RU2620644C2 - Method for stimulation of growth and development of tomatoes - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for stimulation of growth and development of tomatoes includes pre-plant seed treatment, plant treatment by spraying them with a biologically active drug during the growing season. As per the invention a highly-dispersed homogeneous aqueous suspension of electrohydraulically treated peat with a moisture content of 75-90% or a highly-dispersed homogeneous aqueous suspension of electrohydraulically treated peat with a moisture content of 75-90% with microelements in the ratio of 1:1.3 are used as a biologically active drug. The pre-plant seed treatment is done by soaking, the spraying is performed at least twice: the first one - in ten days after planting; the second one - in the phase of mass flowering, fruit set beginning, while the drug consumption rate is 70-200 liters/ha.

EFFECT: invention improves seed germination ability and rate, yield, accelerates their growth and reduces the growing period.

5 tbl

Description

The invention relates to agriculture, in particular to methods for growing vegetable crops.

A known method of processing vegetable crops when grown using a plant growth regulator with fungicidal action "VERVA" (RU 2298327, IPC A01N 65/00) based on green wood fir, including the active substance in the form of water-soluble salts of triterpene acids and neutral components of needles. The biological product is effective at an active substance concentration of 2.5-250 mg / L.

A known method of processing crops (RU 97103702, IPC A01N 65/00), including pre-sowing seed treatment or spraying vegetative plants with a biologically active substance, which is used as a 0.003% solution of lyophilisate of goat extract at a flow rate of 10 l per 1 ton of seeds or 300 l per 1 ha of vegetative plants.

The closest analogue is a method of stimulating the growth and development of vegetable crops (RU 2425477, IPC A01C / 00), including pre-planting seed treatment and treatment of plants during the growing season with a biologically active preparation isolated from fir green wood. As a biological product, a mixture of sodium or potassium salt of triterpenic acids and neutral components of needles is used at a ratio of 1: 0.1-0.2. Preplant seed treatment is carried out by spraying with a 1% aqueous solution a week before planting at a dose of 0.25 g / t with a working fluid flow rate of 10 l / t. During the growing season, plants are treated three times with an aqueous solution of the drug by spraying in the phase of the beginning of flowering, in the phase of mass flowering and seven days after the second treatment at a dose of 5.0 g / ha with a flow rate of 300 l / ha. The method allows to stimulate the growth and development of the plant, reduces the seedling period, increases the productivity and quality of the vegetable crop, while maintaining the effectiveness of protection against diseases.

The technical result of the present invention is the development of a new and effective method of stimulating the growth and development of tomato fruits, increasing germination, speed of seed germination, accelerating growth, increasing yield and quality of fruits, increasing plant viability, shortening the growing season.

The technical result is achieved by the fact that a method of stimulating the growth and development of tomatoes, including pre-planting seed treatment, treatment of plants by spraying a biologically active preparation during the growing season, according to the invention, a highly dispersed homogeneous aqueous suspension of electro-hydraulically treated peat with a humidity of 75-90% is used or highly dispersed homogeneous aqueous suspension of electro-hydraulically processed peat with a moisture content of 75-90% with trace elements When a ratio of 1: 1-3, preplant seed treatment is carried out by soaking, spraying is preferably carried out at least two times: first - ten days after planting; the second - in the phase of mass flowering, the beginning of fruit set, while the consumption rate of the drug is 70-200 l / ha. The method is as follows.

The studies were carried out at the Federal State Budgetary Scientific Institution of the Russian Academy of Agricultural Sciences of the Komi Republic. The effect of biologically active electro-hydraulic peat, including trace elements, on the sowing quality of tomato seeds, growth, development, productivity, quality of tomato fruits grown in open ground was studied.

The studies were conducted on the experimental fields of FSUE Severnoye in accordance with the following methods: field experience in vegetable growing (2011), field experience edited by B.A. Dospekhova (1985), physiological studies in vegetable growing (1970).

