RU2758599C1 - Method for stimulating growth and development of spring rapeseed seeds - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. The invention is a method for preparing spring rapeseed seeds for sowing with a magnetic field gradient with etching with the fungicide “Phytosporin-M”. Mineral fertilizers N₁₂₀P₉₀K₉₀ are applied for cultivation. Before sowing rapeseed, 8-10 cm is cultivated and nitrogen N₆₈ is introduced once during the vegetation of plants.

EFFECT: method allows increasing the sowing qualities of rape seeds.

4 cl, 3 dwg, 3 tbl, 1 ex

Description

The invention relates to agriculture in the field of plant growing, in particular to methods of pre-sowing treatment of seeds of spring rape both with a gradient magnetic field and when growing plants with plant growth stimulants.

At present, the magnetic field (MF) is one of the leading ecological factors of the plant habitat, influencing the most diverse physiological and biochemical processes.

In the works of R.G. Krasnoshtein "Pre-sowing irradiation of seeds of some vegetable crops in the conditions of the Leningrad region" (Collection of works of the API. - 1974. - vol. 35. - pp. 87-92) and P.P. Beely "Impact on seeds of a constant magnetic field" (Potatoes and vegetables. - 1977. - No. 4. - pp. 31-32) it was found that the energy of germination and germination of vegetable seeds increased by 6-14%, the growth force by 14-17% under the influence of a gradient magnetic field (GRF). In this case, seedlings in experimental variants appeared 1-2 days earlier than control. Presowing treatment of seeds of grain crops with reduced germination in the GMF with a tension from 0 to 40 energies contributes to an increase in their germination and germination energy up to 15%, and in seeds of high conditions the MP effect is manifested in the form of intensive development of seedlings and an increase in their mass by 28%.

In the work of A.A. Sokolov, D.V. Vinogradov "The ecological state of the natural environment and scientific and practical aspects of modern resource-saving technologies in the agro-industrial complex" (materials of the International scientific-practical conference - Ryazan: FSBEI HE RGATU, 2017. - part the influence with spring crops on the manifestation of magnetobiological effects during seed treatment indicates the content of water in them. So when the seeds of wheat, barley and oats were moistened for 10 hours in water followed by their processing in MP, the intensity of root growth in seedlings decreased, while seeds with low moisture content (2.7%) were practically not suppressed.

However, the widespread use of the biological effects of MF is not limited only to the intensification of the initial growth processes. So, according to S.I. Lebedev "Growth of barley in an ultra-weak magnetic field" (Electronic processing of materials. - 1977. - No. 3, pp. 71-73) and A.S. Sapogov "On the issue of the trigger mechanism of the biological action of the magnetic field" (Dubna. - Publishing house of the Joint Institute for Nuclear Sciences. - 1993. - 190 p.), It is noted that magnetic fields have a triggering effect of many biological and biophysical processes, which ultimately lies in the basis of changes in the value of plant productivity. In grain crops, an increase in plant productivity under the influence of magnetic seed treatment is associated with more intensive development and penetration of roots into the soil. For these reasons, the general and productive tillering of plants increased, and the leaf area increased by 25-35%.

The intensity of photosynthesis in barley increased by 17-22%. Chlorophyll content in corn and peanut seedlings increased. At the same time, plants formed from seeds exposed to MP treatment were more resistant to various kinds of diseases. With regard to the range of concentrations of growth stimulants, it is usually narrow and specific for different stages of plant development, so the probability of overwintering is high enough. But the most important thing is that the mechanism of the effect of stimulants on growth processes in plants has not yet been fully identified, it is definitely impossible to predict the effect on a living organism (human or animal) of agricultural products grown with the use of growth stimulants.

Of all the known growth stimulants, only humic substances can definitely say that in the human and animal body they also exhibit a positive physiological effect, which is confirmed by the results of research by scientists from many countries. As for other groups of growth stimulants, such large-scale studies have not been carried out with them, and it is not known how their use in growing grain, feed and other agricultural products will affect the development of a living organism.

