RU2630298C1 - Method for obtaining plant growth stimulant - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention represents a method for obtaining a plant growth stimulant, comprising stirring until the complete dissolution of 6-benzylaminopurine, caustic sodium and water, after which the resulting solution is mixed with pre-melted anhydrous lanolin at a temperature of 45-55°C and left until the solution is completely emulsified into lanolin, with the following content of the initial components: 6-benzylaminopurine - 8-10 g, caustic sodium - 1-3 g, water - 20-40 ml, anhydrous lanolin - 980-1,020 g.

EFFECT: invention allows to obtain a growth stimulant having high growth regulating activity.

10 dwg

Description

The invention relates to agriculture, namely to the process of accelerating the growth and development of plants.

A plant growth promoter is known which contains as active ingredients (i) jasmonic acid or jasmonate of the general formula (1), where R1 represents a pentyl or pentenyl group and R2 represents hydrogen or an alkyl group, and (ii) a brassinosteroid represented by the formula, and a liquid carrier, wherein the mass ratio of the brassinosteroid of the formula to jasmonic acid or jasmonate of the formula (1), i.e. (i) :( ii) is in the range 1: 1-1: 5000, and the content of components (i) :( ii) is 0.01-500 ppm and from 0.001 to 1 ppm, respectively total weight of the stimulant composition.

The technical result is the creation of a composition of a plant growth stimulator that has a promoting effect on the growth of root crops, potatoes and taro, cereals, horticultural crops, legumes, leafy vegetable crops, fruit trees, woody plants, flowering plants and industrial crops (patent RU 2145165, IPC A01N 37/42, published on February 10, 2000).

Known growth stimulator of spring wheat, which contains a complex compound of boron and urea in the following ratio, wt. %: complex substance NH2CONH2⋅ [HOB5O5 (OH) 4] 20-54, urea - the rest. The boric acid and urea are mixed at a molar ratio of boric acid: urea 1: (1-4) at a temperature of 110-130 ° C for 0.5-1 hours, followed by granulation of the obtained product (patent RU 2492651, IPC A01N 59/14 , published on September 20, 2013).

The main component of the paste is 6-benzylaminopurine, which is a synthetic analogue of 6-aminopurine, one of the cytokinins, which causes the synthesis of RNA and protein in a sensitive object and is used in the formation of callus cultures. Culture media for propagating and growing plants in vitro are widely known in which 6-benzylaminopurine is used as one of the components of multicomponent culture media (RU 2552174, CN 101869064, RU 2169769, CN 102860258, CN 102577944, CN 101530063, RU 2457669, CN 1631105) . These media are used in small volumes due to the complexity of the composition.

The closest in composition is the Canadian paste KeikiGrow plus, for the cultivation of orchids and other indoor plants. Examples of the manufacture of cytokinin paste based on 6-benzylaminopurine, lanolin and alcohol are given. In all these examples, 6-benzylaminopurin is soluble in pure alcohol, as It is insoluble in water. Information is available on the website: http://www.cactusok.ru/6bap/cytokinin_1.htm, and http://www.bonsaiforum.ru/forum/index.php.howtopic=3185.

The disadvantage of this method of obtaining the specified composition is the complexity of its manufacture.

The objective of the present invention is to develop the simplest method for the manufacture of a preparation having high growth-regulating activity.

The problem is solved in that the method of obtaining a plant growth stimulator includes mixing until complete dissolution of 6-benzylaminopurine, sodium hydroxide and water, after which the resulting solution is mixed with pre-melted anhydrous lanolin at a temperature of 45-55 ° C and left until the solution is completely emulsified into lanolin , with the following contents of the starting components:

6-benzylaminopurine - 8-10 g,

sodium hydroxide - 1-3 g,

water - 20-40 ml,

anhydrous lanolin - 980-1020

The technical result of this method coincides with the task and consists in simplifying the manufacture of a growth stimulator due to the application of the above stages of obtaining a drug having high growth-regulating activity.