The biologically active substance is obtained using the installation according to patent 2422415. To obtain a biologically active substance with growth-promoting and bactericidal properties, an aqueous suspension of peat treated using the electro-hydraulic effect is used. The essence of the processing method is that when a specially formed pulsed electric (spark, wrist and other forms) discharge is discharged inside the volume of liquid in an open or closed vessel, ultra-high hydraulic pressures arise around the zone of its transformation, which can perform useful mechanical work and are accompanied by a complex of physical and chemical effects on complex organic structures. Electro-hydraulic treatment activates the organic matter and nitrogen of peat, increasing the nutritional value of the processing compound. After EG treatment, humic substances of peat with a high content of ammonia nitrogen become more active as a result of the transition of insoluble forms of chemical compounds into soluble and able to stimulate the physiological processes of plant life, the content of ammonia form of nitrogen in peat increases by 1.5–4 times, 3 times the content of water-soluble organic matter, the group composition of the organic matter changes. In the aqueous phase of electro-hydraulic peat (EG peat), the content of phenolic and indole substances increases, which in certain concentrations have a biostimulating effect.

To study the properties of electro-hydraulically treated peat (EG peat) when growing tomato fruits, liquid EG peat with a moisture content of 75-90% was used, which is a highly dispersed homogeneous aqueous suspension. Additionally, an aqueous suspension of EG-peat with microelements taken at a ratio of 1: 1-3, respectively, was used for the study. A distinctive feature of EG peat with microelements is the complex composition of this fertilizer, which includes, in addition to humic and fulvic acids, additional enrichment with microelements.

Table 1 shows the field experiment.

The area of the accounting plot was 5 m ² . The repetition of processing is fourfold. Planting density - 3 plants / m ² . Before sowing, tomato seeds were soaked in an aqueous suspension of EG-peat, in an aqueous suspension of EG-peat with microelements (B + Mo + Cu, Mg, Mn) 1: 1, in an aqueous suspension of EG-peat with microelements (B + Mo + Cu + Mg + Mn) 1: 3 at 24 ° C for 12 hours. The date of sowing tomato seeds for seedlings was 04.04.13, in the prepared substrate, followed by picking in 0.8 l pots. Seedlings were grown in a film greenhouse heated for 60 days. Seedlings appearance date - 08.04; mass seedlings - 11.04. Seedlings were planted with the 1st flower brush on June 10, when frost had passed.

Spraying biologics with an aqueous suspension of EG-peat and an aqueous suspension of EG-peat with trace elements was carried out:

the first - ten days after planting;

the second - in the phase of mass flowering, the beginning of fruit set.

The flow rate of the working fluid was 0.1 l per 1 m ² .

During the growing season, we carried out phenological observations, biometric measurements, weighings and took into account the development of diseases. The mass of one fruit (g), the yield from one plant (kg), and from 1 m ^{2 were} determined. Harvested in 3 stages (August 16, August 26, September 16).

Biometric measurements and selection of fruits for analysis was performed from each repetition (6 plants). Evaluation of the quality of marketable fruits was carried out by taking into account the mass and determining the chemical composition: dry matter content by the thermostatic method [9]; total Sugars according to Bertrand [10]; ascorbic acid according to I.K. Murray [11]; nitrates ionometrically [12].

Mathematical data processing was carried out according to the system of statistical analysis of VIUA (laboratory for mathematical support of agrochemical studies), Moscow, 1991. Table 2 shows the phenological observations

Phenological observations (Table 2), which showed that despite the same time for sowing seeds and transplanting seedlings, the rate of seed germination, flowering phase, fruit formation and fruit ripening in plants treated with growth regulators proceeded in a shorter time than in the control. As a result of fruit ripening, they came earlier than in control. Earlier passage of phenophases (flowering, fruit setting and ripening) was observed on plants treated with EG-peat with trace elements. The germination energy of tomato seeds increased by 5.8% compared with the control. Thus, the studied plant biostimulant has a positive effect on the manifestation of biological precocity.

Table 3 shows the biometric indicators.

During the growing season, tomato plants formed in two stems with the removal of side stepsons. To identify the growth rate, we performed biometric observations of twenty-four plants of each experiment. To identify the growth-stimulating effect of drugs on tomato seedlings, the length of the seedlings and the length of the root system were measured. The increase in the length of the shoots (Table 3) compared to the control is 2.0–3.0 cm, the increase in the length of the roots is 1.3–1.5 cm. Measurements of planted tomato plants in open ground were carried out with an interval of 20 days. The first - a week after transplanting seedlings in open ground (June 17). We took into account the height of plants from the root neck to the growth point, leaf biometry - the length, including the petiole and the upper unpaired lobe, and the width along the line of the most developed lobes.

