RU2215391C1 - Presowing seed treatment method - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves providing thermal treatment of seeds, with following treatment with immunostimulant, such as preparation comprising mixture produced by sequential extracting of Mortierella nantahalensis micromycet biomass with the use of non-polar extractant in above-critical state, water, alkaline, water, acid, water, alkaline, and water; joining first extract with solid residue. EFFECT: wider range of seed treatment means.

Description

 The invention relates to technology for pre-treatment of seeds.

 A known method of presowing treatment of seeds, involving the introduction of an effective amount of an immunostimulant (RU 2075933 C1, 03/27/1997).

 The disadvantage of this method is the low efficiency of suppressing fungal infections of 30-50%.

 A known method of presowing treatment of seeds, providing for their heat treatment (Androsova V.M., Sadkovsky V.T., Use of dry-air heat treatment of winter wheat seeds for disinfection from fungal pathogens. // Materials of the All-Russian Scientific-Production Meeting "Environmentally safe and non-harmful technologies for obtaining crop production ". Part 2. Pushchino: VNIIBZR, 1994, p. 28-29).

 The disadvantage of this method is its low efficiency against fusarium infections, which is about 50%, or a decrease in yield due to a drop in germination and / or germination energy.

 The closest to the proposed achieved result is a method of pre-sowing seed treatment, providing for their heat treatment and post-thermal treatment with an immunostimulant selected from the group comprising alirin C, immunocytophyte and mycofungicide, in an effective amount (Begunov I.I., Condition and prospects of protecting winter wheat from complex diseases. // Actual issues of biological protection of plants. Pushchino: VNIIBZR, 2000, pp. 74-79).

 This method allows to increase the efficiency of destruction of Fusaria while maintaining germination and germination energy.

 The technical result of the invention is the expansion of the arsenal of means for post-thermal treatment of seeds.

 This result is achieved in that in a method for pre-sowing seed treatment, which includes heat treatment and post-thermal treatment with an immunostimulant in an effective amount, according to the invention, a preparation containing a mixture obtained by sequential extraction of biomass of micromycete Mortierella nantahalensis with a non-polar supercritical state is used as an immunostimulant , alkali, water, acid, water, alkali and water, followed by combining the first extract with a solid residue.

 The method is implemented as follows.

 The preparation is prepared by extracting dry biomass of the micromycete Mortierella nantahalensis with a non-polar extractant, for example carbon dioxide or hexane, in a supercritical state. At this stage, the first extract is separated, which is used later in the preparation of the drug. Next, the biomass is sequentially extracted with water, alkali, water, acid, water, alkali and water. The solid residue obtained after completion of all the extraction steps listed above is combined with the first extract. To obtain comparable experimental data, the preparation is prepared using the resulting mixture according to the formulation of blue immunocytophyte tablets as the active substance with the same amount of filler in the form of urea, wetting agent, anti-caking agent and antioxidant.

 Before planting, the seeds are subjected to heat treatment by known methods under the recommended conditions for the corresponding type of heat treatment. Next, a solution of the obtained preparation is prepared in the concentration recommended for immunocytophyte and post-thermal treatment of seeds is carried out with the flow rate of the solution providing the amount of active substance recommended for immunocytophyte.

According to experimental data, the most effective methods of heat treatment of seeds are wet treatment at 52-53 ^o C for 10-13 minutes or at 40 ^o C for 8 hours or dry air treatment at 65-75 ^o C for 7-24 hours. Wet heat treatment, in comparison with dry air, has a slightly greater disinfection efficiency, but causes seed swelling, destruction of their shells and asphyxiation, which reduces germination and germination energy to a greater extent and increases the likelihood of damage by phytopathogens in the soil. The same studies have established that the most heat-resistant are the following phytopathogens in the order of mention: Fusarium culmorum, Fusarium graminearum, Fusarium avenaceum, Fusarium nivale, Alternaria tenuis. Moreover, heat treatment at the upper boundary parameters from the recommended ranges of values leads to the complete death of Alternaria tenuis, and not less than 50% of the mycelium Fusarium culmorum begins to grow after 2 days. At the same time, different seeds have different heat resistance and to varying degrees change the germination and germination energy. For example, dry-air heat treatment at 70 ^o C for 24 hours led to a decrease in the germination of wheat seeds of the variety Skifyanka from 94% to 92%, and germination energy from 91% to 45%. Even with minimal parameters, heat treatment, in particular dry air at 70 ^o C for 7 hours, leads to a decrease in yield, in particular, Yugtin wheat from 76.4 c / ha to 72.1 c / ha; Ophelia varieties from 72.3 c / ha to 70.9 c / ha; Soratnitsa varieties from 79.2 kg / ha to 77.9 kg / ha; Novokubanka varieties from 75.4 c / ha to 66.1 c / ha. Post-thermal treatment of the same wheat varieties with immunocytophyte or a biomass preparation of micromycete Mortierella nantahalensis at a dosage of 2 blue tablets per 1 kg of seeds recommended for immunocytophyte in both cases led to the restoration of germination, germination energy and yield to the initial values for uninfected grain that did not undergo heat treatment the difference within the experimental error. At the same time, when selecting seeds of winter wheat affected by Fusaria, the following results were obtained on the number of infected grains: for the Skifianka variety, control without treatment 56%, after heat treatment at 70 ^o C for 24 hours 6%, after treatment with immunocytophyte in an effective amount of 31 %, after treatment with a biomass micromycete Mortierella nantahalensis 28% and after the same heat treatment and treatment with immunocytophyte or a biomass micromycete Mortierella nantahalensis 0%; for the variety Soratnitsa, the same indicators had values of 47%, 7%, 32%, 28%, 0% and 0%; and for the variety Spartanka - 49%, 8%, 10%, 10%, 1% and 0%, respectively.

 Thus, the proposed method allows to expand the arsenal of means for post-thermal treatment of seeds.

Claims (1)

 A method of pre-sowing seed treatment, providing for their heat treatment and post-thermal treatment with an immunostimulant in an effective amount, characterized in that a preparation containing an mixture obtained by sequential extraction of biomass of micromycete Mortierella nantahalensis with a non-polar supercritical state, water, alkali is used as an immunostimulant , water, alkali and water, followed by combining the first extract with a solid residue.