RU2708544C1 - Method of vegetative propagation of rhizome plants in a soil substrate - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Method includes preparation of layers, their rooting in soil substrate containing hydrogel, and landings into soil. Hydrogel is produced on the basis of solution of fertilizers and is added to substrate in amount of 30–35 %. Rooting is carried out at temperature 28–30 °C, wherein 15–20 % of humic acids and 5–15 % of phenol compounds are added to the hydrogel solution. Hydrogel can be represented by carbonate hydrogel. Cutting are represented by vegetative parts of essential oil plants and vegetative parts of rhodiola rosea, Greek valerian, Althaea officinalis, motherwort or Bergenia crassifolia.

EFFECT: method makes it possible to increase efficiency of rooting and viability of seedlings up to 90 %.

4 cl, 3 dwg, 2 tbl

Description

The invention relates to the field of agriculture, namely, to methods of vegetative propagation of plants and can be used for breeding rhizome plants, in particular essential oil crops (mint, lemon balm, sage, thyme), as well as plants in high demand in the pharmaceutical market (Rhodiola rosea , cyanosis blue, medicinal marshmallow, motherwort, cardinal, frangipani, etc.).

The prior art method of vegetative propagation of woody plants, including harvesting cuttings, their rooting in the soil substrate containing a hydrogel, and planting in the ground (see patent RU2200384, class A01G23 / 00, A01B 79/02, publ. 03.20.2003) . The main disadvantages of this method are the high consumption of hydrogel and the relatively low efficiency of rooting.

The technical problem is the elimination of these shortcomings and the creation of an economical way of breeding essential oil and medicinal plants. The technical result consists in increasing the effectiveness of rooting and viability of seedlings up to 90%. The problem is solved, and the technical result is achieved by the fact that according to the method of vegetative propagation of rhizome plants, including harvesting of cuttings, their rooting in the soil substrate containing the hydrogel, and planting in the soil, the hydrogel is obtained on the basis of fertilizer solution and added to the substrate in the amount of 30 -35%, and rooting is carried out at a temperature of 28-30 ° C. 15–20% humic acids and 5–15% phenolic compounds are preferably added to the hydrogel fertilizer solution. As the hydrogel, a carbonate hydrogel is used. As layers, use the vegetative parts of essential oil crops or the vegetative parts of Rhodiola rosea, cyanosis blue, Marshmallow medicinal, motherwort or frankincense.

Figure 1 presents the vegetative parts of plants used for harvesting layering;

figure 2 - their incubation in the substrate;

figure 3 - the resulting plants planted in open ground.

At present, the most popular medicinal plants in the food and pharmaceutical industries are essential oil crops (mint, lemon balm, sage, oregano), as well as plants containing adaptogens (Rhodiola rosea, Eleutherococcus, Ginseng). On the basis of the basic species, researchers develop varieties with the highest content of active biologically active substances. In the agronomy of such varieties of medicinal plants, there is a problem of reproduction: when propagating by seeds, the “purity” of the variety is lost, and as a result, the resulting plant specimens contain a low amount of biologically active substances, which is typical only for the base species. The “purity” of the variety is preserved only during vegetative propagation (cloning): plant layers or parts of the rhizome with buds of germination are rooted in the ground. As a result of such propagation, the chemotype of the resulting plant is fully consistent with the parent chemotype, i.e. the content of biologically active substances remains at a high level characteristic of this variety. In addition, the composition of the chemotype is also of great importance, since the use of medicinal plant materials in the pharmaceutical industry implies standardization of raw materials both in terms of a certain composition of substances and their quantity. In the conditions of the Northwest region, the rooting of the vegetative parts of plants occurs very weakly due to the unfavorable climate. The problem of adverse climate is quite successfully solved by the construction and use of modern greenhouses with an automatic ventilation system for seedlings, however, along with the economic cost of the final product, seedlings obtained in greenhouse conditions do not survive well in open ground due to the large climatic interval between open and closed Wednesday. The subsequent transfer of seedlings from greenhouse conditions to the open environment also has a strong effect on the chemotype of the plant, which is unacceptable when growing medicinal plant materials.