The receipt of the first production was recorded on 07.08, the main crop was taken on 16.08, 26.08; the elimination of culture - 16.09. In liquid collection, the fruits of mainly the upper two brushes were removed and laid for ripening.

Biometric data from tomatoes showed that plants responded positively to biological treatments. In the first month after planting tomato seedlings in open ground, the size of the leaves gradually increased. Further, the linear dimensions of the formed leaves of the middle tier (from 1 to 4 brushes) did not change during the growing season.

The greatest length and width (32.0; 23.2) of the leaf were observed in plants treated with 1: 3 EG peat with microelements, which is 13.1%, respectively; 8.9% higher than in the control variant, while the height of plants in this variant increased by 6.0%. Other options also exceeded the control level by 1.4-4.8%. The treatment of biological products did not have a special effect on the number of lateral shoots, on average it amounted to 7-9 pieces.

An important indicator, on which the size of both the early and the total crop directly depends, is the number of fruits that have started. When growing tomatoes in the open field, not all flowers in plants form fruits, therefore, to obtain more reliable information, we took into account the tying of 7 brushes.

In the control variant, fruit set on hands was 66.7%. The best fruit set (100%) had plants treated with EG-peat with trace elements. The average weight of the fetus in the control was 76 grams, on treated plants from 46 to 59 grams. Table 4 shows the yield of tomato fruits.

The most important indicator in assessing new agricultural practices in tomato culture is early productivity, or economic precocity of tomato. The profitability of tomato culture directly depends on the proportion of the early harvest. In the control variant, the lowest early crop was obtained. The share of the early harvest was the highest in the version with EG-peat 1: 3 with trace elements.

All plants treated with biological products were not affected by apical rot; the fruits were resistant to cracking. Until September 09, these tomato plants were not affected by late blight, except for single plants in the control variant. Among the fruits ripened in liquid collection (16.09), late blight did not affect plant fruits treated with EG-peat, EG-peat with trace elements.

The nutritional value and taste of a tomato are determined, first of all, by a high content of sugars and dry matter. The use of plant growth regulators during the growing season contributed to an increase in the dry matter content in fruits compared to the control. The highest percentage of dry matter content (6.3; 6.5) was in fruits using EG-peat with trace elements, in the control - 5.3% (Table 5). The highest content of ascorbic acid (24.7; 25.6 mg /%) was observed in the fruits of plants treated with an aqueous suspension of EG-peat with microelements (1: 3), which is 6.0 mg /% higher than the control; 6.9 mg /%, respectively. The nitrate content was below the maximum permissible concentration (MPC - 150 mg / kg) in all cases. A slight decrease in nitrates by 14.5-24.2 mg / kg was observed on plants treated with an aqueous suspension of EG peat with trace elements (1: 3). Table 5 shows the chemical composition of tomato fruits.

Thus, studies have shown that an aqueous suspension of EG-peat and an aqueous suspension of EG-peat with trace elements have a stimulating effect on the growth and development of tomatoes. Processing them with seeds and vegetating plants accelerates the onset of phenophases, activates growth processes, reduces shedding of flowers and ovaries, accelerates flowering and fruit formation, reduces the incidence of plants with alternariosis and late blight, increases tomato productivity and improves fruit quality.

Claims (1)

A method of stimulating the growth and development of tomatoes, including preplant seed treatment, treatment of plants by spraying with a biologically active preparation during the growing season, characterized in that a highly dispersed homogeneous aqueous suspension of electrohydraulically treated peat with a moisture content of 75-90% or highly dispersed homogeneous water is used as a biologically active preparation a suspension of electro-hydraulically treated peat with a moisture content of 75-90% with trace elements at a ratio of 1: 1-3, preplant treatment the seeds are carried out by soaking, spraying is preferably carried out at least two times: the first - ten days after planting; the second - in the phase of mass flowering, the beginning of fruit set, while the consumption rate of the drug is 70-200 l / ha.