RU2196409C2 - Method for increasing resistance to soil salinization in rice plants - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method includes a preseeding treatment of seeds with a salt- protector solution based upon a triple copolymer of acrylic acid, its amide and triacryloilhexahydro-1,3,5-triazine (SPAK) at the following ratio of components, wt.%: SPAK, 0.0001-0.005; water, the balance. Moreover, the seeds are treated by the method of a slurry seed disinfection at 10 l/t. The method enables to increase crop yield at the background of chloride-type soil salinization. EFFECT: higher efficiency. 2 tbl

Description

 The invention relates to the field of agriculture, specifically to a method of increasing the resistance of rice plants to salinization.

 A heterocentric triple copolymer of acrylic acid, its amide and triacryloylhexahydro-1,3,5-triazine (SPAC) is known as an antistatic agent (see L.V. Novitskaya, V.N. Zaplychny, L.N. Skripnichenko, G.G. Latysheva, Z. I. Sosinovich, G. M. Pogosyan, V. A. Soldatov, Antistatic Composition Including Hexahydrotriazine-Containing Copolymer (Vesci AN BSSR, 1989, 5, p. 115-117). The use of this copolymer as a salt protector to increase the resistance of rice plants to salinization is unknown.

There is also a method of producing salt-resistant forms of sunflower using pre-soaking of sunflower seeds in water for 16-20 hours, followed by seed treatment with a solution of N-nitrosomethylurea at a concentration of 0.008-0.12% at 20-25 ^o C for 6-12 hours (cm Yu.D. Beletsky, EK Razoriteleva, L. I. Sizova, Method for the production of salt-tolerant forms of sunflower, A. S. 1576063 (USSR); M.cl. 5 A 01 H 1/06, Bull. 1988, 25 - prototype).

 The disadvantages of using this method are the need for prolonged preliminary soaking of seeds, the use of toxic, mutagenic and carcinogenic N-nitrosomethylurea for seed treatment, as well as a very slight increase in the salt resistance of other crops, such as rice, and the inability to increase photosynthesis activity, length and weight of roots and seedlings, panicle mass and rice yield when growing it in soil salted with sodium chloride (according to the authors).

 The technical solution to the problem of increasing seedling length, root length and mass, photosynthesis productivity, grain weight in a panicle and rice yield when grown against a background of chloride salinization is to use an agent that eliminates the need for prolonged preliminary soaking of seeds in water, non-toxic, not mutagenic and carcinogenic, with a more active salt-protective action and capable of increasing the activity of photosynthesis.

 The objective is achieved in that in a method of increasing the resistance of rice plants to salinization to increase the length of seedlings, length and weight of roots, grain mass in a panicle, grain productivity, as well as to increase the photosynthesis activity when growing rice plants against the background of chloride salinity, a method based on pre-sowing treatment of rice seeds with a tool based on a triple copolymer of acrylic acid, its amide and triacryloylhexahydro-1,3,5-triazine (SPAC) at a concentration of 0.0001-0.005 wt.% at a rate of consumption of funds on the presow the clear treatment of 10 l / t of seeds.

 The novelty of the proposed proposal is seen in the fact that the use of SPAC allows to increase the length of seedlings, the length and mass of roots, the mass of grain in a panicle and grain productivity, as well as increase the photosynthesis activity of rice plants when growing them against the background of chloride salinity; exclude prolonged preliminary soaking of seeds in water, does not have toxicity, mutagenic and carcinogenic effects and with a stronger salt-protective effect.

 In this case, SPACs are prepared and purified by radical chain copolymerization in solution, in water of acrylic acid, its amide and triacryloylhexahydro-1,3,5-triazine at a concentration of the latter below the crosslinking threshold according to the known method (see L.V. Novitskaya, V. N. Zaplichny, LN Skripnichenko, GG Latysheva, ZI Sosinovich, GM Pogosyan, VS Soldatov Antistatic composition including hexahydrotriazine-containing copolymer. - Vesci AN BSSR, 1989, 5, p. 115-117). For comparison, use the commercial drug N-nitrosomethylurea brand "hch" in a known concentration of 0.12 wt.%. Based on SPAC and N-nitrosomethylurea, aqueous solutions of presowing seed preparations are prepared. Moreover, in the case of the known method and preparation of N-nitrosomethylurea (prototype), the test seeds are subjected to preliminary swelling in water for 16 hours, whereas in the case of the proposed method and SPAC, this operation is excluded.

 As the object of study, we chose a grain crop grown under flooding conditions - rice of the "Spalchik" variety. For control, seeds soaked in water were used. Specific examples of execution are presented below.

Example 1. Prepared for the experiment, rice seeds in an amount of 240 pcs. placed in a Petri dish, pour 62.8 microliters (10 l / t of seeds) of water, mix thoroughly until completely wetted and dried at 20-25 ^o C for 0.5 h. Then, for a laboratory experiment, the seeds are sown in standard soil-filled the size of the seedling (60 seeds / seedling in three replicates) and grown according to the generally accepted method. For the vegetation experiment, seeds are sown in vegetation vessels filled with soil of standard sizes (20 seeds / vessel in triplicate) and grown according to the generally accepted method.

