RU2411712C1 - Fertiliser and method of wheat treatment with this fertiliser - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: group of inventions relates to the field of agriculture. Fertiliser comprises sulfur as reactant in the form of calcium polysulfide and auxiliary components. At that sulfur in fertiliser is in highly dispersed form with particle size of 40 - 120 nm. Auxiliary components the fertiliser contains are water soluble polymers and low-molecular polyalcohols. Components of fertiliser are in the following ratio, wt %: calcium polysulfide - 10.0 -22.0, low-molecular polyalcohols - 0.05 - 0.1, water-soluble polymers - 0.1-1, water - balance. Method includes leaf treatment of winter and spring wheat in phase of grain forming with this fertiliser.

EFFECT: invention makes it possible to increase content of protein in wheat grain.

9 cl, 2 tbl

Description

The invention relates to agriculture and can be used in the production of sulfur-containing fertilizers, which are used for foliar feeding of wheat in order to increase yield and quality of wheat grain.

One of the main problems for grain farming at present is the problem of increasing the protein content in wheat grain, since it is the amount of protein in wheat grain that directly determines its nutritional value and cost. The protein content in wheat depends on such an indicator as gluten, which is determined by both the wheat variety and the growing conditions. The main agrotechnical way to increase the gluten content and increase the yield are root and non-root top dressing with various chemical preparations (fertilizers and growth regulators) [1. Lebedeva L.A., Edemskaya N.L. Scientific principles of the fertilizer system with the basics of environmental agrochemistry. - M.: Publishing House Mosk. Univ., 2005 - P.42, 222. Drogalin P.V., Tarasenko N.D., Vertiy S.A., Malyuga N.G. Agrotechnical methods for improving the quality of winter wheat in the Krasnodar Territory // Improving the quality of wheat / Scientific. Tr. UPPER. M .: Kolos, 1972.- S.236-243. Malyuga I.G. Winter strong wheat in the Kuban. - Krasnodar, 1992 .-- 240 p. Sozinov A.A., Kozlov V.G. Improving the quality of grain of winter wheat. M .: Kolos, 1970. 135 p. 1-4].

From the point of view of the physiology of plant nutrition, foliar feeding is justified by the fact that a single application of fertilizers in the soil in autumn or spring cannot provide the plant with all the nutrients it needs in the ratios that it needs during different periods of vegetation. Fertilizing in combination with basic fertilizer makes it possible to achieve a crop that cannot be obtained while applying all the fertilizers to the soil, even in a large dose, because based on the ability of plants to absorb nutrients on the surface of green leaves and stems [Yakushkina NI, Bakhtenko E.Yu. Plant Physiology: Textbook. for university students enrolled in the specialty 032400 "Biology" - M .: Humanities. ed. VLADOS Center, 2005 - 463 p. S.202-203.5]. Moreover, a special role has been established for non-root, mainly nitrogen, fertilizing of wheat. Long-term studies have shown [Zhemela G.P. The effectiveness of nitrogen fertilizers with different methods and terms of use for winter wheat // Selection and varietal agricultural technology of winter wheat. - M .: Kolos, 1979. - S.286-293 .; Derzhavin L.M., Sedova E.V., Pozdnyakova N.S. The effect of mineral fertilizers on the yield and protein content of winter wheat in the Central Russian chernozem-forest-steppe province // Agrochemistry. - 1977. - No. 7. - S.40-47.6], that no matter how high the dose of the main nitrogen fertilizer, it cannot provide good grain quality to the same extent as late foliar feeding. It is known [Pannikov V.D. The effectiveness of the use of fertilizers in the Non-Chernozem zone - M .: Rosselkhozizdat, 1983. - 270 p. 7], that late foliar nitrogen top dressing of spring wheat increases the protein and gluten content in grain by an average of 1-2% and 3-6%, respectively.

At the same time, research [Lyaskovsky G., Sergienko S. About non-root top dressing of winter wheat in the phase of going into the tube and before mowing // Studies in plant physiology and biochemistry. - Kiev: Science. Dumka, 1972. - S.65-69. Maslova I.Ya. Conditions for the emergence of a relative sulfur deficiency and the features of its effect on the productivity of spring wheat // Agrochemistry. - 1980. - No. 4. - S.82-88.8, 9] showed that foliar feeding of grain with urea causes the accumulation of a noticeable amount of non-protein nitrogen in the grain, which can reach 30% of the total element content in the grain. This probably occurs at a low concentration of sulfur in the proteins of vegetative organs, when mainly amino acids that do not contain sulfur move to the grain. Thus, the drawback of the direct use of late foliar nitrogen fertilizers to increase the gluten content is the accumulation of nitrates in the grain - a noticeable amount of non-protein nitrogen.