Currently, the main regions of cultivation and harvesting of essential oil crops in Russia are the southern regions, however, the combination of moderate-cold temperatures and high humidity in the North-West region of Russia allows you to grow plants with a unique chemotype and a larger phytomass.

In the northern climate, the rooting of vegetative parts of plants in open ground is 20-30%, and in greenhouse soil - about 40%. The use of hydrogel as a component of the substrate for rooting the vegetative parts of plants can increase rooting up to 90%, which reduces the cost of growing plant seedlings and obtaining medicinal plant materials. Thanks to the hydrogel, the fertilizer solution assumes a colloidal state, is stable in the external environment and provides a metered “fertilizing” of the plant, which cannot be achieved using an ordinary aqueous fertilizer solution and standard watering. Dry hydrogel absorbs the solution and swells, increasing the mass by 40-50 times. In the process of existence, such a component of the substrate is a kind of “sponge” that absorbs and deposits moisture, giving it to plants as needed. Then, the newly introduced solution is also deposited, which avoids the loss of moisture in the deep layers of the soil and its drying on the surface, which is an important element of the so-called “controlled” feeding.

The volume of hydrogel per rooting unit is 5-10 cubic centimeters, which allows the use of 2.5-3 g of fertilizer per unit, while with standard growing technology, the fertilizer consumption rate is 10-15 g per 1 rooting unit. This is due to the fact that when fertilizers are applied to the open ground, most of them go into the deeper layers of the soil and become inaccessible to the root system of the plant, while the fertilizer hydrogel retains and promotes the production of nutrients in dosage for a long time. Such a small amount of the required substrate determines the economic efficiency of this technology, since it consumes a small amount of humic acids or any other fertilizers, which will allow it to be used in crop production enterprises to obtain high quality medicinal plant materials used in modern pharmaceutical, food and cosmetic industries.

The proposed method of vegetative propagation of plants includes the preparation of cuttings in the form of vegetative parts of plants, their rooting at a temperature of 28-30 ° C in a soil substrate, which is a mixture of peat soil and a swollen carbonate hydrogel in a concentration of 30-35%.

The experiments showed that the indicated concentration of the hydrogel can dramatically (about 3 times: for essential oil crops from 20–25% to 70%) increase the rooting rate of plant layers, with a lower and higher concentration of the hydrogel, rooting rate decreases, and at concentrations above 90% - is equal to zero. A hydrogel is obtained on the basis of a fertilizer solution containing 15–20% humic acids and 5–15% phenolic compounds obtained from a lignin hydrolyzate, a wood processing product. An example of a specific formulation of a fertilizer solution is presented in tables 1-2. In the course of the study, it was found that this composition is optimal: at a higher concentration of humic acids, rooting is sharply reduced, and at concentrations of 45-50% it is zero. This is due to the excessive aggressiveness of the substrate, as a result of which the layering darkens and does not root. Also during the study, it was found that the optimal concentration of phenolic compounds in the hydrogel is 10%. With a higher concentration of phenolic compounds, rooting is sharply reduced. This fact is explained by the fact that phenolic compounds increase the viscosity of the solution, which changes the rheological properties of the swollen hydrogel, which makes up 30% of the substrate. According to experimental data, the established optimal solution formulation makes it possible to increase the rooting rate of the cuttings of the studied plants by 15–20%.

In addition to determining the optimal hydrogel content in the substrate and the optimal fertilizer composition for rooting the cuttings of the studied essential oil plants, a study was conducted to establish the optimal incubation temperature of the cuttings placed in the substrate, due to the availability of numerous information about the influence of external temperatures on the transpiration and gas exchange processes in plants, as well as on metabolic processes in cells. The experiment was carried out in a naturally ventilated greenhouse and in an open environment, subject to the previously established optimal substrate parameters for rooting. The range of studied temperatures ranged from +15 to + 30 ° С at a relative humidity of 50-60%. All investigated samples were incubated for 14 days. The temperature and relative humidity were regulated by natural ventilation (in greenhouses) and by covering samples of seedlings with non-woven material with a density of at least 40 grams per square meter (in open ground). As a result, it was found that the optimal incubation temperature for all the samples studied was 28–30 ° С. The rooting rate increased insignificantly (on average by 5%) and amounted to 91% for peppermint, 86% for oregano, 85% for creeping thyme, and 90% for lemon balm, but the period of rooting of layers during incubation of the substrate at 28–30 ° In comparison with standard conditions (20 ° С) it decreased almost 2 times and amounted to 8 days. Thus, the observance of the indicated temperature regime in combination with certain optimal concentrations of hydrogel and fertilizers in it allow one to sharply (up to 90%) increase the efficiency of rooting of the vegetative parts of plants.

