RU2773933C1 - Method for rooting lilac cuttings - Google Patents

Abstract

FIELD: horticulture.

SUBSTANCE: invention relates to the field of horticulture, namely the propagation of lilacs. The method includes soil treatment of a greenhouse or cutting plant with an aqueous solution of Agroflorin at a concentration of 1:500 no later than 7 days before planting. After that, lilac cuttings are cut with 2-3 internodes at the time of lilac flowering or immediately after it from the middle part of the shoot with the leaves removed from the lower node and an oblique cut is made. Next, the half of the remaining leaf blades are shortened and the top of the shoot is removed by a straight cut above the top node. The cuttings are placed in a solution of Agroflorin for 24 hours, followed by planting in a greenhouse or cuttings with soil, completely deepening the lower node. Post-planting basal treatment of cuttings with Agroflorin solution is carried out at the rate of 1 ml per 1 plant with a solution concentration of 1:1000. After watering, the greenhouse or stalk is covered with two layers of polyethylene, placing a layer of translucent fabric between them. Once a week, before the formation of roots, spraying with an aqueous solution of potassium permanganate is carried out.

EFFECT: method provides for a reduction in the pesticide load on the environment by eliminating the use of fungicides, improving the biometric parameters of rooted cuttings and increasing the percentage of rooted cuttings.

1 cl, 1 dwg

Description

State of the art

A known method of clonal micropropagation of lilac in vitro, including microcutting test-tube plants on single-node segments, planting them on a nutrient medium containing macro- and microelements, iron chelate, vitamins, sucrose, agar-agar and cytokinins, obtaining microshoots, their cuttings and rooting on the medium containing auxins, characterized in that the planting of single-node segments is carried out on the nutrient medium Quorin & Lepoivre or Woody Plant Medium, or Driver & Kuniyuki with the addition of 0.2-2.0 mg / l of 6-benzylaminourine, and / or 0.2- 2.0 mg/l zeatin, and/or 0.5-1.5 mg/l kinetin, 50-1000 mg/l antibiotic from the β-lactam antibiotic group, and/or 5-500 mg/l antibiotic from the aminoglycoside group , and / or 10-1000 mg / l of an antibiotic from the group of tetracyclines, and / or 1-100 mg / l of an antibiotic from the group of cyclic glycopeptides, and rooting is carried out on a medium containing 1/2 concentration of microsalts according to Murashige & Skoog with the addition of 50 -1000 mg/l antibiotic from the β-lactam group ny antibiotics, and / or 5-500 mg / l of an antibiotic from the aminoglycoside group, and / or 10-1000 mg / l of an antibiotic from the tetracycline group, and / or 1-100 mg / l of an antibiotic from the group of cyclic glycopeptides, 0.1 mg /l indolebutyric acid, 0.01 mg/l α-naphthylacetic acid or 0.1 mg/l indoleacetic acid (patent RU 2457669, publ. 10.08.2012, Bull. No. 22).

The disadvantage of this method is:

- decrease in the ability of plants to photosynthesis

- somaclonal variability - 14-25% of the obtained plants have deviations from the sample.

- since hormones are mutogens, and the growing medium contains hormones, there is a high probability of loss of varietal characteristics during meristem propagation.

A known method of preparing green lilac cuttings for rooting by treatment with an aqueous solution of 2,4 dichlorophenoxyacetic acid - 2,4-D, characterized in that the mother bushes are sprayed 3 weeks before cuttings are harvested with an aqueous solution of 2,4-D in the Silostim preparation - tetraethoxysilane + polyoxyalkylene organosiloxane block copolymer 1:1, containing 2,4-D in an amount of 2 mg/l (patent RU 2287927, publ. 27.11.2006, Bull. No. 33).

The disadvantage of this method is that the paste, which is part of the preparation, is made on the basis of laundry soap. Its viscosity and alkaline reaction limits the number of species that respond positively to such an "alkaline treatment". The use of 2,4D dichlorophenoxyacetic acid - 2,4D as a rooting stimulant is limited due to excessively high auxin - (herbicidal) activity.

A known method for obtaining grafted lilac planting material, including grafting and subsequent planting of grafted plants or rootstocks in a container with a substrate, characterized in that when planting grafted plants or rootstocks, the root system of the rootstock is buried in the substrate by 2/3 of its total vertical length, and 1/3 of the length of the root system of the rootstock, located directly near the root neck of the rootstock, is left on the surface of the substrate that filled the container (patent RU 2204235, publ. 20.05.2003, Bull. No. 14).

