UA119213U - METHOD OF IMPROVEMENT OF STRESS RESISTANCE AND PRODUCTIVITY OF AGRICULTURAL CULTURES - Google Patents

Abstract

Method of increasing stress and productivity of crops, including pre-sowing treatment of seeds and spraying of vegetative plants with a solution of the drug on the basis of Proline, and the composition is used as a preparation, the only active substance of which is L-Proline, and the rate of the drug depends on one treatment treatment L -proline and is respectively from 20 g per ton of seeds and 20 g per hectare of cultivated area for L-proline 50% purification rate up to 2 g per ton of seeds and 0.5 g per hectare of cultivation loschi for L-proline (99.5% purity.

Description

A useful model belongs to the field of agriculture, in particular to crop production, namely to methods of increasing stress resistance and productivity of agricultural crops.

Natural factors strongly influence the level of plant productivity. Fluctuations in high and low temperatures, drought, waterlogging, high or low acidity of the soil solution, the negative effect of pesticides and agrochemicals are stress factors for plants that can significantly inhibit their growth, development, and reduce the yield and quality of agricultural crops. The internal manifestation of "anxiety" stress on cultures is accompanied by a decrease in metabolic (exchange) processes, the dominance of decay over synthesis, degradation of the protein-synthetic apparatus, aging of cultures and huge expenditure of their energy to restore metabolism, which ultimately leads to a decrease in productivity. Depending on which phase of growth and development agricultural crops are exposed to adverse environmental factors, their yield can decrease by 5 to 70 95.

Taking into account the duration and complexity of increasing the resistance of agricultural crops to adverse environmental factors by selective means, the search for biologically active compounds capable of increasing the resistance of plants to adverse environmental conditions is a rather promising direction in the system of measures for both increasing the productivity of agricultural crops and expanding the area of their processing.

It is known that in the process of adaptation of plants to adverse environmental conditions, an important role belongs to amino acids, in particular proline, the content of which increases many times under conditions of stress. Accumulation of a significant amount of proline in conditions of water stress contributes to the effective absorption of water by plants and prevents their dehydration. Proline stabilizes the structure of proteins and their synthesis. But at the same time the growth of plants slows down.

Scientific studies have proven that when using preparations based on amino acids, in particular proline, during the preparation of seeds for sowing and during the growing season, plants under conditions of stress do not need to spend energy on their synthesis from macro- and microelements, they receive them already in a ready form .

A well-known method of protecting plants from drought (Russian patent No. 2239299, IPC (2000) AOS 1/00, publ. 10.11.2004), which consists in alternating soaking three times over three days

From seeds in aqueous solutions of amino acids proline, sucrose, glucose with further drying by artificial ventilation with heated air.

The disadvantage of this method is its complexity and low efficiency in extreme weather conditions.

There is a known method of protecting plants from high-temperature stress, which includes pre-sowing soaking of seeds in a solution of the amino acid - proline and vegetative treatment of plants with a complex solution of proline, sucrose and distilled water (Russian patent Mo 2253223, IPC (2000) AOTS 13/00, AO1C 1/00 , published on June 10, 2005.

The disadvantage of this method is that it is not very effective in conditions of severe stress, for example, with simultaneous water and salt stress, due to the low concentration of proline in the composition.

There is a known method of obtaining plants with improved growth in conditions of limiting the level of nitrogen

Ipatent of Russia Mo 2333245, IPC (2006) С12М 15/82, publ. 10.09.2008). The method involves the introduction of the SHON or EBABRO gene into the plant and additional spraying of plant leaves with proline. This method is rather complicated and requires specialists with a narrow specialization. In addition, it is not clear from the description of the patent how such plants will behave in other stressful conditions.

The closest to the claimed method is the method of processing plants and seeds, described in the patent for the invention of Ukraine Mo 90021 C2, IPC (2006.01) AOTM 43/36, AOTM 25/02,

A0O1S 1/06, publ. 25.03.2010. The method includes treatment of the target plant with a composition containing a mixture of I and O stereoisomers of pyroglutamate in the ratio of I to O in the range of 80:20 to approximately 97:3 and a carrier medium for the specified I and O stereoisomers of pyroglutamate.

Proline (pyrrolidine-a-carboxylic acid or pyroglutamate) is a heterocyclic amino acid (more precisely, an imino acid), exists in two optically isomeric forms - I and 0. All amino acids that are part of plant proteins belong to I isomers. Known synthetic amino acids are a mixture of I and O-isomers. Y-forms are well absorbed by plants and are easily included in various metabolic processes, while O-forms are not absorbed by plants and sometimes even inhibit metabolic processes. Commercially available is the form of I-proline, which is synthesized by bacterial fermentation.

The task of a useful model is to develop a sufficiently effective and affordable way to increase the level of stress resistance of plants to the action of various adverse natural conditions, in particular extreme ones, to accelerate growth and increase productivity.

The task is solved by the fact that in the method of increasing the stress resistance and productivity of agricultural crops, which includes pre-sowing treatment of seeds and spraying of vegetative plants with a solution of the drug based on proline, according to the proposed method, a composition is used, the only active substance of which is I-proline, and the rate of consumption of the drug for one treatment depends on the degree of purification - proline and ranges, respectively, from 20 g per ton of seeds and 20 g per hectare of cultivated area for 1!- proline 5095 degree of purification to 2 g per ton of seeds and 0.5 g per hectare of cultivated area for I - proline 299.5 95 degree cleaning.

