RU2708829C1 - Potato minitubers stimulation method - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention relates to the field of biotechnology. Invention is a method for accelerated relaxation of period of rest by stimulating awakening and friendly shoots of freshly harvested minitubers of potatoes, including placing them in an aqueous solution containing thiocyanate potassium and thiourea by 0.02 g/l, indolylacetic, gibberylic and succinic acid in amount of 0.02 g/l, as well as melanin-like substances from Nadsoniella nigra yeast in amount of 1.0–3.0 g/l, and characterized in that minitubers in solution are exposed to ultrasound with frequency of 22–44 kHz, acoustic power density of 0.3–1.0 W/cm³ for 15–360 s.

EFFECT: invention allows to stimulate potato minitubers sprouting, increase the number of waking up eyes and accelerate growth of sprouts.

1 cl, 1 dwg, 3 ex

Description

The invention relates to the field of agriculture, in particular, to accelerate the introduction into circulation of new varieties of potatoes, obtained as a result of a combination of methods of biotechnology and traditional selection.

The objective of the present invention is to develop a method of removing the dormant period, accelerating the passage of forced rest, pausing the process of entering the resting period of freshly harvested potato minicubers. The developed method combines physical and chemical factors, the use of which allows stimulating freshly harvested potato minicubers with a high degree of efficiency in order to increase the number of amicably awakening eyes, accelerate the growth and development of sprouts.

This goal is achieved by stimulating the germination of potato minitubers by ultrasound with a frequency of 22-44 kHz, acoustic power density of 0.3-1.0 W / cm ³ , for 15-360 seconds, in a solution containing biostimulants - melanin-like substances from Nadsoniella nigra yeast potassium thiourea and thiourea (1.0-3.0 g / l), as well as indoleacetic, hiberrelic and succinic acids (0.01-0.03 g / l).

Potato minitubers, in particular, obtained by the aeroponic method under phytotron conditions, can be produced year-round using biotechnological plants that guarantee isolation of plants from phytopathogens and other infectious agents (Ahloowalia B. S. Production and performance of potato mini-tubers. Euphytica. 1994, 75 , No. 3, pp. 163-172, RF Patent No. 2157064, 1999, Patent RU 2621571, 2016, etc.). However, the minicubers produced in the winter and spring production cycles, by the time they are planted in the ground, as a rule, do not have time to go through the dormant period, which significantly affects their further productivity.

It is also known that potassium thiocyanate, thiourea, indoleacetic, hiberrelic and succinic acids, to varying degrees and in various combinations, stimulate the growth and development of plants and are used in presowing treatment of seeds and planting material to accelerate their development during the growing season (S. Rubtsov , Vovchuk O.A., Bakunov A.L., Dmitrieva N.N., Milekhin A.V. Dynamics of the output of potato minitubers from the dormant period depending on the use of various growth stimulants.Young Scientist. 2016, 27, No. 3, С 51-53. Mohammadi M.S., Kashani A., Vazan S., H. Farshid. Evaluation of potato mini-tubers dormancy breaking affected by various chemicals, genotype and mini-tuber size. International Journal of Biosciences. 2014, 4, No. 6, p. 100-108).

It is also known that the ultrasonic effect on biological tissues leads to an increase in the permeability of their cell membranes, which is the basis for the physiotherapeutic phonophoresis method (Akopyan VB, Ershov A.Yu., Fundamentals of the interaction of ultrasound with biological objects, Moscow, URIGHT, 2016 , 223 p.), And also in some cases stimulates the growth and development of living organisms, activating metabolic processes and initiating non-specific reactions to which the body does not have a standard response program, which leads to the implementation of an internal reserve potential of a living system (Korzhevenko GN, Akopyan VB, GN Shangin-Berezovsky. Hidden reserve of growth and development of living systems. Bulletin of Agricultural Science, 1988, No. 4, (380), p. 96-105).

There are many different methods that realize the effect on planting material, in particular, seeds before sowing with chemicals (Patent RU No. 2159529), mechanical or heat treatment (RF Patent No. 2350231; RF Patent No. 2294935), the effect of ionizing and non-ionizing radiation (Cousin AM "The stimulating effect of ionizing radiation on biological processes" M., Atomizdat, 1977, 134 s), etc. Influenced by seeds and ultrasound of various frequencies and intensities, or a combination of ultrasound with other physico-chemical effects (RF Patent No. 2174296).

Seeds, as a rule, are treated with ultrasound in a bath with water or aqueous solutions of trace elements and biostimulants. The presence of an aqueous medium avoids the loss of acoustic energy during its transfer from the transducer to the seeds, but at the same time creates difficulties in reproducing and interpreting the results, since it is difficult to achieve the same soaking and swelling of seeds even under similar conditions, since the speed of swelling depends on the residence time of the seeds in the aquatic environment, on its temperature, on the structure and condition of the seed coat, etc. Obviously, mainly these, as well as a number of other factors, determine the large scatter of the results of the study of the effectiveness of pre-sowing seed treatment with ultrasound in aqueous media (Akopyan V.B., Khlyupkin V.M., Konovalov N.T. Presowing stimulation of seeds of forage crops. . "Use of physical and biological factors in veterinary medicine and animal husbandry", M., MBA, 1992, pp. 28-29; Akopyan VB, Abramov OV, Konovalov NT, etc. Ultrasonic presowing treatment of seeds barley.Vestnik s.kh. Nauki, 1991, No. 1 (412), pp. 71-74, A.S. 1202092, 1985). It is also obvious that the above limitations do not apply to potato tubers, the tissue of which has a cellular structure that is not susceptible to significant changes upon contact of the tuber with water and aqueous solutions.

