oxopropyl) -cyclohexane-1,3-dione series. Chemistry of Heterocyclic Compounds - 1985, No. 7, pp. 915-918.

The authors revealed previously unknown properties of this substance, which allow it to be used for the specified purpose and can be illustrated by the following examples.

Example 1. Laboratory studies of the growth-regulating effect of THC to assess the activity of the enzyme peroxidase and determine its auxin activity.

The experiments were carried out on soft spring wheat of the Saratovskaya 29 variety, Kustovoi cucumbers, Dubok tomato and Nevsky potato. Before the study, 50 seeds for wheat, cucumber and tomato and 3 tubers for potatoes were soaked for 24 hours in a THC solution with a concentration of 10 ^-4 % or 10 ^-3 %. Distilled water was used as a control. The standard was solutions of industrial plant growth stimulants immunocytophyte and extrasol, the processing of which was carried out according to the recommended methods.

After processing, the seed material was washed with distilled water and put on germination. The seeds of wheat, cucumber and tomato were germinated in wet rolls of filter paper in an incubator at 24-25 ° C until sprouts 15-20 mm long appeared [see A large workshop on plant physiology / Gavrilenko V.F., Ladygina M.E., Handobina L.M. / M .: Higher. school., 1975, 391 S.].

Treated potato tubers were placed in a wet peat - sand substrate prepared in a 1: 1 ratio and germinated also in an incubator at 24-25 ° C.

The resulting sprouts were separated from seeds and tubers and triturated with cold acetate buffer (pH 4.7) in a ratio of 1:10. The suspension was infused in the refrigerator for 12 hours, then centrifuged at 12,000 g. In the supernatant, the activity of the peroxidase enzyme was determined by the method with o-phenylenediamine [see Suslova T.A., Khorosheva T.M. To the question of biochemical aspects of alfalfa resistance to mycoplasmosis // Sat .: Def. rast. Saratov. 1993. S.111].

The effects of TLC were determined in relation to water (control) and industrial biostimulants (standard).

The experimental data show that for all the cultures studied, THC significantly increased the activity of the peroxidase enzyme compared to the control, and for some cultures there was a higher activity compared to the options for using industrial biostimulants (Table 1), which indicates the inclusion of THC in oxidative recovery processes in plants and its high biological activity.

A study of THC on auxin activity was carried out on a cucumber.

Auxin activity was determined using a biotest [see Workshop on plant growth and resistance / Textbook / Field V.V., Chirkova T.V., Lutov L.A. / St. Petersburg: Publishing. S.-P. University, 2001, 212 pp.].

The auxin activity of the substance was evaluated by changing the length of a seedling placed in a solution of a biologically active substance and the formation of a bend on it. In the variant with THC, the seedling length increased by 4 mm compared to the control (5 mm) and tissue growth (bending) was noted. In the case of immunocytophyte, an industrial growth promoter, the increase was only 2 mm.

Laboratory test data indicate the manifestation of THC auxin activity.

Example 2. Growth-regulating activity of THC on various crops in open ground.

Field experiments in open ground were carried out for 5 years (2002-2006) on Saratovskaya 29 soft spring wheat in the conditions of Ivanteyevsky district of the Saratov region, Kustovoi cucumber in the Samara region, Dubok tomatoes in the Volgograd region, and potato varieties Nevsky in the conditions of the Arkadak district of the Saratov region. The experiments were laid, harvesting and yield accounting was carried out according to the method of state variety testing of agricultural crops (Moscow, 1985, issue 2, 286 pp.).

Before sowing, seeds and tubers were treated by soaking in a solution of TLC with a concentration of 10 ^-4 or 10 ^-3 % (OD mg / l or 1 mg / l of substance) [see V.F. Velik, R.A. Krotova. Seed quality, methods for their pre-sowing preparation // Sat. Vegetable farming of open ground. - M .: Kolos, 1984, p.108]. The control was water, as a standard (standard) solutions of industrial biostimulants of plant growth and development of immunocytophyte and extrasol.

Tomatoes were planted in seedlings in open ground 45 days after sowing seeds.

Wheat, cucumbers, and potatoes were planted directly in the soil with soaked and dried seeds and tubers.

The repetition of the experiments is 4-fold. The size of accounting plots for all crops is 25 m ² , the protective zone is 1.5 m.

For accounting, 10 plants were taken from each repetition.

The experiments were laid on chernozem soils. Soil preparation included peeling, chilling tillage to a depth of 25-30 cm, spring harrowing, double cultivation. Potatoes were planted using the comb method.

Before planting tomato seedlings, fertilizers were applied (superphosphate 4 kg / ha, potassium chloride 2 kg / ha), and ammonium nitrate (1.5 kg / ha) was added during cultivation.

Ammonium nitrate, double superphosphate, potassium chloride and ammonium phosphate (2: 3: 2: 3) were used as fertilizers on potatoes.

During the growing season of tomatoes and cucumbers, 6-10 waterings were carried out, 4 waterings were carried out for potatoes.

Crop accounting was carried out from all accounting plots (Tables 2, 3, 4, 6).

From tables 2, 3, 4, 6 it can be seen that pre-sowing treatment of THC seed material in the form of solutions with a concentration of 10 ^-4 % and 10 ^-3 % contributes to an increase in yield in various crops compared with the control by 4-48%.