In addition to the direct use of late foliar nitrogen top dressing, various biologically active substances are used to increase the gluten content. It is known, for example [Zlotnikov A.K., Derov A.I., Begunov I.I., Zlotnikov K.M. Albite on winter wheat. Agriculture. - 2005. - No. 3. - S.31-32.10] that the use of the drug "Albit" in the Stavropol Territory increases the gluten content by 1.4% (pre-sowing treatment) and 2.1% (treatment of crops). And in the experiments [Zlotnikov A.K., Gins V.K., Pukhova L.F., Kirsanova E.V. // Protection and quarantine of plants. - 2005. - No. 11, - p.27-28.11] Kursk STAZR on winter wheat (2001-2003) seed treatment with Albit increased gluten content in the crop by an average of 0.8%, and spraying of crops in the tillering phase the beginning of trumping - by 3.8%. Moreover, it has been established that pre-sowing seed treatment has a greater effect on yield than crop quality, and vegetative treatments are more effective for increasing the gluten content.

Thus, the use of biologically active preparations for foliar top dressing makes it possible to significantly increase the gluten content in wheat grain. But in all of the above methods for increasing the gluten content, it is not taken into account that when cultivating wheat and other crops containing protein, the limiting factor that reduces protein synthesis may be sulfur deficiency, which is the second proteinogen after nitrogen. In this regard, the need to supplement the nitrogen fertilizer with sulfur is obvious, in order to get a full-fledged grain balanced by protein content. Various methods are used to provide wheat sulfur plants.

A known attempt to eliminate the sulfur deficit [RU 2129355, publ. 04/27/1999], which provides for the introduction of a complex of mineral fertilizers (N90P90K60), lime (10 t / ha) and silicon-containing fertilizers (40-60 kg of silicon per ha) mixed with sulfur at a dose of 15-25 kg / ha (elemental sulfur) . As a result, winter wheat increases the yield of gluten. The disadvantage of the proposed method is the root application of sulfur.

Closest to the claimed is fertilizer according to KR 20030065209 A, containing sulfur as an active substance in the form of calcium polysulfide and auxiliary components.

A known method of fertilizing with sulfuric fertilizers [RU 2006122206, publ. 02/10/2008], in which the authors propose to optimize the process of sulfur feeding with the preferred use of ammonium and magnesium sulfates and in the form of a mixed NPK sulfur-containing fertilizer to increase productivity. Contains general recommendations on the introduction of sulfur in different growing periods, taking into account the balance of its consumption by the plant. The disadvantage of the proposed method is that additional sulfur fertilizer is produced in conjunction with fertilizer application during sowing or at the initial stage of plant growth during the first surface soil fertilizer. And for the effective effect of sulfur on the gluten content, it is desirable to add sulfur during the period of grain accumulation of protein.

The present invention is to increase the content of gluten in wheat. The problem is achieved in that, along with the main mineral fertilizers (potassium, phosphorus and nitrogen) that are applied to the soil, wheat is treated with foliar top dressing at the late stage of the growing season (in the loading phase) with highly dispersed sulfur with particle sizes in the range of 40-120 nm. This ensures maximum absorption of sulfur at the time of accumulation of protein in the grain. To obtain highly dispersed sulfur in the first stage, the method of converting elemental sulfur to a polysulfide form using the reaction of sulfur with calcium hydroxide in an aqueous medium at 100 ° C in a reactor equipped with a reflux condenser was used. And then before direct treatment of wheat with dilution with water to 1-5% concentration of the initial solution of calcium polysulfide, highly dispersed sulfur is recovered. The formulation is an aqueous solution of calcium polysulfide stabilized in the process of sulfur dissolution by the addition of water-soluble low molecular weight polyalcohols (ethylene glycol, glycerin, pentaerythritol) in an amount of 0.05-0.1 wt.%, Diluted with 0.1-1 wt. % aqueous solution of nonionic film-forming and surface-active polymers (polyvinyl alcohol, polyacrylic acid, starch) with the following components, wt.%:

Calcium Polysulfides 10.0-22.0 Low molecular weight polyalcohols 0.05-0.1 Water soluble polymers 0.1-1 Water Rest

Non-root treatment was carried out in experimental sites of the Bashkir State Agrarian University (BGAU) with a preparation obtained at the Scientific Research Technological Institute of Herbicides and Plant Growth Regulators of the Academy of Sciences of the Republic of Bashkortostan (GU NITIG AN RB).

The experimental design was as follows. Crops of winter and spring wheat were treated in the phase of filling the grain with a solution in which the active substance is a sulfur hydrosol with particle sizes in the range of 40-120 nm. Sulfur hydrosol was obtained before treatment of crops with dilution with water at various concentrations of the preparation — the initial aqueous solution of calcium polysulfide. The treatment was carried out on the basis of different amounts (10 ÷ 20 liters) of the initial solution of calcium polysulfide per hectare of sowing. After harvesting the wheat, an analysis of the content of crude gluten in the grain of wheat was carried out.