A proposal for presowing stimulation of planting material with an electromagnetic field of industrial frequency is known, but the proposal is considered only at the level of a mathematical model and has not yet found industrial application (Starukhin R.S., Belitsyn I.V., Khomutov O.I. Seed treatment using elliptical electromagnetic field. Polzunovsky Bulletin, 2009, No. 4, pp. 97-103).

The technical result of the invention is achieved by stimulating potato minicubers with ultrasound at a frequency of 22-44 kHz, acoustic power density of 0.3-1.0 W / cm ³ , for 15-360 seconds, in a solution containing biostimulants - melanin-like substances from Nadsoniella nigra yeast potassium thiourea and thiourea (1.0-3.0 g / l), as well as indoleacetic, hiberrelic and succinic acids (0.01-0.03 g / l).

The combined effect of stimulant and ultrasound solutions intensifies the effect of chemicals, ensuring their rapid delivery to the tuber tissue, including in the area of the eyes, and also causes their nonspecific stimulation.

The invention is illustrated by examples, which are not, however, restrictive.

Example 1

In a container with an aqueous solution of biostimulants (2 g / l of potassium thiourea, 2 g / l of thiourea, 0.02 g / l of indoleacetic acid, 0.02 g / l of gibberelic acid, and 0.02 g / l of succinic acid, a melanin-like substance extracted from the culture fluid of fermentation of yeast Nadsoniella nigra), at a temperature of 20 ° C, were placed for 10 minutes in 16 minicubers of potatoes of the Zhukovsky Ranniy and Red Scarlett varieties, of approximately the same size and weight (18 ± 2 g) obtained by aeroponic cultivation in the spring and collected in one day (04/28/18).

After treatment only in solutions of biostimulants, sprouted eyes were not observed in the minitubers for 7, 14, or 21 days (Fig. 1a).

Example 2

Into a container with an aqueous solution of biostimulants (2 g / l of potassium thiourea, 2 g / l of thiourea, 0.02 g / l of indoleacetic acid, 0.02 g / l of gibberelic acid, and 0.02 g / l of succinic acid, a melanin-like substance Isolated from the culture fluid of Nadsoniella nigra yeast fermentation, at a temperature of 20 ° C, 16 minikubers of Zhukovsky early potato cultivar, of approximately the same size and weight (18 ± 2 g), obtained from the aeroponic cultivation plant in spring and collected on one day were placed (04/28/18), then subjected to ultrasound with a frequency of 22-44 kHz, pl the relative acoustic power of 0.3-1.0 W / cm ³ for 0.3 minutes

After combined treatment of tubers, sprouted eyes at minitubers were observed on day 6, on day 21 of the experiment, all tubers showed germination from 4 to 8 (81%) eyes.

Example 3

Into a container with an aqueous solution (2 g / l of potassium thiocyanate, 2 g / l of thiourea, 0.02 g / l of indoleacetic acid, 0.02 g / l of gibberelic acid, and 0.02 g / l of succinic acid, a melanin-like substance isolated from a culture fluid of Nadsoniella nigra yeast fermentation, at a temperature of 20 ° C, were placed 16 minicubers of Red Scarlett potatoes, of approximately the same size and weight (18 ± 2 g), obtained from an aeroponic cultivation plant in spring and collected on one day ( 04/04/18), were subjected to ultrasound with a frequency in the range of 22-44 kHz, acoustic density 0.3-1.0 eskoy power W / cm ³ for 0.5 min.

On the 20th day after the combined treatment of the Red Scarlett minitubers, germination of 95% of the total number of eyes was observed (Fig. 1b).

Varying the parameters of the combined stimulation of potato minicubers did not lead to results significantly higher than those presented in Examples 2 and 3 (Fig 1.a), and some of the differences obtained for minicubers of different varieties are obviously due to the characteristics of varietal sensitivity.

Thus, the above information indicates that the presented invention has the claimed properties, and the combination of distinctive features of the described method ensures the achievement of the specified result.

As a result of the analysis of the level of technology for stimulating the growth and development of plants, an analogue, characterized by characteristics identical to all the essential features of the claimed invention, was not found, therefore, the claimed invention meets the condition of "novelty."

An additional search for known solutions showed that the claimed invention does not follow explicitly from the prior art for a specialist, as new conditions are selected that provide stimulation of potato minicubers. Therefore, the claimed invention meets the condition of "inventive step".

For the claimed method, in the form as described in the above claims, there are no obstacles to its implementation in practice using modern technical means. Therefore, the claimed invention meets the condition of "industrial applicability".

The present invention expands the diversity of possibilities, providing the optimal choice of method of stimulation of the minitubers.

Claims (1)

The method of accelerated removal of the dormant period by stimulating awakening and friendly seedlings of freshly harvested potato minitubers, including placing them in an aqueous solution containing potassium thiourea and thiourea of 0.02 g / l, indolylacetic, hiberrelic and succinic acids of 0.02 g / l, and also melanin-like substances from Nadsoniella nigra yeast in an amount of 1.0-3.0 g / l, and characterized by the fact that minicubers in solution are exposed to ultrasound with a frequency of 22-44 kHz, acoustic power density of 0.3-1.0 W / cm ³ for 15-360 s.

Images