Therefore, the task, separately and in combination, in obtaining a reliable increase in yield, is associated with the acceleration of germination of treated seeds of spring rape, an increase in the intensity of root growth in seedlings and the penetration of roots into the soil, taking into account the development of plants in phases, should successfully compete with weeds, while maintaining it. efficiency gains special relevance.

Climatic conditions are also one of the most important factors affecting the efficiency of cultivation of spring and winter rapeseed. However, in all cases, for this factor in the southern part of the Non-Chernozem zone of Russia, the expansion of areas for sowing this crop requires the development of recommendations on the cultivation technology for a given soil-climatic zone, which becomes relevant.

There is a known method of seed treatment (Inventor's certificate SU No. 165326, А01С 1/08 dated 06/15/1991), including preheating seeds and water to 25-30 ° C, moistening seeds to a moisture content of 21%, disinfecting seeds in an electromagnetic field and drying them in electromagnetic field with a guiding field, half as small, with an adsorbent heated to 45-50 ° C.

The disadvantage of this method is its laboriousness, as well as the lack of information about the contamination of seeds with microflora after processing.

From the prior art, analogs can be given of the use as growth stimulants of certain saturated dicarboxylic acids in the form of aqueous solutions or in the composition of water-soluble compositions.

A known composition for increasing plant resistance to diseases by treating seeds and vegetative plants based on aqueous solutions of chitosan, which contains heteroauxin and succinic and lactic acid or their mixture with glutamic acid in the amount of 0.001-0.005 and 0.004-0 as plant residues regulators, 5 wt. % (10 ^-7 × 5 × 10 ^-7 and 4 × 10 ^-7 -5 × 10 ^-5 mol / l, respectively (Patent RU No. 2158510, A01N 25/00, A01N 37/04, A01N 37/44 dated 10.11. 2000).

It is also known a tool that simultaneously stimulates plant growth and increases their resistance to drought (Patent RU No. 2133092, A01N 37/02, A01N 37/06 from 20.07.1999), which includes succinic, maleic, fumaric and formic acids, 2 (54) -furanone and β-formyl acrylic acid. This tool is used in the form of aqueous solutions with a mass fraction of 0.01-0.0001% (10-10 ^-8 mol / l (optimal concentration -10 ^-7 mol / l). Treatment of plants with seeds and spraying of plants in the budding phase.

There is a known method of stimulating plants (Patent RU No. 2088086, A01N 59/00 dated 09/01/1997), which consists in treating seeds and watering plants during the growing season with an aqueous solution containing 10 ^-6 -10 ^-4 mol / l hydrogen peroxide, 10 ^-6 -10 ^-5 g / ion of copper ions and 10 ^-6 -2 × 10 ^-6 mol / l of oxalic acid.

As can be seen from the above sources, for the used growth stimulants, the optimal concentration is 10 ^-5 -10 ^-7 mol / l. With a decrease in concentration below 10 ^-7 mol / l, their stimulating effect decreases sharply.

One of the most common plant growth stimulants is succinic acid (GN Chupakhina, A.Yu. Romanchuk. Possible mechanism for stimulating growth processes with succinic acid. Theoretical and applied aspects of biology. Kaliningrad, 1999, pp. 46-51). Succinic acid is used in the form of an aqueous solution with an optimal concentration of 10 ^-4 -10 ^-5 mol / l. A further decrease in concentration to 10 ^-6 -10 " ⁷ mol / l reduces the growth-stimulating ability of succinic acid to the level of control experiments.

There is a known method of pre-sowing seed treatment (Patent RU No. 2304372, AO 1C 1/00 dated 08/20/2007), including moistening seeds and processing them in an electromagnetic field, while the seeds are moistened with water at a temperature of 24 ° C for 10 minutes at a seed ratio: water = 4: 1, respectively, then the seeds are treated in a microwave field with a power of 540 W, an exposure of 60-90 seconds at a final seed temperature of 46.5 ... 52.3 ° C. This method is taken as a prototype.