After planting the grafted plants in a container with a substrate for 5 minutes, the plants are treated together with the container with a pulsed magnetic field with an amplitude value of the magnetic induction pulse of 0.05 T.

In addition, the grafted plants are planted in a container filled with a pre-magnetized substrate by exposing it to a permanent magnet field with a strength of 600 Oe for 72 hours.

The disadvantage of this method is that, in addition to its complexity, it requires expensive equipment, which is not always economically justified.

The closest in technical essence and achieved positive effect adopted by the authors as a prototype is a method of growing lilac rootstocks, including harvesting seeds, soaking them and physical impact on them, followed by planting in the soil, characterized in that lilac seeds are soaked 5-6 days before sowing in containers with a 0.03% aqueous solution of potassium permanganate and during the day, mix 6-7 times and change the solution with a total exposure of 5 days, beforehand, the seeds are treated with a constant magnetic field of 600 Oe for 24 hours, and immediately before sowing for 5 min is subjected to processing by a pulsed magnetic field with an amplitude value of the magnetic induction pulse of 0.05 T (patent RU 2203528, publ. 10.05.2003, Bull. No. 13).

The disadvantage of this method is that, in addition to its complexity, it requires expensive equipment, which is not always economically justified.

Disclosure of invention

The problem to be solved by the invention is to increase the yield of self-rooted planting material with improved biometric parameters.

The technical result of the invention is to reduce the cost of self-rooted lilac cuttings, reduce the pesticide load on the environment by eliminating the use of fungicides, improve the biometric parameters of rooted cuttings, and increase the percentage of rooted cuttings.

The technical result is achieved using a method for rooting lilac cuttings, which includes treating the soil of a greenhouse or blackberry with an aqueous solution of Agroflorin at a concentration of 1:500 no later than 7 days before planting, after which the lilac cuttings are cut with 2-3 short internodes at the time of flowering of the lilac or immediately after from the middle part of the shoot with the leaves removed from the lower node and an oblique cut is made, then the half of the remaining leaf blades are shortened and the top of the shoot is removed by a direct cut above the upper node, after which the cuttings are placed in the Agroflorin solution for 24 hours, followed by planting in greenhouse or cuttings with soil, completely deepening the lower node, after that, post-planting root treatment of cuttings with Agroflorin solution is carried out at the rate of 1 ml per 1 plant with a solution concentration of 1: 1000, after watering, the greenhouse or cuttings are covered with two layers of polyethylene, placing a layer of rare or translucent fabric, once a week until formed roots are sprayed with an aqueous solution of potassium permanganate.

Brief description of the drawings

In FIG. 1 shows the results of the implementation of the proposed method.

Implementation of the invention

Before planting, prepare the soil by mixing peat with sand in a 1: 1 ratio. Not later than 7 days before planting, preplant tillage is carried out, for which it is treated with Agroflorin solution before loosening. The concentration of the drug is 1:500 (10 ml per 5 liters of water), the flow rate of the working fluid is 0.03 l/m ² .

Enzyme biological product "Agroflorin" restores the natural purity of the soil, forms and protects the fertile soil layer from destruction, cleanses the soil and restores the natural balance of soil microflora after treatment with chemicals, pesticides and herbicides.

The composition of the biological product includes:

• Auxins: b-indolylbutyric, b-indoleacetic and a-naphthyl-acetic acids improve seed germination and stimulate the growth and development of the root system of plants; prevent falling ovaries in fruit trees and berries.

• Glyphosin: Stimulates growth and increases the sugar content of sugar cane.

• Gibberellic acid: growth stimulant for seedless grapes, cherries, citrus fruits, potatoes, barley; removes tuberous plants from dormancy, enhances the growth of sugar cane stalks, cereals, accelerates the fruiting of plants.

• Cytokinins: stimulate cell division, initiation and growth of stem buds, prolong life and maintain normal leaf metabolism, cause their secondary greening, increase plant resistance to drought and frost.

• A large amount of organic acids (10.9g/l): fumaric (0.3g/l), succinic (0.5g/l), oxalo-acetic (0.3g/l), acetic (0.5g/l) .

• Organic nitrogen-free substances 16.7; nitrogenous substances 14.8; minerals (ashes) 8.5.

• Kestose and neokestose and other oligosaccharides.

• All B vitamins, folic and nicotinic acids.

• 26 macro- and microelements vital for plants.

