RU2189960C1 - Agent for agriculture crop yield enhancement - Google Patents

Abstract

FIELD: biology, agriculture. SUBSTANCE: invention relates to mineral microfertilizers that stimulate process of efflux of photosynthesis products from leaves to economically important plant organs resulting the enhancement of yield of different species of agriculture crops. Agent for the enhancement of agriculture crops comprises ammonium carbonate, copper carbonate ammoniate, zinc carbonate ammoniate and water taken in the following ratio of components as measured for ions, wt.-%: carbonate anions, 50-60; ammonium cations, 38-40; copper cations, 2-6; zinc cations, 2-6; water, the balance. For preparing 1 l of substance near to the maximal concentration it is necessary to take 1 l of 8% ammonium solution, to saturate its with carbon dioxide and to add by 5-25 g of copper carbonate and zinc carbonate. EFFECT: enhanced productivity and quality of agriculture crops, decreased consumption of nitrogen fertilizers in growing, decreased pollution of environment with nitrates. 4 tbl, 3 ex

Description

 The invention relates to the field of biology and agriculture, in particular to mineral micronutrient fertilizers, and is intended to increase the yield of various types of crops by stimulating the process of outflow of photosynthesis products from leaves to economically important plant organs.

 A known method of stimulating the growth and development of oilseeds (RF patent 2121272, IPC A 01 N 65/00, publ. 10.11.98), in which vegetative plants are sprayed with the preparation "Silk" at a given dose for each plant type once or twice during the growing season while increasing the yield is achieved by stimulating plant growth, i.e. according to the principle: more plant mass - more crop.

 Known means to stimulate the growth of crops (RF patent 2114805, IPC C 05 D 9/02, A 01 N 59/00, publ. 10.07.98), which is a mineral microfertilizer in the form of a complex compound of molecular formulas, including organic titanium salts acids, such as acetic, trace elements of copper and ammonium sulfate, and is intended to increase productivity and produce environmentally friendly crops. The treatment of crops with a growth stimulant may include both soaking the seeds in an aqueous solution or dusting them, and treating the crops.

 Known substances of a regulatory nature used in crop production to increase productivity are most often synthesized by analogy with known natural phytohormones, or they are empirically selected combinations of various substances (trace elements, waste products of microorganisms or plants, production waste, etc.), the effect of which was tested on the stimulation of plant growth processes. All of them stimulate the growth of the whole plant. As an advantage of the methods or substances, it is possible to note the ecological purity of the substances used or their cheapness and availability for mass application.

 Known means for increasing productivity (a. P. 1824143, IPC A 01 N 37/20, publ. 30.06.93; a. P. 1509011, IPC A 01 N 33/12, publ. 23.09.89), which are synthesized compounds , in which quite certain properties are found to influence some final indicators of plant productivity, for example, on the growth of zucchini or on the increase in sugar content of sugar beets.

 However, there are no known substances and methods that affect the transport of photosynthesis products to economically important plant organs, which would improve the productivity and quality of the crop without increasing the amount of nitrogen fertilizers used during crop production.

 The technical result to which the invention is directed is to increase the productivity and quality of the crop yield by stimulating the outflow of photosynthesis products from leaves to economically important plant organs, as well as by reducing the amount of nitrogen fertilizers used during plant growth, which leads to reduce environmental pollution with nitrates.

The technical result is achieved by the fact that the means for increasing the yield of agricultural crops includes complex compounds - ammonium carbonate, copper ammonia carbonate, zinc ammonia carbonate and water in the following ratio, wt.%:
Carbonate Anions - 50-60
Ammonium Cations - 38-40
Copper cations - 2-6
Zinc Cations - 2-6
Water - Else
To obtain one liter of a substance close to the maximum concentration, it is necessary to take one liter of an 8% solution of ammonia, saturate it with carbon dioxide and add 5-25 g of copper carbonate and zinc carbonate.