The disadvantage of this method is the insufficiently high degree of disinfection of seeds from seed infections, as well as the lack of application of the composition to increase the additional resistance of plants to diseases, when treatment of seeds and vegetative plants is required on the basis, as by dressing with the fungicide "Fitosporin-M", the active substance of which is living symbiotic bacterial cultures of Bacillus subtilis strain 26D with a content of 1x10 * 9 living cells and spores per 1 ml. In addition, the lack of the possibility of fungicidal treatments for such drugs as "Karamba" and "Pictor" in the phase of stimulating plant growth on the proposed hybrids of the studied spring rape: "Cebra KL" and "Currie KL" (Germany), bred by the method of selective selection, i.e. e. for spring rape, one of the stimulants works as a regulator of shoot growth, and the second, as highly effective against diseases, including sclerotinia. In addition, there is an insufficient amount of nutrients available to plants, where this technology does not provide for this in a plant growing complex, as well as a relatively complex seed treatment technology.

The claimed means exhibit a complex of useful properties: they activate seed germination and neutralize the seeds of spring rape of hybrid breeding varieties from the main rapeseed diseases - fusriosis, bacteriosis, alternaria.

The technical problem solved by the proposed invention is to simplify the technology, increase the sowing quality of seeds and their disinfection from seed infections, as well as expand the range of quality indicators of the original drug used, the choice of a design - a gradient with a magnetic field, expanding the range of stimulants for seed germination and plant growth and environmental safety due to the optimal amount of stimulant used while increasing its effectiveness.

The technical problem is solved by the fact that in the method of stimulating the growth and development of spring rape seeds, including pre-treatment of seeds by dressing and treatment with a magnetic field, spraying during the growing season with an insecticide solution, according to the invention, the drug "Fitosporin-M" is used as dressing and the treatment is carried out with a gradient using a magnetic field, and spring rape is used as seeds, respectively, with a dose of mineral fertilizers N120P90K90, before sowing rapeseed, cultivation is 8-10 cm and, once during the vegetation of plants, nitrogen N _{68 is} additionally introduced.

In addition, spring rape is treated with Fastak once at a rate of 0.15 l / ha with a working fluid consumption rate of 200 l / ha in phases of 4 pairs of true leaves.

In addition, spring rape is treated with the preparation "Karamba" at the rate of 0.75 l / ha in the phase of the beginning of bud emergence, and with the preparation "Pictor" at the rate of 0.5 l / ha in the phase of mass flowering.

In addition, sowing of spring rape is carried out with a seeding rate of 1.25 million grains / ha, to a seeding depth of 2-2.5 cm, while the seeding depth is carried out in a continuous row method, a row spacing of 12.5 cm, the predecessor is winter wheat.

The essence of the invention is as follows. As follows from the prior art, the biological effects of MF are not limited only to the intensification of the initial growth processes. Magnetic fields have a triggering effect of many biochemical and biophysical processes, which ultimately underlies the change in the value of plant productivity, as well as separately used drug components as plant growth stimulants, but in a limited concentration range (optimal). The studies carried out by the authors unexpectedly showed that the biological activity persists when the hybrids "Cebra KL" and "Currie Kl" (Germany), bred by the method of selection selection, were studied for spring rape. Before magnetization with a gradient magnetic field, the seeds were treated with the fungicide Fitosporin-M, the active substance of which is live symbiotic bacterial cultures of Bacillus subtilis 26D with a content of 1x10 * 9 live cells and spores per 1 ml and the effect of treatment with HMF + Fitosporin was studied; preparations "Karamba" at the rate of 0.75 l / ha, which works as a fungicide and as a regulator of shoot growth, as well as the drug "Pictor" at the rate of 0.5 l / ha in the phase of mass flowering of plants, as highly effective against diseases, including sclerotinia ... In addition, fertilizers were applied under cultivation of 8-10 cm, N120P90K90, and during the growing season, nitrogen N ₆₈ was additionally applied.

The proposed solutions of the claimed growth stimulant are prepared according to known methods, and the agricultural technology in the field experiment corresponded to the generally accepted recommendations for the given soil and climatic zone.

Initially, seed dressing of spring rape and magnetization is carried out using the gradient magnetic field method (it differs from the known magnetization by an electromagnetic field of ultrahigh frequency). In this case, the processing with a gradient magnetic field was carried out on a magnetic module, which is a vertical tubular column with a shaft of two membranes, on which magnetic plates, a loading funnel and a receiving container are fixed.

