RU2671484C1 - Method of increasing germination of seeds, growth and seedlings development - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to viticulture, in particular to selection of grapes and nursery. Proposed method comprises preparation of hybrid seeds, preparation of seeds for planting in open ground. In this case, the seeds are re-soaked in gibberic acid with a concentration of 0.01 % within 24 hours. In December, seeds are sown in vases with a substrate consisting of horse manure, glauconite sand, Green Go 8-16-24+10CaO and black soil in proportion: 1:1:1:1. Plants are grown during the first growing season, bringing the seedling growth to 0.6 m in the stratification chamber at t 25÷26 °C and humidity 85÷90 %. After that, the vases are installed on shelves in plastic micro-greenhouses with adjustable temperature and humidity conditions, bringing the plants height to 1.5 m.EFFECT: increase in germination of seeds, growth and development of seedlings due to pre-treatment of seeds is provided.1 cl, 2 tbl

Description

The invention relates to the field of viticulture, in particular to selection of grapes and nursery.

Hybrid seeds are known to have low germination, which significantly inhibits the breeding process. To increase the percentage of germination of grape seeds and to achieve strong development of seedlings during the first year, various methods of seed treatment have been tested. For example, soaking seeds before stratification in a 1- and 3% solution of Na ₂ CO ₃ and a 0.25 and 3% solution of (NH ₄ ) ₂ SO ₄ and copper (15-20 mg per 150 m ^{3 of} water) (Malykh G.P. Stimulation of seed germination and development of hybrid seedlings / G.P. Malykh, A.Yu. Potapenko, M.G. Barilo, T.G. // Wine-making and viticulture, - 2003. - No. 4. - P. 43-45; KE Ovcharov Physiological basis of seed germination / KE Ovcharov. - M .: Nauka, 1969. - 103 p.).

To increase the germination of grape seeds A.S. Merzhanian proposed their treatment with NaHCO ₃ , NaCl, lactic and acetic acid (Merzhanian A.S. Viticulture / A.S. Merzhanian - M .: Pishchepromizdat, 1951. - 524 p.).

Similar results were obtained when grape seeds were treated with nicotinic, butyric and indolylbutyric acid in various concentrations before stratification (Negrul A.M. Viticulture and winemaking / A.M. Negrul. - M .: Kolos, 1968. - 512 p.).

But still it is not possible to obtain high germination of seedlings. All of the above drugs are not widely used in breeding. Recently, natural regulators (phytohormones) have become widespread - these are low molecular weight compounds that are formed in various plant tissues that regulate and coordinate various physiological processes in various concentrations. Five types of phytohormones are known: auxins, cytokinins, gibberellins, abscisic acid and ethylene. Of these, the first three relate to stimulating hormones, and the last two are natural growth inhibitors. Gibberellic acid is a reagent, which is a white crystalline substance that is part of the hormones found in nature in many plants and is used as a plant growth regulator (KE Ovcharov. Physiological basis for seed germination / K.E. Ovcharov. - M. : Science, 1969. - 103 p.).

For successful seedling cultivation, it is enough to select substrates that provide optimal seed germination, equipped with a minimum starting supply of nutrients, but this stock is only enough to form a tiny spine and two cotyledon leaves. The latter should immediately be included in productive photosynthesis, since the plant does not have other sources of plastic materials. The initial weak resource of assimilates is directed to the further growth of the root and an increase in the area of the leaf surface. The forcedly slow stage of the gradual expansion of the capabilities of a new plant takes most of the first growing season.

Known liquid humic fertilizer based on peat and vermicompost containing trace elements, taking into account the soil and crop characteristics, and a method for its production. The fertilizer contains nitrogen (NO ₃ ) not less than 0.002%, potassium (K ₂ O) not more than 0.4%, phosphorus (P ₂ O ₅ ) not less than 0.03%, humic acids 0.15-0.5%. Depending on the needs of the crops, it can contain either copper (0.001 wt.%), Or boron (0.001%), or zinc or magnesium (0.001%), or selenium (0.001%), or silicon oxide (0.001%), or various combinations these substances (Ovcharov KE Physiological basis of seed germination / KE Ovcharov. - M .: Nauka, 1969. - 103 p.).

However, this fertilizer does not allow to obtain concentrated trace elements with a minimum starting supply of nutrients that provide optimal seed germination.

The technical task of the invention is the development of a method for increasing seed germination, growth and development of seedlings by pre-treating seeds, using a special substrate and creating optimal conditions for growth and development.

The problem is solved using the proposed method, including the preparation of seeds and planting in a greenhouse. In this case, the seeds are re-soaked in gibberelic acid with a concentration of 0.01% for 24 hours and in December sown in flowerpots with a substrate consisting of horse manure, glauconite sand, Green Go 8-16-24 + 10СаО and chernozem in the ratio of 1: 1: 1: 1 and grown in a greenhouse, bringing the growth of seedlings to 0.6 m in a stratification chamber at a temperature of 25-26 ° C and an air humidity of 85-90%, after which the flowerpots are installed on racks in film micro-greenhouses with adjustable temperature conditions and humidity.

The novelty of the claimed method lies in the fact that for the treatment of seeds as a biologically active substance, a solution of gibberellic acid with a concentration of 100 ml / l (0.01%) is used. Then the seeds are planted in flowerpots with a substrate consisting of horse manure, glauconite sand, Green Go 8-16-24 + 10СаО, chernozem in the ratio 1: 1: 1: 1 and create optimal climatic conditions for a short year-long development cycle “vegetation-rest »In a special film microthermal with adjustable temperature and humidity.