The THC treatment was especially effective on the Dubok variety tomatoes and Nevsky variety potatoes.

Under the influence of THC, the size of the fruits of tomato and potato tubers increased significantly compared to the control, by 40 and 15%, respectively. With the same total average number of fruits from the bush, a large mass of fruits gave a higher total yield from the plot.

The use of THC for growing wheat and cucumbers also led to an increase in their productivity by 4-6% compared with the control.

In all variants of experiments with THC on wheat, the number of productive stems per plot increased, the number of grains in an ear, and the mass of 1000 grains.

From table 5 it is seen that the treatment of tomato seeds with THH contributed to an increase in field germination of seeds, and also shifted the stages of the onset of organogenesis to an earlier date, which led to the production of early marketable products and a decrease in the development of major fungal diseases.

Example 3. The study of THC as an inducer of resistance to fungal diseases in various crops.

In the field, for all cultures, the degree of development of the main fungal diseases was taken into account: on wheat - brown rust, powdery mildew, root rot; on cucumbers - powdery mildew; on tomatoes - septoria, apical rot, late blight; on potato - late blight [see Phytosanitary examination of agricultural crops (recommendations) 7 Moscow, FGNU, Rosinformagroteh, Ministry of Agriculture of the Russian Federation. Moscow, 2002, 134 pp.].

From table 7 it is seen that the treatment of all cultures with a THC solution reduced the development and prevalence of the main fungal diseases characteristic of these plants.

Thus, under the influence of THC treatment in wheat, the degree of brown rust affection decreased by 0.1%, powdery mildew by 0.4%, root rot by 6% compared with the control.

A significant effect of THC treatment was obtained on cucumbers. The development of such a disease harmful to cucumbers as powdery mildew under the influence of processing decreased by 7%, which extended the growing season by 2 weeks.

A positive effect of THC treatment was also obtained for tomatoes. In the variant with THC, the degree of development of diseases such as septoria, vertebral rot and, especially, late blight decreased (by 2.2% compared with the control).

The development of late blight, under the influence of processing, also decreased in potatoes - by 13% compared with the control.

Reducing the prevalence of major diseases under the influence of treatment with biologically active substances eliminates the chemical methods of combating these diseases and get environmentally friendly products.

According to the results of laboratory and field studies of the preparation of THC, we can conclude that it has a high biological activity and protective effect on plants. Possessing multifunctional regulatory functions, THC is involved in the processes of replication, transcription and translation, increases the activity of DNA and enhances the synthesis of i-RNA, which, in turn, is accompanied by intensification of plant growth and development.

table 2 The effect of THC on wheat productivity Saratovskaya 29 (2002-2004) Experience option Spike length, cm The number of grains in the ear, pcs. Mass of 1000 grains, g The number of productive stems in the plot, pcs. Harvest c / ha % Increase The control 6.9 17 29th 310 13.3 - THC - 10 ^-4 % 7.0 21 31 336 13.9 4,5 THC - 10 ^-3 % 7.0 24 34 347 14.1 6.0 Standard 7.0 twenty thirty 331 13.8 3,7 NDS ₀₅ 0.04 0.12 1.3 9.8 0.15

Table 3 The influence of THC on the productivity of cucumber cultivar Kustovoi (2004-2006) Experience option The average weight of 1 fetus, kg The average number of fruits per bush, pcs. Harvest kg / m ² % increase The control 0.18 12 42.7 - THC - 10 ^-4 % 0.15 16 44.3 3,7 Standard 0.19 19 47.5 11,2 NDS ₀₅ 0.01 0.12 0.56

Table 4 The influence of THC on the productivity of tomato variety Dubok (2002-2004) Experience option The average weight of 1 fetus, kg The average number of fruits from 1 plant, pcs. Harvest kg / m ² % increase The control 59.0 10.1 2.1 - THC - 10 ^-3 % 68.6 8.9 2,8 33.3 THC - 10 ^-4 % 81.2 9.3 3,1 47.6 Standard 66.3 8.7 2.7 28.6 NDS ₀₅ 1.3 0,07 0.06

Table 5 The effect of THC on the passage of the stages of organogenesis in tomatoes of the Dubok variety (average for 2002-2004) Experience option Field germination,% Dates of the onset of phases of organogenesis Seedlings 1 sheet phase Budding phase Flowering phase Ripening phase The control 78 11.05 14.05 13.06 18.06 14.07 THC - 10 ^-3 % 88 12.05 15.05 14.06 18.06 12.07 THC - 10 ^-4 % 95 9.05 11.05 10.06 13.06 8.07 Standard 89 11.05 12.05 12.06 16.06 11.07

Table 6 The influence of THC on the productivity of potatoes of the Nevsky variety (2004-2006) Experience option Emergence of seedlings The number of tubers from 1 bush, pcs. Weight 1 tuber, g Harvest c / ha % increase The control 5.06 10 150 70 - THC - 10 ^-3 % 2.06 eleven 173 90 28.6 Standard 30.05 12 162 92 31,4 Hcp ₀₅ 0.2 1.4 0.09

Claims (1)

Means for stimulating growth and development, protection against fungal diseases of agricultural crops, which is 7,7-dimethyl-2-phenyl-4- (4-methoxyphenyl) -5-oxo-5,6,7,8-tetrahydroquinoline.