An analysis of the patent and scientific and technical literature showed that a method corresponding to all the features of the proposed method was not identified, therefore, the claimed method corresponds to the patentability of the invention “novelty” and “inventive step”.

The influence of the plant stimulant obtained by the claimed method is illustrated by the images:

Photo. 1 - the effect of a plant growth stimulator on the uterine bush of a variegated oleander;

Photo 2 - the effect of plant growth stimulant on magnolia;

Photo 3 - effect of plant growth stimulant on brugmansia;

Photo 4 - the effect of plant growth stimulant on rubbery ficus;

Photo 5 - the effect of plant growth stimulant on pelargonium;

Photo 6 - photo of the experimental pelargonium cuttings before treatment with the growth stimulator begins:

Photo 7 - pelargonium indicating the location of treatment with a growth stimulator;

Photo 8 - pelargonium - 11 days after treatment with a growth stimulator:

Photo 9 - pelargonium - 27 days after treatment with a growth stimulator;

Photo 10 - pelargonium - 33 days after treatment with a growth stimulator.

The active components of the plant growth stimulator are 6-benzylaminopurin, sodium hydroxide and anhydrous lanolin. The invention allows to accelerate the awakening of sleeping buds, to form shoots in the intended place and to accelerate the flowering of plants.

A method of obtaining a plant growth stimulator is that 9 g of 6-benzylaminopurine is mixed with 2 g of sodium hydroxide and 30 ml of water until all components are completely dissolved. The resulting solution is mixed with 1000 g of anhydrous lanolin, having previously dissolved it at a temperature of 50 ° C. The mixture is left for up to two days for emulsification of the solution in lanolin. The finished product is melted and poured into test tubes of 1 g.

The inventive plant growth stimulator differs from the known ones in that 6-benzylaminopurine is dissolved in a sodium hydroxide solution and can be obtained industrially.

The presented samples show the influence of a plant growth stimulator. The following samples were processed:

The uterine bush of the variegated oleander (photo 1), when pruned, produces one or two replacement shoots.

Magnolia (photo 2), the awakening of a sleeping kidney occurs within 2 weeks.

Brugmansia (photo 3) belongs to the nightshade family, and also reacted very actively to the plant growth stimulator. It was processed in one place, and several neighboring kidneys started to grow.

Ficus rubbery (photo 4): the third week went after treatment with a plant growth stimulator.

The result of exposure to growth stimulator on pelargonium is visible in photo 5-10.

Diary of the results of the treatment of pelargonium with a plant growth stimulator.

Beginning of processing - November 7th.

There is a rooted stem of pelargonium with a well-developed root system. Two side shoots are well developed.

One lateral shoot kidney is in sleep mode. This is where the stimulant of growth was produced.

1) A preliminary injection is made several times with a 2-3 mm sterile medical needle in the sinus of the leaf.

2) A growth stimulator the size of a third of a match head is applied to this place.

The handle is placed on a rack with a 10-hour backlight. The temperature is 23-26 degrees. Humidity 43-47%.

On the 11th day after treatment, the kidney awakens.

On the 27th day after treatment, an increase in the lateral shoot occurs.

On the 33rd day after treatment, the shoot took shape. Overall cuttings

The above samples confirm the effectiveness of the plant growth stimulant obtained by the proposed method, which does not require large material costs. The problem is solved.

A method of obtaining a plant growth stimulator can be carried out using known materials and technologies using modern equipment.

Claims (5)

A method of obtaining a plant growth stimulator includes stirring until complete dissolution of 6-benzylaminopurine, sodium hydroxide and water, after which the resulting solution is mixed with pre-melted anhydrous lanolin at a temperature of 45-55 ° C and left until the solution is completely emulsified in lanolin, with the following content of the starting components : 6-benzylaminopurine - 8-10 g, sodium hydroxide - 1-3 g, water - 20-40 ml, anhydrous lanolin - 980-1020

Images