 Example 2. The preparation and cultivation of rice seeds is carried out under conditions similar to those in example 1 with the only difference that the seeds are sown in soil containing specially applied sodium chloride in an amount of 0.2 wt.% (2 g per 998 g of soil).

Example 3. Prepared for the experiment, rice seeds in an amount of 240 pcs. placed in a Petri dish, pour 62.8 microliters (10 l / t of seeds) of an aqueous solution of SPAC concentration of 0.01 wt.%, mix thoroughly until completely wetted and dried at 20-25 ^o C for 0.5 h. Next, the seeds seeded and grown in saline (0.2 wt.% sodium chloride) soil under conditions similar to example 2.

Other examples (4-9) and experimental results are presented in table. 1-2. Moreover, in examples 4-9, rice seeds are grown in saline (0.2 wt.% NaCl) soil, and in example 9, the seeds are subjected to preliminary swelling in water (16 h at 20 ^o C) and pre-sowing treatment with an aqueous solution of N-nitrosomethylurea ( 0.12 wt.%).

 The length of the seedlings, the length and weight of the roots of rice plants is determined on the 10th day from the results of laboratory experiments according to the generally accepted method.

 The value of the second maximum (m) of the slow-fluorescence induction curve (IRF), as an indicator of the activity of the photosynthesis process, is determined from the results of the growing experiment for the flag leaf in the flowering phase according to the well-known Tretyakov method (see GI Tretyakov. Physiological studies of rice salt tolerance. Diss. Candidate of Biological Sciences, Tbilisi, 1983.-186 p.).

 The parameters of the crop structure (mass of grain in a panicle, mass of 1000 grains and productivity) are determined by achieving full ripeness in the growing experiment.

 The data obtained as a result of calculation and averaging of three replicates in each example are mathematically reliable and are summarized in table. 1 and 2.

 As can be seen from the data table. 1 and 2, the application of the proposed method for increasing the salt resistance of rice (examples 1-9) provides, in comparison with the control, a pronounced increase in the resistance of rice to salinity. So, from a comparison of examples 1 and 2, it can be seen that in the absence of presowing treatment of SPAC seeds, rice cultivation under conditions of chloride salinity leads to a sharp (17-30% compared with control) decline in all vital indicators of the vegetation process and productivity. Pre-sowing treatment of rice seeds according to the proposed method with an aqueous solution of SPAC in the optimal concentration (0.0001-0.005 wt.%) Provides, in comparison with the control, an increase in the length of seedlings and roots by 8.6-13.9 and 36.2-60.8 %, respectively (134.9-141.5 mm and 94.5-111.6 mm instead of 124.2 and 69.4 mm, respectively), while treatment with N-nitrosomethylurea increases these parameters only by 4.6 and 11 , 5%, respectively.

 The increase in the mass of seedlings and roots during the treatment of SPAC seeds in comparison with the control occurred by 31.5-54.6 and 13.3-42.2%, respectively (42.6-50.1 and 39.2-49.2 mg instead 34.2 and 34.6 mg, respectively), while treatment with N-nitrosomethylurea increases these parameters only by 7.7 and 5.5%, respectively.

The value of the second maximum (m ₂ ) IR ZF in examples 4-7 (treatment of seeds SPAC in optimal concentration) is 2.5-6.6% higher than that of the control (24.8-25.8 rel. Units instead of 24, 2 rel. Units, respectively) while treatment with N-nitrosomethylurea does not increase this indicator at all (example 9).

 The mass of grain in one panicle and grain yield in the proposed method, when presowing the processing of rice grain SPAC in the optimal concentration (examples 4-7), increases in comparison with the control by 26-63.1 and 45.6-58.2%, respectively (0, 82-1.06 and 9.13-9.92 g instead of 0.65 and 6.27 g, respectively) while seed treatment with N-nitrosomethylurea only increases the weight of the grain in the panicle by 7.7% compared to the control , and the yield indicator is even negative in comparison with the control.

 Thus, the application of the proposed method to increase the resistance of rice plants to salinization by pre-sowing treatment of rice seeds with SPAC solutions allows to increase the length and mass of seedlings and roots, to intensify photosynthesis processes and increase the productivity of rice plants when growing them under chloride salinity, eliminating the need for preliminary soaking of seeds in water and use for presowing treatment of mutagenic and carcinogenic N-nitrosomethylurea.

Claims (1)

A method of increasing the resistance of rice plants to salinization, including pre-sowing seed treatment, characterized in that a means based on a triple copolymer of acrylic acid, its amide and triacryloylhexahydro-1,3,5-triazine (SPAC) is used as a salt protector in the following ratio of ingredients, wt . %:
SPAC - 0.0001-0.005
Water - Else
and the seeds are treated by semi-dry dressing at the rate of 10 l / t of seeds.

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