RU2683535C1 - Tomatoes yield increasing method - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the agriculture and can be used in the tomatoes cultivation. Tomato plants are once treated with N-benzyl-N-ethylnaphthalene-2-sulfonylamide in an amount of 20 g/ha during the budding phase.EFFECT: increase in the yield.1 cl, 1 tbl

Description

The invention relates to agriculture and can be used in the cultivation of tomatoes.

Plant growth regulators are widely used in solving many problems in crop practice. With their help, agrotechnical methods of growing individual crops are improved. The use of physiologically active substances for regulating the growth and development of plants is due to a wide range of their effects on plants, the ability to directionally control individual stages of development in order to mobilize the potential of the plant organism, and, therefore, to increase the yield and quality of the grown products (Plant Growth Regulators in Agricultural Production VV Vakulenko, OA Shapoval, Fertility. - 2001. - No. 2. - p. 27-29).

The objective of the invention is to expand the arsenal of tomato growth regulators.

The technical result of the invention is to increase the yield of tomatoes.

This result is achieved by the fact that a method of increasing tomato yield involves treating vegetative plants with N-benzyl-N-ethylnaphthalene-2-sulfonylamide of the formula I:

in an amount of 20 g / ha once in the budding phase.

The claimed compound is known as an antidote 2,4-D on sunflower (Pat. No. 2430915 from 10.10.2011. Strelkov V.D., Isakova L.I., Dyadyuchenko L.V. et al.), And also as a regulator the growth of sugar beets, wheat and sunflower (Pat. No. 2611174 from 02.07.2015. Nazarenko D.Yu., Dyadyuchenko L.V. et al .; Pat. No. 2611418 from 02.22.2017. Dyadyuchenko L.V., Nazarenko D. Yu. Et al.). The growth regulating properties of this compound on tomato plants were revealed for the first time.

The synthesis of the active substance was carried out by the authors by the interaction of naphthalene-2-sulfochloride with ethylbenzylamine at room temperature in anhydrous benzene in the presence of triethylamine as an acceptor of hydrogen chloride (Weigand-Hilgetag. Experimental methods in organic chemistry. - M .: Chemistry. 1969, p. 621) according to scheme 1:

Growth-regulating activity was determined according to the standard TsINAO methodology (Brief guidelines for conducting state tests of plant growth regulators. TsINAO. Moscow - 1984 - p. 20).

The closest analogue to the claimed compound according to its properties (reference) is the Bigus preparation, BP (potassium salts of humic acids, 20-25 g / l acid), which is used to increase the yield on tomatoes (State catalog of pesticides and agrochemicals approved for use on the territory of the Russian Federation. Ministry of Agriculture of Russia. Moscow - 2017). The standard was used in the recommended amount of 300 ml / ha for tomatoes.

The invention is illustrated by the following examples.

Example 1. N-benzyl-N-ethylnaphthalene-2-sulfonylamide (compound I).

To a solution of 2.0 g (8.8 mmol) of naphthalene-2-sulfonyl chloride in 20 ml of anhydrous benzene is added a solution of 1.19 g (8.8 mmol) of ethylbenzylamine and 0.9 g (8.8 mmol) of triethylamine in 20 ml of anhydrous benzene and stirred at room temperature for 5.5-6 hours. Next, the reaction mass is separated from the precipitate of triethylamine hydrochloride, evaporated to dryness, the residue is recrystallized from cyclohexane to obtain 2.05 g (72%) of the desired product 1 as white crystals with mp . 87-88 ° C.

Found,%: C = 69.61; H = 6.02; N, 4.42. C ₁₉ H ₁₉ NO ₂ S;

Calculated,%: C = 70.13; H = 5.88; N = 4.30.

, м.д. (группа): 2,63 (с, 3Н, N-CH₃); 4,42 (с, 2Н, СН₂); 7,01…8,20 (м, 12Н, Ar). ¹ H NMR spectrum,

ppm (group): 2.63 (s, 3H, N-CH ₃ ); 4.42 (s, 2H, CH ₂ ); 7.01 ... 8.20 (m, 12H, Ar).

Example 2. Evaluation of the growth-regulating activity of the claimed compounds on tomato plants.

For experiments we used tomato varieties Volgogradsky 5/95 of the Volgograd experimental station VIR, obtained by selection from the hybrid Kuban × Chernomorets 175. The variety is zoned in 1953. Middle-late, fruit ripening occurs on 116-130 days after emergence. In the experiments, before planting tomato seedlings, Azofoska (16:16:16) at a dose of N ₄₀ P ₄₀ K _{40 was} introduced as a mineral fertilizer.

Fertilizing, planting seedlings, caring for plants, accounting and harvesting was carried out manually.

Tomato crops were sprayed once in the budding phase. The flow rate of the working fluid is 250 l / ha. Working solutions were prepared in tap water (pH = 6.8) with the addition of OP-7 (0.1%).

Spraying was carried out using a backpack sprayer. The experimental plot area is 25 m ² , the repetition is 4-fold, the allocation of the plots is randomized.

During the growing season, the following growth and development phases were noted in tomato culture: seedlings; picking of seedlings; the formation of the first or second real sheet; planting seedlings in the ground; flowering of the first brush, second brush; the beginning of the formation of fruits; the beginning of fruit ripening; first fruit picking; last harvest.

Also, in tomato plants, the height of the main stem and the number of lateral shoots, the number and area of leaves were taken into account, the number of brushes, the order of their laying (over which leaf) and the number of fruits tied to them were determined.

The influence of the studied drug on the growth and development of plants was evaluated by the following parameters: the height of the plants of the main stem; the number of lateral shoots, brushes on the main stem, brushes on the lateral shoots, fruits in the first brush, fruit set in the first plant; the mass of fruits from one plant, the size (diameter) of the fruit.

The mass of individual fruits was determined at each harvest, and then the average was calculated. Tomato fruits were harvested at the onset of technical maturity - the formation of a fruit that is typical for a particular variety / hybrid in size, shape, color. When accounting for the crop, the continuous method was used. After the last harvest, the total yield is calculated by summing the mass of fruits for all the harvests and the yield is calculated.

The quality of tomato fruits, biochemical and tasting assessments were determined 3 times per season: during the first harvest, during the largest harvest, at the last harvest.

The sugar content in the fruits was determined with a PAL-1 refractometer.

The data obtained are presented in the table.

Tests conducted on tomatoes revealed that the synthesized N-benzyl-N-ethylnaphthalene-2-sulfonylamide (compound I) exhibits the properties of a growth promoter.

Compound 1 at a dose of 20 g / ha increases the yield of tomatoes by 66 kg / ha (22.5%) and increases the sugar content by 0.8% relative to the control, at a dose of 40 g / ha the yield of tomatoes increased by 51.8 kg / ha (17.6%), and sugar content by 0.7%. At the same time, the Bigus benchmark, BP contributed to an increase in tomato yield by 22.7 kg / ha, while sugar content increased by 0.5%.

Thus, the present invention implements the specified purpose, providing an increase in tomato harvest, improving taste, and surpasses the analogue in properties of Bigus, BP. The optimal dose for using N-benzyl-N-ethylnaphthalene-2-sulfonylamide is a dose of 20 g / ha.

Claims (3)

A method of increasing tomato productivity, comprising treating vegetative plants with N-benzyl-N-ethylnaphthalene-2-sulfonylamide of the formula I

once in an amount of 20 g / ha in the budding phase.