The gradient magnetic field contains the speed of passage of seeds through the installation with a length of the working part of the tubular column of 1 m by gravity, and this speed of movement of the seeds is constant, and the processing time was 0.1 s. This method of the MF device is associated only with the installation relative to the poles of the permanent magnet themselves, in contrast to the known electromagnetic field.

According to the idea, laboratory and field experiments were carried out according to the scheme: 1. Without treatments (control). 2. Treatment of hydraulic fracturing. 3. Processing "Fitosporin". 4. Processing Fitosporin + HMF.

The analysis of the state of the art carried out by the applicant, including a search for patent and scientific and technical sources of information and the identification of sources containing information about analogues of the claimed invention, made it possible to establish that the applicant did not find an analogue characterized by features identical to all essential features of the claimed invention. Consequently, the proposed invention meets the criterion of protectability "inventive step".

The possibility of implementing the claimed invention is confirmed by the following example.

Example

Before the magnetization of the pre-sowing treatment of the seeds with a gradient magnetic field (GMF), they were first etched with the fungicide "Fitosporin-M". The action of the drug begins at a temperature of 18-20 ° C. The cells and spores of the bacteria contained in the preparation disinfect seeds from pathogenic and opportunistic microorganisms, further use protects seedlings, seedlings and adult plants from pathogens, and, as noted above, Bacillus subtilis 26D colonizing the plant and spreading in its tissues prevent the penetration of pathogens, causing their lysis (moreover, the drug was not previously used on rapeseed, therefore, its rate was estimated by the culture of white cabbage at a dose of 1.5 g / kg of seeds, since this culture is close to cabbage).

Magnetization of the GMF was then carried out on a tubular column installation with a working section length of 1 m by gravity under gravity equal to the known value of 9.8 m / s, the seed movement speed is constant, the treatment exposure is 0.1 s.

For experiments used spring rapeseed hybrids: "Cebra KL" and "Currie KL" (Germany), which are resistant to a group of drugs containing emidazolines. The hybrids were bred by selective selection. Sowing was carried out in the second decade of May to a depth of 2-2.5 cm in a continuous row method, a row spacing of 12.5 cm, a seeding rate of 1.25 million viable seeds per hectare. The predecessor was winter wheat.

Soil preparation before sowing included stubble plowing, fall plowing to the depth of the arable layer. In the spring - early spring harrowing, immediately before sowing rapeseed, cultivation of 8-10 cm.

The first treatment of growing plants of spring rape of hybrid varieties "Cebra KL" and "Currie KL" was carried out to destroy the cruciferous flea in the period from germination to the appearance of four true leaves by treatment with the insecticide "Fastak" at a rate of 0.15 l / ha with a rate of consumption of working fluid - 200 l / ha. The treatment was carried out with an Amazone UG-300 sprayer in an aggregate with an MT3-1221 tractor.

In addition, the hybrids of spring rape were also treated additionally with the herbicide "Nopasaran", the rate of 1.2 l / ha and the surface substance DASH, at the rate of 1.2 l / ha.

Fungicidal treatments were carried out: the first - in the phase of the beginning of buds emergence, with the preparation "Karamba", at a rate of 0.75 l / ha ("Karamba" on spring rape works as a fungicide, as well as a regulator of shoot growth). The second - in the phase of mass flowering of plants was carried out with the drug "Pictor", at a rate of 0.5 l / ha ("Pictor" is highly effective against diseases, including sclerotinia).

Mineral fertilizers for cultivation, application at a dose of N ₁₂₀ P ₉₀ K ₉₀ once, and during the vegetation of plants, nitrogen was additionally introduced at a dose of N ₆₈ . The crops were harvested with a selection harvester - Tarion - 2000. The cut height was at the level of 6-8 cm. The crop was harvested in a straight line without desiccation, when the rapeseed pods acquired a lemon-yellow color and the seeds became dark.

All observations, records and analyzes were carried out according to generally accepted methods and standards. The observations during the growing season were taken into account, carried out on the basis of the "Methodology for state variety testing of agricultural crops" (1985). Mathematical processing of the data was carried out by the method of analysis of variance according to R. Fischer as presented by B.A. Dospekhova (1985) on a PC.