Obtained as a result of chemical reactions of these components of the inventive tool for increasing crop yields is a complex compounds of variable composition of molecular formulas
n ₁ NH ₄ ⁺ + n ₂ СО ₃ ^2- + n ₃ [Сu (NH ₃ ) ₄ ] ²⁺ + n ₄ [Zn (НН ₃ ) ₄ ] ²⁺ + n ₅ [Сu (NH ₃ ) ₃ ] ^{2 +} + n ₆ [Zn (NH ₃ ) ₃ ] ²⁺ + n ₇ [Cu (NH ₃ ) ₂ ] ²⁺ + n ₈ [Zn (NH ₃ ) ₂ ] ²⁺ + n ₉ [Cu (NH ₃ )] ²⁺ + n ₁₀ [Zn (NH ₃ )] ²⁺ + n ₁₁ Cu ²⁺ + n ₁₂ Zn ²⁺ + n ₁₃ NSO ₃ ,
where n _1-13 is the number of corresponding ions in solution.

 The conditional concentration of "dry matter" in the solution is 21-22.5%.

 The proportion of copper and zinc cations depends on the degree of activity of growth processes at this stage of plant ontogenesis. If there is an active growth of the shoot, then the utilization of ammonium cations will occur, and the cations of copper and zinc will accumulate. In this case, it is possible to increase the dose of the drug per unit area of sowing with a simultaneous relative decrease in the mass fraction of copper and zinc cations. The ratio between copper and zinc cations should vary depending on their presence in the soil on which the crop is grown.

 The ratio of the components and their concentration in the solution during the processing of plants vary depending on the type of plant, phase of development and growing conditions.

 Investigations of the processes of transport of assimilates from plant leaves to consuming organs have shown that in most types of agricultural plants, the main transport product of photosynthesis - sucrose - when it moves from the photosynthetic cells of the leaf to the conducting vessels of the phloem, enters the extracellular space (apoplast) [Kursanov A.L. Plant physiology. 1984. T.31, 3. S. 579-594]. In the extracellular space, sucrose is partially hydrolyzed to glucose and fructose, which can no longer be exported via the phloem to the consuming organs and returned to the mesophyll cells. There they are disposed of, which leads to the growth of leaf tissue. This process is the main reason for the known effect - inhibition of the outflow of photosynthesis products from leaves and a decrease in the share of the economically important part of the crop while increasing the nitrogen nutrition of plants (Chikov V.I., Bakirova G.G., Avvakumova N.Yu. Efficiency of using nitrogen fertilizers in rural economy and the possibility of increasing it. Problems of bio-medical ecology of the Republic of Tatarstan. Kazan, 1998. P.294-304).

 The invertase enzyme hydrolyzing sucrose in the extracellular space has an optimum in the acidic pH region (Kursanov A.L. Transport of assimilates in a plant. M.: Nauka, 1976. 646 pp.), And therefore the passage of sucrose through the extracellular space is affected by the acidity of it liquids (Chikov V.I. Photosynthesis and assimilate transport. M .: Nauka, 1987). When the extracellular medium is acidified, photosynthesis and the outflow of sucrose from the leaf, at the stage of its loading into the phloem ends, are inhibited, and the labeled products of photosynthesis accumulate in the apoplast, on the contrary, photosynthesis and the outflow of assimilates are stimulated by alkalization, and their content in the apoplast decreases.

The acid-base balance in the fluid of the extracellular space can be influenced by the introduction of ammonium carbonate into the extracellular space. It is also possible to increase the pH (alkalize the aqueous medium) in the apoplast by increasing the activity of carbonic anhydrase enzymes (containing zinc and converting HCO ₃ ^{- of the} aqueous medium into gaseous СО ₂ , which is absorbed during photosynthesis) and superoxide dismutase, which contains copper and zinc and binds H ⁺ - ions in the process of eliminating reactive oxygen species (Ogawa K., Fukuyama Univ. Fac Engn Generation of superoxide anion and localization of CuZn-superoxide dismutase in the vascular tissue of spinach hypocotyls: Their association with lignification. Plant and Cell Physiology. 1997. V. 38, 10, P. 1118-1126). To increase the activity of carbonic anhydrase and superoxide dismutase in the extracellular space, zinc and copper ammonia were introduced into the preparation.