Distinctive features of the proposed method is that the seeds are additionally soaked in gibberelic acid with a concentration of 0.01% for 24 hours, after which they are planted in a special substrate that provides optimal seed germination, bringing seedling growth to 0.6 m in a stratification chamber, after which is why they are placed in film micro-greenhouses with adjustable temperature and humidity modes to create the conditions for a short one-year development cycle of “vegetation-rest”.

The technical result is expressed in the fact that according to the proposed method, when re-soaking the seeds for 24 hours in gibberellic acid with a concentration of 100 mg / l (0.01%), the seed germination percentage reaches 80-90%, i.e. more than two times higher than when using other stimulants. To accelerate the process of obtaining healthy seedlings, the composition of the substrate from local raw materials, the richest in macro and micronutrient fertilizers, is proposed. For the full passage of the juvenile process, it is necessary to ensure not only increased growth, but also the necessary climatic conditions for the development of plants, in the absence of which life processes slow down. When creating certain climatic conditions, plants can carry out each of the development periods according to an abbreviated program.

The method is as follows.

Stratification of seedlings begins in November in wet sand at a temperature of + 3 ÷ 5 ° C. In mid-December, the seeds, after soaking for seven days in water at a temperature of + 20 ÷ 25 ° C, are re-soaked for 24 hours in gibberellic acid at a concentration of 100 mg / l (0.01%) and sown in flowerpots with a substrate.

In the proposed method using a special substrate, consisting of all the necessary nutrients seedlings. The substrate is prepared as follows: in horse manure, add glauconite sand, Green Go fertilizer 8-16-24 + 10СаО with black soil in the proportion: 1: 1: 1: 1 and put in a greenhouse in truncated two-liter flowerpots. Hybrid seeds are sown in the middle of the pot to a depth of 5 ÷ 6 cm, watered. Then placed in a stratification chamber at a temperature of + 25 ÷ 27 ° C with an air humidity of 85-90%. Seedlings are grown in a stratification chamber until a gain of 0.6 m is achieved.

When growing seedlings, it is extremely important to control the temperature and humidity to accelerate the development of seedlings in ontogenesis. When the seedling reaches a predetermined height, the flowerpots are installed on racks in film micro-greenhouses with adjustable temperature and humidity conditions.

In a special installation that automatically ensures optimal humidity, air and substrate temperatures in the micro-greenhouse by supplying steam through the tubes, while providing heating of the root formation zones of seedlings and air, the temperature is successively changed.

After installing flowerpots on the shelves, the temperature under the shelves is set 205 ÷ 25 ° C, which creates comfortable conditions for the development of the root system. In May, when the growth reaches 1.5 meters, shoots at the base begin to ripen and the temperature under the shelves is reduced to 125 ÷ 15 ° C. After a week, the plants are preparing to enter a dormant state, which is interrupted by an increase in temperature, resulting in accelerated fruiting of seedlings. Then the temperature is reduced to 125 ÷ 15 ° C and the plant after 15 days begins to enter a dormant state, which is again interrupted by an increase in temperature. In autumn, plants enter the natural dormant period, which is interrupted by turning on our device, setting the temperature t 255 ÷ 26 ° C and air humidity 85 ÷ 90%.

Grapes are grown in a greenhouse until the first harvest for 2 years. Standard agricultural technology is applied: watering, top dressing, "green" operations. If necessary, treatment is carried out from pests and diseases. To speed up the entry into fruiting, make a distillation on one vine. With good nutrition, an inflorescence in the kidneys is formed after 125-15 eyes. In the second year of life, seedlings are rejected. With good seedlings, during green operations, shoots are harvested and additionally 205 ÷ 25 plants are obtained from each bush, thereby accelerating the selection process. As a result, in the second year of life, the seedlings appeared to be “as if” on the third annual cycle of “vegetation-rest” development and therefore bear fruit from 67 to 85.6%.

In Tab. 1, 2 presents the results of specific experiments on the implementation of the claimed method.

In Tab. 1 shows the results of the influence of gibberellic acid on the yield of hybrid seedlings, plant growth and development. When processing seeds with a 0.01% solution of gibberellic acid, not only the yield of seedlings increases, but also the average growth of shoots increases by 34.1 cm, the leaf surface area by 16.7 cm ² .

In Tab. Figure 2 shows the effect of substrates on the seedlings yield when sowing seedlings in December and their development in the first year of life. As can be seen from the table, the seedlings on the proposed substrate provide a high yield of 88.7% or higher than in the prototype by 24.7%. The higher survival rate of seedlings in the greenhouse was in option III - 98.7% or higher by 18.1%.

Thus, the proposed method, which includes a set of measures from seed preparation to obtaining productive plants, allows to reduce the time for the cultivation of new varieties by 3-4 years and transfer qualitative new varieties to production tests.

Claims (1)

    A method of increasing seed germination, growth and development of grape seedlings, including obtaining hybrid seeds, preparing seeds for planting in open ground, characterized in that the seeds are re-soaked in gibberelic acid with a concentration of 0.01% for 24 hours and sown in flowerpots in December with a substrate consisting of horse manure, glauconite sand, Green Go 8-16-24 + 10СаО and chernozem in the ratio: 1: 1: 1: 1, grown during the first vegetation, bringing seedlings up to 0.6 m in a stratification chamber at t 25 ÷ 26 ° С and air humidity 85 ÷ 90%, pos then they are mounted on racks in film micro-greenhouses with adjustable temperature and humidity modes, bringing the increase to 1.5 m.