RU2547547C1 - Method of interruption of period of natural dormancy of potato tubers and acceleration of their germination - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of acceleration of germination of potato tubers comprises biologically active influence on the tubers. The said influence is carried out by treating the potato tubers with an aqueous solution containing hydrogen peroxide. Biologically active influence on potato tubers is carried out directly after harvesting. The potato tubers are first treated with an aqueous solution of hydrogen peroxide in a concentration of 1·10^-4-1·10^-3 M (3.4·10^-3-3.4·10^-2 g/l), and dried. After drying the tubers are treated with 5-10% aqueous solution of oxidised starch-containing product obtained by oxidation of waste of corn production in the potassium alkaline solution in the presence of the catalyst having pH of 7.0-7.5.

EFFECT: invention enables to interrupt the period of natural dormancy of potato tubers and to accelerate significantly their germination, which creates the possibility of multiple harvests per year.

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Description

The invention relates to agriculture, and in particular to methods of interrupting the period of natural dormancy of potato tubers and accelerating their germination.

Potato (Solanum tuberosum) is one of the most common agricultural crops, has increasing importance as a valuable industrial crop (source of starch, alcohol, etc.) and is an indispensable food crop in calories. A lot of research is devoted to the study of the biological characteristics of potatoes. Currently, it is relevant to study the physiological life cycles of potatoes with the aim of developing methods to interrupt the period of natural rest of tubers, stimulate their germination and activate the awakening of the largest number of eyes to obtain several high yields in one year.

For biologically active action on potato tubers, methods of stimulation of their germination that are different in nature are used. Potatoes are processed either by physical methods: they act on the tubers with a magnetic field (RU 2058698, A01C 1/00, 04/27/1996), electric (SU 1134127, A01C 1/00, 01/15/1985), electromagnetic (RU 2088066, A01C 1/00, 08/27/1997; RU 2175826, A01C 1/00, 11/20/2001), gas-discharge plasma (RU 2293456, A01C 1/00, 02/20/2007), or treat tubers with chemical compounds, for example, RU 2101277, C07C 251/24, C07D 213/53, A01N 43/40, 01/10/1998; US 4119667, A01N 35/08, A01N 35/00, C07C 119/00, 10/10/1978. In all these known methods, the corresponding processing of potatoes is carried out immediately before planting, when the period of deep dormancy of the tubers has already ended.

Closest to the proposed invention is a method of accelerating the germination of potato tubers described in patent RU 2172099, A01G 1/00, A01N 59/00, A01C 1/00, 08/20/2001 (prototype). The authors propose using an aqueous solution containing hydrogen peroxide (PV) as a means of stimulating the germination of potatoes, namely, to use a 10% aqueous solution of sodium carbonate peroxysolvate (Na ₂ CO ₃ · 1,5H ₂ O ₂ ), mixed to thicken with a 2% aqueous solution of methylcellulose.

For the first time, diluted aqueous solutions of hydrogen peroxide for seed treatment before sowing to increase germination and germination rate were proposed by Müller in 1933 for wheat seeds (US Pat. US 1927988, 09/26/33, US Pat. 1962996, 06/12/34), about which reported in the book: W. Shamb, C. Setterfield, R. Wentworth, "Hydrogen Peroxide", M., IL, 1958, S. 515-516. Then there were studies on other plants (Korzinnikov Yu.S. Ecologically safe plant protection products. Vestnik RAAS. 1997, No. 2, pp. 44-47; Apasheva L.M., Komissrov G.G. Effect of hydrogen peroxide on plant development. Izv. RAS, ser. Biol. 1996, No. 5, pp. 621-623). Unlike most known plant growth stimulants, which are toxic, unsafe to use and adversely affect the environment, PV is an environmentally friendly and non-toxic highly effective growth stimulator.

The disadvantages of the prototype method is the high content of PV (theoretically up to 32.5 g / l) in the aqueous solution used for processing potatoes, and most importantly, the method cannot be used to interrupt the period of natural dormancy of potato tubers - as in other known methods of accelerating the germination of potato tubers , processing of potatoes by the prototype method is carried out immediately before planting after the end of the period of natural rest of tubers, which excludes the possibility of obtaining several crops in one year.

The objective of the invention is to develop such a method of accelerating the germination of potato tubers, which will simultaneously interrupt the period of natural dormancy of potato tubers, which will allow to obtain several crops in one year.