Table 1 shows the test results of the proposed method of foliar treatment of gray winter wheat varieties "Bezenchukskaya 380" with a preparation of various concentrations in the phase of loading grain. Processing was carried out based on the calculation of the flow rate of the initial solution of calcium polysulfide in an amount of 20 l / ha.

Table 1 The test results for the sowing of winter wheat (variety "Bezenchukskaya" 380) with a sulfur-containing preparation. No. p / p drug concentration,% productivity, t / ha mass fraction of crude gluten,% one the control 4.6 22.8 2 2.0 4.6 26,4 3 2.5 4.6 27.6 four 3.0 4.8 28,2 5 5,0 4.8 29.0 6 10.0 4.8 28.6

From the data given in table 1, it can be seen that an increase in the concentration of the solution leads to an increase in the mass fraction of crude gluten, moreover, for a 2% solution, the increase is 3.6%, and its maximum value increases in the mass fraction of crude gluten, equal to 6.2% reaches for 5% solution. Moreover, the yield with this type of processing practically does not change. Thus, even in the absence of additional foliar nitrogen treatment for this winter wheat variety, a substantial increase in the content of crude gluten (3.6% ÷ 6.2%) by foliar treatment with highly dispersed sulfur is possible.

In the following experiment, the influence of nonroot nitrogen, microelement, and sulfur supplements on the crude gluten content in spring wheat grain of the Reaper variety was studied. The composition “UMID” was selected as micronutrient fertilizer, which contains trace elements: iron, molybdenum, copper, zinc, boron and previously successfully tested GU “NITIG AN RB” on fruit crops. Urea was used as nitrogen top dressing, and sulfur hydrosol obtained from calcium polysulfide by dilution before spraying up to 5% concentration was used as sulfur supplements. Table 2 shows the test results of the above three types of preparations on spring wheat varieties "Reaper".

table 2 Test results of spring wheat cultivar "Reaper" with a sulfur-containing preparation obtained from calcium polysulfide No. p / p Test conditions Mass fraction of crude gluten,% one The control 23,2 2 Microfertilizer "UMID" 23,2 3 Nitrogen (20 kg / ha) 26.8 four Nitrogen (30 kg / ha) 26.0 5 Nitrogen (20 l / ha) + UMID 26.0 6 Nitrogen (30 l / ha) + UMID 25.6 7 Sulfur (10 L / ha) 27.6 8 Sulfur (10 L / ha) + Nitrogen (20 L / ha) 31,2 9 Sulfur (10 L / ha) + Nitrogen (30 L / ha) 32,4 10 Sulfur (20 L of the preparation / ha) 26.8 eleven Sulfur (20 L / ha) + Nitrogen (20 L / ha) 28.7 12 Sulfur (20 L / ha) + Nitrogen (30 L / ha) 29.6

Processing is carried out in the phase of filling grain. From the data given in table 2, it is seen that the use of micronutrient UMID does not affect the content of raw gluten, and nitrogen fertilizing by itself and together with micronutrient UMID gives an increase in gluten content by 2 ÷ 3%. The use of sulfur alone gave an increase in gluten content by 3.6–4.4% for spring wheat. But the maximum effect for spring wheat is achieved with the combined use of fertilizing with sulfur and nitrogen when using a sulfuric preparation in an amount of 10 l / ha. In this case, an increase in gluten content by 5.5–9.2% is achieved. Thus, non-root top dressing of wheat, especially in combination with nitrogen top dressing, allows to achieve a significant increase in protein content - the most valuable component of wheat grain.

Claims (9)

1. Fertilizer containing sulfur as an active substance in the form of calcium polysulfide and auxiliary components, characterized in that it contains sulfur in a highly dispersed form with particle sizes of 40-120 nm. 2. The fertilizer according to claim 1, characterized in that as auxiliary components it contains water-soluble polymers and low molecular weight polyalcohols. 3. Fertilizer according to claims 1 and 2, characterized in that it contains components in the following ratio, wt.%:
Calcium Polysulfides 10.0-22.0 Low molecular weight polyalcohols 0.05-0.1 Water soluble polymers 0.1-1 Water Rest 4. A method of processing wheat, including foliar treatment of winter and spring wheat in the phase of loading grain with fertilizer according to any one of claims 1 to 3. 5. The method according to claim 4, including processing in the phase of filling the grain with fertilizer according to claim 3, diluted to 1-5% concentration. 6. The method according to claim 5, characterized in that the said agent contains sulfur nanoparticles. 7. The method according to claim 6, characterized in that the particle sizes of sulfur are 40-120 nm. 8. The method according to claim 7, characterized in that it is carried out simultaneously in combination with nitrogen top dressing. 9. The method according to claim 8, characterized in that urea is used as a source of nitrogen.