RU2741107C1 - Method for increase of lettuce crops productivity and quality - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the agriculture. Method for increasing productivity and quality of lettuce crops during cultivation in closed system of phytotron involves using organosilicon compound as growth regulator, wherein in closed phytotron system during vegetation on 14th day after seeds sowing in conditions of hydroponic culture, aqueous solution of 1-ethoxysilatrane in concentration of 0.5-50.0 mg per 1 liter of water is applied once for foliar treatment.EFFECT: invention allows enhancing the salad crops production quality under conditions of the closed agrobiotechnical system - phytotron.1 cl, 3 tbl

Description

The invention relates to the field of agriculture, in particular to vegetable growing, and can be used in the cultivation of high quality salad crops in a closed phytotron system.

The known method, which uses a silicon-containing fertilizer, which includes the ash of rice plant residues - husk in combination with macro- and microelements (patent No. 2525582, publ. 08/20/2014, bull. No. 23, IPC S05G 1/00).

However, the known fertilizer contains no more than 10% of the silicon component in the husk, and the rest of the mineral components in the form of salts and oxides have a variable composition, which can negatively affect the growth and development of vegetable crops, especially in the closed phytotron system. In addition, the silicon component is obtained by roasting rice crop residues, in particular rice husks (husks). The resulting husk is ground in a ball mill to a fraction of less than 0.16 mm and sieved through a sieve. All this complicates the known technical solution. Also, silicon fertilizer is applied to the soil in high concentrations and does not allow its use in the form of foliar feeding of plants through the leaf, due to the use of fractions of the preparation particles, which do not allow to overcome the protective barrier of the leaf membrane.

A silicon-containing preparation Energy M is also known, consisting of silatrane 1-chloromethylsilatrane and a synthetic analogue of the phytohormone auxin - crezacin, which is implemented in the method of cultivating lettuce in a closed phytotron system (RF patent No. 2702086, publ. 03.10.2019, bull. No. 28, IPC A01G 22/15). Despite the positive effect of using the combined preparation of 1-chlomethylsilatran with crezacin for growing salad crops in phytotrons, the method implements foliar treatment of plants with a working solution of the preparation on the 18-20 days of vegetation of the salad culture during the period of active photosynthesis and maximum surface coverage with rosettes of plant leaves. This reduces the effectiveness of the implementation of the method when transferring its application from one type of salad culture or variety to another, where the effectiveness of the penetration of active principles of multidirectional action - phytohormone (crezacin) and an adaptogen, which is 1-chloromethylsilatran - may decrease. Also, the practical implementation of binary compositions is less technological in the preparation of working solutions and more expensive in terms of the total cost of its components as compared to a monopreparation.

The closest technical solution to the proposed object is the use in agriculture of a preparation consisting of only one organosilicon substance 1-chloromethylsilatrane, better known under the trade name Mival-Agro, which is used as a universal plant growth regulator capable of increasing productivity by 10-20% ( Internet - cekator.ru/mival-agro, forundacha.ru).

The known drug is widely used to increase the yield of agricultural crops. At the same time, the substance Mivala-Agro, 1-chloromethylsilatran, is poorly soluble in water and hydrolyzes both during long-term storage and in the process of contact with water when preparing working solutions before processing plants.

The authors do not provide data on the shelf life of working solutions before using the drug, which narrows the application for closed systems due to the ambiguity of the environmental friendliness of its use for various phytotron designs. In the process of multiple treatments, the accumulation of hydrolysis products of 1-chloromethylsilatrane, which are derivatives of the chloromethyl radical during the cleavage of the silicon-carbon bond, is possible.

The technical result is to reduce costs, increase the environmental friendliness of the implementation of the method and improve the quality of production of salad crops in a closed agrobiotechnological system - phytotron.

The technical solution of the declared object is that in a closed phytotron system during the growing season of a salad culture on the 14th day after sowing seeds in a hydroponic culture, an aqueous solution of 1-ethoxysilatrane is used once for foliar treatment at a concentration of 0.5 - 50.0 mg per 1 liter of water.

The proposed technical solution is implemented as follows.

To test the proposed method for processing salad crops, we used controlled conditions for temperature, humidity and lighting in a closed system of a phytotron model ISR-0.01 (designed by ANO Institute for Development Strategies, Moscow) with combined lighting (LEDs and fluorescent lamps) with a total intensity of 132 μmol / m ² * s with a day length of 17 hours. The spectrum is polychromic with a predominance of red and blue light.

For cultivation under phytotron conditions (design ISR-0.01, developed by ANO Institute for Development Strategies, Moscow), leaf lettuce ( Lactuca sativa ) variety Dubachek MS was used. In the process of germination and vegetation of lettuce plants, a standard nutrient solution of the following composition (in mg / l) was used: N-NH ₄ - 5; P - 41; K 275; Ca - 100; Mg - 24; S - 30; Fe - 0.94; Mn 0.14; B 0.16; Cu - 0.03; Zn 0.13; Mo - 0.03; pH 5.7-6.0; EU 1.5-2. Temperature 23-25 ° С. The experiments were repeated 4 times. Foliar treatment with working solutions of 1-ethoxysilatrane of different concentrations was carried out once, by the method of foliar small-drop spraying on the 14th day after sowing the seeds. We used 5 variants of drug concentrations, mg / l: - 0.5, 1.0, 5.0, 10.0, 50.0. As a control, we used the treatment of rosettes of lettuce plants with distilled water.

In the control variant (without feeding, water treatment) and experimental variants (treatment with solutions of workers of different concentrations of 1-ethoxysilatrane), the effectiveness of the proposed treatment method was determined by a set of indicators: the general condition of plants, their height, the average weight of the aboveground part of the plant (productivity), as well as the content of dry substances, antioxidants, vitamin C, photosynthetic pigments in lettuce leaves.