In accordance with this useful model, preparations based on I-proline (5)-pyrrolidine-2-carboxylic acid, which has the chemical formula С5НОМО2) with a degree of purification from 50 to 299.5 95 can be dissolved in water or in ready-made liquid fertilizer or in water with added fertilizers and/or herbicides and/or fungicides and/or insecticides. The concentration of the solution based on purified I-proline for the treatment of seeds and vegetative plants depends on the task - shortening the time of seed germination, increasing plant productivity, restoring weakened plants in the spring, preparing winter crops for winter, protecting against various types of stress caused by various natural factors, etc. . To increase the resistance of plants to adverse factors, a preparation based on purified I-proline should, first of all, be added to a solution of disinfectants and trace elements during seed preparation. This technology reliably protects plants from stress. Studies have shown that the use of 5 g/g of a preparation based on I - proline together with insecticides ensured the appearance of more than 250 plants on the street in comparison with the use of a control solution, which only contained a disinfectant. In addition, preparations based on I-proline can be added to known compositions based on polymers or clays intended for the production of seed coatings and can be used to protect seeds from damage during storage and at the planting stages, from adverse natural conditions after planting , to protect seeds from insects, fungi and the like. But mainly the preparation based on I-proline is used for spraying the leaves of plants. So, for example, a direct relationship between the increase in proline content in plants with the use of a preparation based on I-proline and cold resistance was found. Spraying winter wheat and rape with a preparation based on purified I-proline led to an increase

From the content of sugar and dry matter in plants and thereby increased plant resistance from 20 to 35 percent, and the average yield of spring rapeseed increased by 375 kg/ha.

Examples of plants and crops that can be processed in accordance with this useful model include: monocotyledonous plants, such as sorghum, rice, wheat, corn, barley, oats, and grass layer, ie, grasses; sunflowers; dicots, such as roses and fruit trees, including apple, cherry and peach; climbing plants, including grapes and the like, cruciferous (for example, rapeseed, broccoli, cauliflower, Brussels sprouts, fodder cabbage, cow cabbage, radish and garden cabbage); nightshade (potato, tomato and pepper, including green pepper, hot pepper (pod) and the like); sugar beet, legumes, for example, soybeans, common bush beans and the like.

Example 1.

Individual batches of wheat seedlings were treated once with I-proline solutions with different degrees of purification. The leaves were counted in the direction of the intensity of plant growth during the next 28 days.

Table 1

Degree of purification

Mo of the experiment I -proline g/ha

Чо 81111161 І11111111111lo ninn"n"nintueshdshepb iiiiIyIIIITLTTVII LITHUANIA now: others 61118117 nn"sh"nshishiyininninnshi now ny v8111111Г1111961111111 11111115 SS 81111114: TKO Gl POLO: pi

Continuation of table 1 ниын""н:6ЧЕжЯАЯСОИВВВВВТО OTHER OTHERS BEER I 111111 Control /-:./:. | 7777777/701117777711111171Ї111111111101

Example 2.

Wheat seedlings from example 1 were also monitored for the number of shoots from the flag leaf that appeared on the 28th day after treatment. This indicator is related to the grain yield potential. Table 2 contains the number of shoots from the flag leaf formed in 28 days for the same experiments using 1-a proline

Table 2 7...r.ryuryuryur r. Medoslydu | 1|213|4|5|617|819 (10111 12113, k

Example 3.

Barley seedlings were treated with a preparation based on I-proline with a degree of purification from 50 95 to 299.5 95. Leaves were counted in the direction of plant growth intensity during the next 28 days.

Таблиця З 8111111601111111117111111111111ло ниин:"неИСВІОВОВИЛЛЛОВОСОІВІІВВВВВВТВОВВВВВВОВОВООВОЛВЛОВЛВОООООЛООТ ЛЯ 618011111111Ї11111111181 61190117 нннн"н"І:ШеІІШЮГшнн: нини жи 8г111119611111Ї11111111115 81119711 11111114 тог111198111111Ї11111111131 91111112 1111111 Контроль Ї777777777777171171011111111111111Ї111111111101

The study of the results given in examples 1-3 shows that the highest plant productivity was achieved when using I-proline with a degree of purification from 50 95 to »99.5 95 (in terms of dry matter: from 20 g/ ha 0.5 g / ha).

Example.

Three-year-old tomato seeds were treated with aerated water (control) and I-c-proline solutions with a degree of purification from 50 95 to 299.5 95. The seeds were soaked (soaked) for four hours in the appropriate liquid and then distributed on paper for germination in a standard plant tray (at I-25 "С in the dark), while the pH of the solution was equal to 6.0-6.5.

Table 4 o o11115601111111111111111111111117169сСс21С now and then: write 81160112

Continuation of Table 4 Pl: And Pt Ponk on Mon: Suo: Soup 8 111711851111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111 Inn write n: 0011111 Control/.:/:.Д/З/|| 7777777777717011717171717171717171711111171Ї11171717171717171716271

Thus, the highest productivity of agricultural crops can be achieved under the condition of optimizing their growth and development at the main stages of the formation of yield elements and increasing the level of their stress resistance against the influence of negative natural factors.

Claims (2)

USEFUL MODEL FORMULA 1. A method of increasing the stress resistance and productivity of agricultural crops, which includes pre-sowing treatment of seeds and spraying of vegetative plants with a solution of a proline-based drug, which differs in that a composition is used as the drug, the only active substance of which is I-proline, and the rate of consumption of the drug per one processing depends on the degree of purification of I-proline and is, respectively, from 20 g per ton of seeds and 20 g per hectare of cultivated area for I-proline 50 95 degree of purification to 2 g per ton of seeds and 0.5 g per hectare of cultivated area for I- proline 299.5 95, degree of purification. 2. The method according to claim 1, which differs in that the preparation of I-proline is dissolved in water or in ready-made liquid fertilizer or in water with the addition of fertilizers and/or herbicides, and/or fungicides, and/or insecticides.