The micronutrient components included in the drug being developed perform catalytic functions and are required in low concentrations. The Cu and Zn metals necessary for the formation of the active carbonic anhydrase and superoxide dismutase molecules are mainly localized in the extracellular space, adsorbed on the cell walls, and therefore are used to form the corresponding enzymes gradually (Blinda A., Koch B., Ramanjulu S., Dietz KJ. De novo synthesis and accumulation of apoplastic proteins in leaves of heavy metal-exposed barley seedlings // Plant Cell and Environment. V.20, 8. P. 969-981. 1997). Ammonium can be used as a nitrogen substrate in cellular metabolism, and CO ₂ during photosynthesis, and therefore are required in higher quantities.

 The developed tool for increasing the yield of agricultural crops (outflow stimulator - STO), changing the acid-base balance in the extracellular space fluid, reduces invertase activity, which leads to a decrease in sucrose hydrolysis and its more successful outflow from leaves.

 Consider examples of the use of the proposed tool - StO to increase plant productivity and crop quality.

Example 1. The treatment of flax plants at the beginning of the period of rapid shoot growth increased the supply of assimilates to a growing growth point, which increased the number of leaves, shoot length and increased fiber strength in the straw in the growing part (marked *) of the shoot (Table 1) . Due to the greater demand for flax flax in zinc, its concentration was twice as high as copper with the total composition of the substance: NH ₄ - 38%; CO ₃ - 53%; Cu - 3%; Zn - 6%.

 Dilution of the drug 1:20. Liquid consumption 200 l / ha. One-time spraying of plants was carried out at the beginning of the period of rapid growth. StO treatment was combined with the treatment of crops with herbicides. The effect of the treatment with STO on the number of leaves and plant height of flax flax is presented in table. 1.

 It should be noted that for flax flax an important indicator is the height of the plant, since this indicator is a struggle for every additional centimeter.

Example 2. The effectiveness of the product was tested on the plantation of greenhouse cucumbers grown according to standard technology. Plants were sprayed weekly at a concentration of 0.2%. The size of the plots is 25 m ² . The treatment with STO was carried out instead of the weekly introduction of crystalline nitrogen fertilizer into the soil. The composition of the product: NH ₄ - 40%; СО ₃ - 56%; Cu - 2%; Zn - 2%. Accounting for the crop was carried out during the period of active fruit production during the month ten times. The increase in the yield of cucumbers was 18 ± 3% (table. 2).

Example 3. The experiments were carried out in the field on crops of sugar beets grown at different levels of nitrogen nutrition (75, 90, 105 kg / ha of active substance). The size of the plots is 100 m ² . Processing plants was carried out on August 23. The concentration of the drug is 0.3%. Composition: NH ₄ - 38%; СО ₃ - 52%; Cu - 5%; Zn - 5%. Measurement of sugar content of root crops was carried out on August 22, September 6 and 23. Harvest accounting was carried out on September 23-24. The following data were obtained, presented in table. 1 and 2. The greatest effectiveness of the developed drug was noted with a moderate level of nitrogen nutrition. This means that the overall consumption of nitrogen in the beet industry can be reduced.

 The sugar content in the juice of sugar beet root crops, depending on the dose of nitrogen fertilizer and the treatment of sowing agent (STO) is presented in table. 3.

 The yield of sugar beets and the collection of sugar per unit area of sowing, depending on the doses of nitrogen fertilizer and the treatment of plants with STO, are presented in table. 4.

 Thus, the proposed tool for increasing the yield of crops, due to the impact on the specific process of plants with apoplastic type of transport of assimilates from leaves (this includes most crops), stimulates the outflow of photosynthesis products to economically important organs of the plant, while increasing productivity and crop quality, and also reduces the cost of production, including by reducing the amount of nitrogen fertilizers used during plant growth th. Due to its advantages, the proposed tool should find wide application in the cultivation of a wide variety of agricultural plants.

Claims (1)

Means for increasing crop productivity, including complex metal compounds and water, characterized in that it contains copper ammonia carbonate, zinc ammonia carbonate and ammonium carbonate as metal complex compounds in the following ratio of components in terms of ions, wt. %:
Carbonate Anions - 50-60
Ammonium Cations - 38-40
Cations of copper (Cu) - 2-6
Zinc Cations (Zn) - 2-6
Water - Else

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