The field experiment was carried out according to the scheme noted above.

Agrotechnical measures for the cultivation of spring rape were lined up in accordance with the existing zonal recommendations.

Treatment of seeds of spring rape with the drug "Fitosporin" and a magnetic field gradient (GMF) before sowing for sowing qualities and stimulation of the initial growth processes (Table 1).

It follows from the table that the pre-sowing treatment of spring rape seeds with a preparation and a magnetic field gradient influenced the seed germination energy for all variants of the experiment. Thus, in the control variants of each cultivar, the germination energy was lower in comparison with other variants.

The maximum increase in germination energy was noted in the variants with the Currie KL hybrid according to the treatments Fitosporin + HMP (+ 12.3%) and HMP + Fitosporin (+ 12.1%), where the germination energy was 74.8% -74.6% ... High germination energy was observed with the Cebra KL hybrid according to the treatment options for HMF (85.1%), Fitosporin + HMF (84.5%), HMF + Fitosporin (84.3%).

The positive tendency of an increase in germinated seeds in all variants in comparison with the control remained in the laboratory germination of seeds.

On the 7th day of laboratory germination in the control variants, the level was recorded: 90.3%; in the Cebra variety; 92.0 for the Currie variety. According to the variants of the experiment, the highest laboratory germination was recorded in the variants with the magnetization of seeds and the treatment of the preparation Fitosporin: GrMP + Fitosporin in Cebra KL (98.0%), as well as Fitosporin + GrMP and HMP in the crops of Cebra CL (97.5% each) ). The maximum increase in variants with Currie CL was observed in the variant Fitosporin + HMP (+ 5.7%).

During the research, measurements of sprouts and roots of the studied seeds of spring rape varieties were carried out. It was found that on the 7th day the total length of plants of spring rape varieties: Cebra and Kurri in the variant without treatments averaged 9.3 cm; 9.4 cm respectively. An increase in the total length of plants was observed in each hybrid according to variants. However, the maximum plant length was achieved with the combined treatment of seeds with HMP + Fitosporin. On the 7th day, the total length of plants was 14.2 cm (Cebra), 11.3 cm (Currie), which exceeded the control by 4.9 cm, 1.9 cm, respectively.

Thus, conducting a laboratory experiment with pre-sowing treatment of spring rapeseed with a biological active drug Fitosporin and magnetizing the seeds with a magnetic field gradient has a positive effect on the germination energy, laboratory germination and the total length of plants.

In a field experiment according to the same scheme, weather conditions during the studied period strongly influenced the passage of phenophases in plants. The full development cycle from the beginning of germination to ripening in spring rape in the experiment was 109-120 days, depending on the hybrid. In spring rape, the properties of a plant of long daylight hours were clearly expressed.

The seedlings in the experiment, which were treated with Fitosporin, HMF or a combination of variants, were amicable, the first seedlings appeared on the 6-7th day. The control variants lagged behind in germination by 1-3 days. On average, according to the stimulated variants, the formation of true leaves in rapeseed began 14-16 days after germination, which was typical for these hybrids.

Spring rape was susceptible to weeds in the first 25-35 days of the growing season. Further, when the budding phase began, the root system was already well developed, an intensive growth of the aboveground vegetative mass began in rape, and the culture was able to successfully compete with weeds and suppress it. Therefore, it is so important that rapeseed in the initial phases of growth develops rapidly and actively, which was facilitated by the treatment with Fitosporin and HMF.

The beginning of rapeseed flowering, on average, occurred at a set of average daily temperatures in the amount of 740-790 ° C. The beginning of flowering of plants in the experiments was noted 37-48 days after germination, lasted 13-19 days.

The growing season for the options: "Cyclus KL" was 109-111 days; "Currie KL" -115-117. There were no significant differences in maturation among the variants. The control variants matured 2-4 days earlier.

Treatment of seeds with HMP and "Fitosporin" had a significant impact on the survival rate and elements of the structure of the spring rape yield (Table 2).