Assessment of the general condition of plants (on a 5-point scale) was carried out according to a set of indicators (appearance, taking into account color, size, shape, development of the leaf system). Determination of dry matter was carried out by drying to constant weight at a temperature of 105 ° C; vitamin C - by titration with sodium 2,6-dichlorophenolindophenolate solution; total antioxidant activity - coulometric method; photosynthetic pigments - spectrophotometric method with preliminary extraction of pigments with ethanol from raw lettuce samples.

Silicon-containing preparations increase plant resistance to any stress, suppress the negative effect of heavy metals, and improve product quality. Preparations containing silicon penetrate into plant cells, change the activity of physiological processes (intensity of photosynthesis and respiration, accumulation of chlorophyll, activity of enzymes) and significantly increase plant resistance to diseases and unfavorable climatic conditions. The applied dose of the drug based on 1-ethoxysilatrane was substantiated experimentally.

With the same silatrane structure, the compounds 1-ethoxysilatrane and 1-chloromethylsilatrane differ in different radicals bound to the silicon atom. With repeated use in a closed chamber of a phytotron of any design, the decomposition products of the 1-ethoxysilatrane compound that did not get on the treated leaves will be safe substances - triethanolamine, silicon dioxide and ethyl alcohol in low concentrations, which do not affect the ecological situation in the chamber during the experiment with vegetating plants.

The test results of the method using 1-ethoxysilatrane are shown in tables 1-3.

Assessment of the general condition of plants showed the presence of an effect in the studied ranges of concentrations of 1-ethoxysilatrane in water, depending on the concentration of the active substance (Table 1). A similar relationship was observed when assessing the height and productivity of plants.

Table 1. Characteristics of lettuce plants in method tests

Concentration of 1-ES, mg / l Assessment of the general condition of plants, point Plant height at the time of harvest, cm Increase in plant height,% weight,
g / plant Increased productivity
plants,% Control, 0 4.2 24.6 - 17.3 - 0.5 4.2 24.9 +1.2 18.0 +4.3 1.0 4.6 27.3 +11.0 20.6 +19.2 5.0 5.0 28.3 +15.0 21.0 +21.6 10.0 5.0 29.8 +21.1 22.0 +27.3 50 4,3 25.0 +1.6 18.3 +5.8

Treatment with 1-ethoxysilatrane (1-ES) increased both the accumulation of dry matter in lettuce leaves and the antioxidant activity and vitamin C content as compared to the control (Table 2).

Table 2. Dry matter content, total antioxidant activity (CAOA) and accumulation of vitamin C in lettuce leaves

Concentration of 1-ES, mg / l Dry matter,% in fresh salad Increase in dry matter in salad,% CAOA lettuce, mg rutin / g fr wt Increase in SAOA,% Vitamin C, mg per 100 g fr wt Increase in vitamin C content,% Control 0 7.4 - 3.887 - 4.22 - 0.5 7.8 +5.4 4.556 +10.2 4.24 0.0 1.0 7.9 +6.8 6.283 +64.6 5.01 +18.7 5.0 8.1 +9.5 6.188 +59.2 5.08 +20.4 10.0 8.3 +12.2 6.169 +58.7 5.27 +24.9 50.0 7,7 +4.1 4.775 +22.8 4.90 +16.1

The content of photosynthetic pigments in leaves can serve as an indicator of the physiological state of plant objects. Under optimal conditions for plants, the content of chlorophyll a exceeds the content of chlorophyll b (the ratio of a : b is higher than one), under unfavorable conditions this ratio decreases, down to values less than 1.

The maximum content of chlorophylls and carotenoids was observed after foliar treatment with 1-ethoxylatrane at a concentration of 10 mg / L (Table 3). Both in the experimental and control variants, the chlorophyll contentaexceeded the content of chlorophyllb, which indicates the normal course of metabolic processes in the leaves. Chlorophyll ratioa andb after foliar treatment with 1-ethoxysilatrane increased compared with control

The pattern of changes in the content of carotenoids is generally similar to the pattern of changes in the content of chlorophyll a when plants are treated with aqueous solutions of different concentrations of 1-ethoxysilatrane.

Table 3. Content of photosynthetic pigments, mg / g of fresh mass of salad culture

ES concentration, mg / l Chlorophyll a, mg / g Chlorophyll b, mg / g Ratio
a : b Carotenoids, mg / g Control, 0 1.117 0.398 2.81 0.456 0.5 1.183 0.387 3.06 0.484 1.0 1.403 0.295 4.76 0.603 5.0 1,423 0.382 3.73 0.617 10.0 1,667 0.459 3.63 0.626 50.0 1.171 0.357 3.28 0.492

The research results indicate the effectiveness of the proposed method, which provides a significant increase in the yield of lettuce with high indicators of its quality in a closed phytotron system while reducing the cost of one treatment.

Even with a single foliar treatment of the rosettes of lettuce leaves with aqueous solutions of 1-ethoxysilatrane in a closed phytotron system, the possibilities of increasing productivity, plant height, quality of vegetable salad products in terms of dry matter content, photosynthetic pigments (chlorophyll, carotenoids), antioxidant content, vitamin C are realized.

Claims (1)

A method for increasing the productivity and quality of salad crops when grown in a closed phytotron system, including the use of an organosilicon compound as a growth regulator, characterized in that in a closed phytotron system during the growing season on the 14th day after sowing seeds in a hydroponic culture, it is used once for foliar processing an aqueous solution of 1-ethoxysilatrane at a concentration of 0.5–50.0 mg per 1 liter of water.