After rooting the vegetative parts of plants in the soil substrate, they are transferred to open or greenhouse soil and grown using standard technologies of plastic mulching materials or technologies of natural mulching materials (these technologies are adapted for both annual herbaceous and rhizome plants).

Studies have shown that the proposed method can increase the efficiency of rooting of the vegetative parts of plants and the viability of the resulting seedlings up to 90% compared with the standard technology of rooting in open (30%) or greenhouse (40%) soil. This allows you to reduce the cost of growing plant seedlings by about 50%, and, as a result, the cost of obtaining medicinal plant materials. Further plant growth can be carried out for various purposes: from ornamental plants to medicinal plant materials.

Table 1

RECIPE FOR INTRODUCING MICROELEMENTS TO HYDROGEL

Name of ingredients Formula
to calculate the active element Microfertilizer content in the base soil
mg \ kg (%) Humic acids 10 g / kg Trace elements 5 g / kg Ca CaO 1910 (0.191) Mg MgO 625 (0.0625) K K2O 0.65 (0.00065) P P2O5 1.45 (0.00145) B B2O3 1.75 (0.00175) Zn Zno 26 (0,026) Fe Fe2O3 73 (0,073) Cu CuO 3.35 (0.00335) Mn MnO 15.2 (0.0152) Mo Moo3 8.5 (0.0085) V V2o5 3.8 (0.0038) Co Coo 0.9 (0.0009) Ni Nio 1.2 (0.0012) Cr Cr2O3 1.25 (0.00125) Ti TiO2 1.05 (0.00105) Se Seo2 4.6 (0.0046) Na Na2O 2.6 (0.0026) S SO3 112 (0,112)

table 2

RECIPE FOR INTRODUCING SALTS TO HYDROGEL

Name
salt Formula Salt characteristic Quantity per g / 1000 L Potassium nitrate
K. nitrate Kno ₃ Low hygroscopic
P - in water,
N - 14%; K ₂ 0 - 44% 1000 Superphosphate Powder P ₂ 0 ₅ - 15% 600 Magnesium sulfate MgSO ₄ Chlorophyll 400 Potassium chloride Kcl Low hygroscopic
P - in water, Powder
K ₂ 0 - 60% 10 Iron sulfate
Iron sulfate - fungicide FeSO ₄ Industrial product - up to 50%,
Low toxicity, fungicide 10 Boric acid H ₂ IN ₃ P - in water; 5 Zinc Sulfate ZnSO ₄ P - in water; one Copper sulfate CuSO ₄ -5H ₂ O P - in water; one Ammonium Molybdenum Acid P - in water; 0.5 Potassium iodide Ki P - in water; Hygroscopic 0.5 Cobalt Chlorine CoCl ₂ -6H ₂ O 0.1

Claims (4)

1. The method of vegetative propagation of rhizome plants, including harvesting cuttings, their rooting in the soil substrate containing the hydrogel, and planting in the soil, characterized in that the hydrogel is obtained on the basis of a fertilizer solution and contribute 30-35% to the substrate, and rooting carried out at a temperature of 28-30 ° C, while 15-20% of humic acids and 5-15% of phenolic compounds are added to the solution of fertilizers for hydrogel. 2. The method according to p. 1, characterized in that the carbonate hydrogel is used as the hydrogel. 3. The method according to p. 1, characterized in that the vegetative parts of essential oil crops are used as layering. 4. The method according to p. 1, characterized in that the vegetative parts of Rhodiola rosea, cyanosis blue, Althea officinalis, cardwort or frankincense are used as layering.

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