Actions of the enzyme biopreparation "Auxinolen":

• improves germination and seed germination;

• stimulates the growth and development of the root and vegetative systems of plants;

• increases the survival rate of plants during transplantation;

• increases the coefficient of assimilation of nutrients and fertilizers from the soil;

• inhibits the growth and development of most pathogenic fungi, root rot and phytophthora;

• forms immunity in seeds and plants to phytopathogens;

• stimulates the production of protective substances by plants - phytoalexins;

• provides an increase in the adaptability of plants to pesticide toxicosis and mineral overdose;

• stimulates the synthesis of chlorophyll, phytohormones and phytoalexins by plants;

• increases the resistance of plants to stress factors (transplantation, drought, waterlogging, hypothermia);

• prevents the fall of the ovaries, accelerates the ripening of fruits and the entry into fruiting;

• Significantly increases productivity.

At the time of flowering of lilacs or immediately after it, when young overgrown twigs finish their growth, but are still woody, cuttings are harvested. Cuttings are cut early in the morning from young bushes from the middle of the crown, while the branches should be of medium thickness (in extreme cases thin) from the middle part of the shoot and have 2-3 nodes with short internodes. After cutting the cuttings, the leaves are completely removed from the lower node and an oblique cut is made as close as possible to the lower node, using a well-sharpened grafting knife or a special pruner to injure the tissues at the cut site as little as possible. Next, the half of the remaining leaf blades are shortened and the top of the shoot is removed, making a straight cut above the top node. Immediately after cutting the cuttings, they are placed in the Agroflorin solution for 24 hours. The concentration of the solution is 1:500 (10 ml per 5 liters of water), the consumption of the drug depends on the number of cuttings.

When planting a cutting in a greenhouse or a cutting, the lower node is completely buried. Immediately after planting the cuttings, post-planting basal treatment of the cuttings (watering) with an aqueous solution of Agroflorin is carried out. The concentration of the solution is 1:1000 (1 ml per 1 liter of water), the consumption of the drug is 1 ml per 1 plant. After that, the cuttings are covered with two layers of polyethylene, placing a layer of rare or translucent fabric between them.

It is necessary to ensure that the soil in the greenhouse or cuttings does not dry out, for this, cuttings are sprayed 2-3 times a day. Lilac cuttings take root for a very long time, depending on the variety, the roots appear on the 40-60th day after planting. Once a week, spraying with an aqueous solution of potassium permanganate is carried out to prevent the formation of mold on the leaves. With the formation of roots, a greenhouse or cutting is aired in the evening, and then it is completely opened.

In the spring of the next year, after planting rooted cuttings at a permanent place of growth in the green cone phase - the beginning of bud break, the 1st root treatment (watering) with Agroflorin solution is carried out. The concentration of the solution is 1:1000 (1 ml per 1 liter of water), the consumption of the drug is from 2 to 4 ml per plant, depending on the size of the plants (from 2 to 4 liters of an aqueous solution per 1 plant).

The results of the implementation of the proposed method are shown in Fig. 1 and show that in most varieties of lilac, the proposed method contributed to a higher percentage of rooting of lilac cuttings.

The invention compared with the prototype and other known technical solutions has the following advantages:

- the efficiency and range of biological action of the enzyme preparation "Agroflorin" is dozens of times higher than the efficiency and range of action of biological products. The action of the drug lasts 4-6 months in a wide temperature range - +1 ... + 50 ° C.

- very low consumption of the enzyme preparation per unit area, in contrast to biological preparations. Therefore, the use of the Agroflorin enzyme preparation makes it possible to reduce the toxic load of pesticides on the soil and plants, increase the bioavailability and absorption of nutrients and microelements by plants, and allows creating an optimal balance between indicators of environmental friendliness, economy and energy efficiency of agricultural production.

Claims (1)

A method for rooting lilac cuttings, which includes treating the soil of a greenhouse or cutting plant with an aqueous solution of Agroflorin with a concentration of 1:500 no later than 7 days before planting, after which the lilac cuttings are cut with 2-3 internodes at the time of flowering of the lilac or immediately after it from the middle part of the shoot with the removal of leaves from the lower node and make an oblique cut, then the half of the remaining leaf blades are shortened and the top of the shoot is removed by a direct cut above the upper node, after which the cuttings are placed in Agroflorin solution for 24 hours, followed by planting in a greenhouse or cuttings with soil, completely deepening the lower node, after that, post-planting basal treatment of the cuttings with Agroflorin solution is carried out at the rate of 1 ml per 1 plant with a solution concentration of 1: 1000, after watering, the greenhouse or cutting is covered with two layers of polyethylene, placing a layer of translucent fabric between them, once a week until roots form spraying with an aqueous solution of potassium permanganate.

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