The solution to this problem is achieved by the proposed method of accelerating the germination of potato tubers by biologically active exposure, including treating the potato with an aqueous solution containing hydrogen peroxide, in which the biologically active effect on the potato tubers is carried out immediately after harvesting, which interrupts the period of natural rest of potato tubers and accelerates them germination, for which the potato tubers are first treated with an aqueous solution of hydrogen peroxide at the end tration of 1 × 10 ^-4 -1 × 10 ^-3 M (3.4 × 10 ^-3 -3.4 × 10 ^-2 g / l), dried and then treated with 5.10% aqueous solution of oxidized starch product obtained by oxidizing corn wastes in a potassium alkaline solution in the presence of a catalyst having a pH of 7.0-7.5.

The proposed method uses a sequential two-stage treatment of potato tubers with aqueous solutions of two biologically active substances - first with an aqueous solution of PV followed by drying, then with an aqueous solution of an oxidized starch-containing product - a potassium form of oxidized corn starch (OCC).

PV, as mentioned above, is an environmentally friendly and non-toxic highly effective growth promoter, OCC is also non-toxic and environmentally friendly, easily decomposes in the soil to compounds useful for plants, in addition to biological activity, protects tubers from damage, as it has excellent adhesive properties and high adhesion to the surface of tubers. The claimed method uses a 5-10% aqueous solution of OCC, which is prepared by diluting an aqueous solution of the initial water-soluble product obtained by oxidizing starch-containing corn raw materials with oxygen or air in a potassium hydroxide solution in the presence of a catalyst according to the known method described in patent RU 2017750, C08B 30 / 18, C09J 103/02, 08/15/1994.

The proposed method was tested on two varieties of potatoes: “Luck” (variety obtained at VNIIKH, early ripe, resistant to typical viral diseases) and “Courage” (bred in the Netherlands, medium early, resistant to viral diseases, drought resistant). For the experiment, tubers calibrated by a transverse diameter of 30–40 mm were selected. Matured healthy tubers after digging from the soil were washed with water and dried. The experimental samples were treated with an aqueous solution of PV at a concentration of 1 · 10 ^-4 -1 · 10 ^-3 M (3.4 · 10 ^-3 -3.4 · 10 ^-2 g / l), dried and then treated with 5-10% - fresh (50-100 g / l) aqueous solution of OCC with a pH of 7.0-7.5. The control was potato tubers treated only with water. Next, the experimental and control samples were laid in dark chambers with a temperature of 8-10 ° C.

Testing was carried out 30-70 days after the start of the experiment. We estimated the number of sprouted tubers, tuber turgor, the preservation of the skin, counted the number of sprouted buds in the eyes, took into account the size of the sprouts - future productive shoots. In addition, the change in the time of spin-spin relaxation of T ₂ intracellular water was studied in the control and experimental samples by means of PMR and the quantitative ratio of free and bound intracellular water was determined. For PMR studies, samples weighing 0.4 g were cut from the center of the tuber and placed in a closed ampoule with a diameter of 10 mm. The spin-spin relaxation time T ₂ was measured on a MINISPEK PC 120 instrument with an operating proton frequency of 20 MHz.

Example 1

Udacha potato tubers were treated with an aqueous solution of PV at a concentration of 1 · 10 ^-3 M (3.4 · 10 ^-2 g / l), dried and then treated with a 7% (70 g / l) aqueous solution of OCC with pH 7.0. The treated and control tubers were placed in a dark chamber with a temperature of + 8 ° C. On the 30th day of incubation, we counted the number of sprouted potato tubers with eyes and kidneys 1 mm in size. In the control of sprouted tubers was 5%, and in the experiment - 51%.

By means of PMR, the spin-spin relaxation time T ₂ in the control and experimental samples was measured and the percentage ratio of the amounts of free and bound intracellular water was determined. In the experimental samples, a decrease in the spin-spin relaxation time T ₂ by 33% with respect to the control was observed. This indicates a decrease in the proton mobility of intracellular water, i.e., an increase in the interaction of intracellular water with non-aqueous cellular structures, as a result, the amount of free intracellular water decreases, which is typical for tubers that have left the period of natural rest.

Example 2 (control).

Potato tubers of the Udacha variety were treated analogously to Example 1, but PV was used at a concentration of 1 · 10 ^-5 M (3.4 · 10 ^-4 g / l). On the 30th day of incubation, the number of sprouted tubers with hatching eyes was counted. In the control of sprouted tubers was 5%, and in the experiment - 14%.