From the data in Table 2, it can be seen that the survival rate on all stimulated variants of spring rape was high. Low values of survival in the control - 82.3-86.3%. The maximum survival rate on the options "Currie KL" GRMP + "Fitosporin" (94.0%), "Fitosporin" + HMP (94.6%), "Cebra KL" GRMP + "Fitosporin" (92.5%).

Note that on plots using the Clearfield system (Cebra KL, Currie KL), weed infestation was relatively low, all groups of weeds died or were strongly suppressed. On average, the weediness in the control variants was 96.5 pieces / m ² (Currie KL), 101.5 pieces / m ² (Cebra KL). In the variants with seed stimulation, the weediness decreased by 15-20, due to the more rapid development of the plants of the studied culture.

Note the high resistance of all tested hybrids to the main diseases of spring rape, such as alternaria, sclerotinosis, rape powdery mildew.

A significant increase from magnetization and treatment with "Fitosparin" was noted in terms of the number of pods per plant and seeds in one pod. The maximum content of pods per plant was recorded for the variants "Fitosporin" + HMP: 141.6 pcs. - "Currie KL", + 48.7 units, which is from the control; 139.3 pieces - "Cebra KL", + 38.0 pcs.

The increase in the elements of the structure of the yield from the stimulation of seeds with HMF and "Fitosporin" further affected the yield of spring rape (see Table 3).

From the data in Table 3, the stimulation of GMF and "Fitosporin", separately and in combination, made it possible to obtain a significant increase in yield compared to the control. In the course of the experiments, the acceleration of germination of the treated seeds was noted, an increase in the intensity of root growth in seedlings occurred, which later influenced the more intensive development and penetration of roots into the soil, the development of plants in phases, and successful competition with weeds.

On average, over the years of research, the maximum yield was obtained on the variants "Fitosporin" + HMP (24.8 c / ha - "Cebra KL"; 25.1 c / ha - "Currie KL"). On average, the maximum increase was observed in the variant with the Currie KL hybrid treated with Fitosporin + HMP (+ 16.2% of the control).

The laboratory germination energy of the insecticide treated seed with a gradient magnetic field is shown in FIG. 1 of the two studied treatment factors on day 3 after setting the experiment; in fig. 2 - on the 7th day after the experiment was bookmarked. Field experiment (Fig. 3) germination and growth of plants are also associated with two studied factors of influence: the exposure of treatment with drugs "Karamba" and "Pictor", necessary to ensure their normal growth.

In comparison with the prototype, the mechanism of action of HMP and "Fitosporin" contributed to the active triggering effect of many biochemical and biophysical processes of spring rape, which ultimately underlies the change in the value of the productivity of oilseeds.

In addition, the proposed method simplifies the technology of treatment with a magnetic field gradient, the germination energy changes in a similar way.

Experimental material and the obtained changes in the productivity of oilseed plants for pre-sowing treatment and increased germination and phytosanitary qualities of seeds, the infection of seeds with microflora is significantly reduced.

The proposed method is easily implemented in agricultural production.

Claims (4)

1. A method of stimulating the growth and development of spring rape seeds, including pre-treatment of seeds by dressing and treatment with a magnetic field, spraying with an insecticide solution during the growing season, characterized in that Fitosporin-M is used as dressing and the treatment is carried out in combination with a gradient magnetic field, accordingly, at a dose of mineral fertilizers N ₁₂₀ P ₉₀ K ₉₀ , before sowing rapeseed, cultivation of 8-10 cm is carried out and nitrogen N _{68 is} additionally introduced during the growing season of plants. 2. The method according to claim 1, characterized in that spring rape is treated with Fastak once at a dose of 0.15 l / ha with a working fluid flow rate of 200 l / ha in the phase of 4 pairs of true leaves. 3. The method according to claim 1, characterized in that the spring rape is treated with the preparation Karamba at the rate of 0.75 l / ha in the phase of the beginning of bud emergence, and with the preparation Pictor at the rate of 0.5 l / ha in the phase of mass flowering. 4. The method according to claim 1, characterized in that the sowing of spring rape is carried out with a seeding rate of 1.25 million grains / ha, to a seeding depth of 2-2.5 cm, while the seeding depth is carried out in a continuous row method, with a row spacing of 12, 5 cm, according to the predecessor - winter wheat.

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