Example 3 (control).

Potato tubers of the Udacha variety were treated analogously to Example 1, but PV was used at a concentration of 1 · 10 ^-2 M (3.4 · 10 ^-1 g / l). On the 30th day of incubation, the number of sprouted tubers with hatching eyes was counted. In the control of sprouted tubers was 5%, and in the experiment - 7%.

In experimental samples by the method of PMR, a decrease in the spin-spin relaxation time T ₂ by 5% was observed with respect to the control.

Example 4

Potato tubers of the Udacha variety were processed analogously to Example 1 and placed in a dark chamber with a temperature of + 8 ° C. On the 50th day of incubation, the number of sprouted tubers with a sprout larger than 2 mm was recorded. In the control samples of such tubers was 13%, in the experiment - 45%.

In the experimental samples by PMR, a decrease in the spin-spin relaxation time T ₂ by 37% was observed with respect to the control.

Example 5 (control).

Potato tubers of the Udacha variety were treated analogously to Example 1, but an aqueous solution of OKC with a pH of 7.0 was used at a concentration of 12% (120 g / l). On the 50th day of incubation, the number of sprouted tubers with a sprout larger than 2 mm was recorded. In the control samples of such tubers was 12%, in the experiment - 46%.

Example 6 (control).

Potato tubers of the Udacha variety were treated analogously to Example 1, but an aqueous OKC solution with a pH of 7.0 was used at a concentration of 4% (40 g / l). On the 50th day of incubation, the number of sprouted tubers with a sprout larger than 2 mm was recorded. In the control samples of such tubers was 13%, in the experiment - 26%.

Example 7

Udacha potato tubers were treated with an aqueous solution of PV at a concentration of 1 · 10 ^-4 M (3.4 · 10 ^-3 g / l), dried and then treated with a 5% (50 g / l) aqueous solution of OCC with pH 7.5. The treated and control tubers were placed in a dark chamber with a temperature of + 10 ° C. Sprouted tubers with sprouts with a size of 20 mm were recorded on the 69th day of incubation; they were not found in the control; 37% of sprouted tubers with sprouts of about 20 mm were determined in the experiment.

Example 8

Potato tubers of the Kurazh variety were treated with an aqueous solution of PV at a concentration of 1 · 10 ^-4 M (3.4 · 10 ^-3 g / l). OCC was used at a concentration of 100 g / l (10%), pH 7.0. On the 70th day of incubation in the control, 20% of sprouted tubers were determined, each having a sprout of 1-2 mm in size. In the experiment, 87% of tubers sprouted; the number of tubers having 1-2 sprouts larger than 2 mm was 65%.

The study of the influence of the concentration of PV from 1 · 10 ^-5 to 1 · 10 ^-2 mol / l on the effectiveness of interrupting the dormancy period of potato tubers and stimulation of their germination showed (see control examples 2 and 3) that the concentration of PV is 1 · 10 ^-5 M not effective enough, and a concentration of 1 · 10 ^-2 M already inhibits the germination of tubers.

A study of the effect of OCC concentration beyond the stated interval showed (control examples 5 and 6) that the use of OCC at a concentration above 10% does not increase the efficiency of the proposed method, and a concentration below 5% is less effective, which is apparently due to uneven Coating the surface of tubers with OCC film. The use of an acidic aqueous solution of OCC - with pH <7 - adversely affects the development of tender sprouts in the eyes of the tuber until they die, and raising the pH to 8 already inhibits the germination of potato tubers.

Thus, from the above examples it is seen that the proposed method allows you to interrupt the period of natural dormancy of potato tubers and significantly accelerate their germination, which makes it possible to obtain several crops in one year.

Claims (1)

A method of accelerating the germination of potato tubers, including a biologically active effect on them by treating the potato tubers with an aqueous solution containing hydrogen peroxide, characterized in that the biologically active effect on the potato tubers is carried out immediately after harvesting to ensure interruption of the period of natural rest of potato tubers and their accelerated germination while the potato tubers are first treated with an aqueous solution of hydrogen peroxide in a concentration of 1 · 10 ^-4 -1 · 10 ^-3 M (3.4 · 10 ^-3 -3.4 · 10 ^-2 g / l) and dried, after which they are treated with a 5-10% aqueous solution of an oxidized starch-containing product obtained by oxidizing corn wastes in a potassium alkaline solution in the presence of a catalyst having a pH of 7.0-7.5.