RU2224731C1 - Lime fertilizer for sugar beet - Google Patents

Abstract

FIELD: agriculture, fertilizers. SUBSTANCE: invention can be used for growing manufacturing sugar beet on acid soils. Lime fertilizer for sugar beet comprises 10-30 wt.-% of quick lime, 50-70 wt.-% of defecate and calcium carbonate from chemical synthesis, the balance. The combination of three lime components in taken ratio provides the enhancement of effectiveness of chemical amelioration due to stable and uniform reducing the soil acidity and enhancement of productivity of sugar beet plantings. EFFECT: enhanced effectiveness of fertilizer. 1 tbl, 1 dwg

Description

 The invention relates to agriculture, namely to the production of fertilizers, and can be used for growing factory sugar beets on acidic soils.

 The calcareous materials used for chemical reclamation differ in the strength and intensity of the action in dynamics over time on the agrochemical characteristics of the soil.

 Known fertilizer for acidic and weakly acidic soils - chemical synthesis calcium carbonate (KKS), obtained as a by-product at the Mineral Fertilizer enterprises (TU-113-03-03-22-03-88), it has a fine particle size distribution (residue on sieve 0 , 1 mm - 1%), has a large specific surface area and high energy to reduce forms of soil acidity.

 The main disadvantage of the known calcareous fertilizer is the sharp unevenness of the reclamation process in dynamics after it is introduced into the soil. Chemical synthesis calcium carbonate provides a quick, within a few months, decrease in soil acidity, but at the same time, there is a steady decrease in the reclamation effect. As a result, it is not ensured that optimal soil acidity values are maintained during the cultivation of sugar beet crops; as a result, the yield is not high enough.

 Known fertilizer for acidic and slightly acidic soils is defecate (TU-9112-005, 00008064-95, Gorovkina EA. Liming of soils in areas of beet-growing. - Kiev: Urozhai, 1976. - 56 p., Konkin VG Defekat for chemical soil reclamation // Chemicalization of Agriculture. - 1989. - 1. - P. 25-26) - filter cake of sugar production in sugar factories. The lime used for the purification of beet juice falls in the form of a minute precipitate of calcium carbonate with a particle size of about 17 microns. Defecate in the zone of chernozem soils is a highly effective ameliorant for the cultivation of sugar beets in soils with hydrolytic acidity above 1.8-2.0 mEq per 100 g of soil.

 Known one-component lime fertilizer does not effectively reduce soil acidity in the first months after application. Moreover, the growth of the roots of sugar beet plants does not reach the maximum possible values. As a result, its use does not allow to obtain high yield increases from liming.

 Also known is fertilizer for acidic and slightly acidic soils - burnt lime (GOST 9179-77, Kedrov-Zikhman O.K. Liming of sod-podzolic soils in grass crop rotation. M: Selkhozgiz, 1952. - P.79).

 A feature of the known fertilizer is a sharp and strong decrease in soil acidity in the first stages after application, which can significantly increase the yield of the first crop.

 The main disadvantage of this fertilizer is the transition of the soil reaction to the alkaline range when it is applied in full doses for hydrolytic acidity, and the subsequent rapid decrease in the efficiency of the reclamation process.

 The sharp unevenness of the reclamation process, the unstable state of soil acidity in the year of direct action of the reclamation agent do not allow obtaining the maximum possible yield increases from lime fertilizer.

 Known lime fertilizer, including 50 wt.% Calcium carbonate chemical synthesis and 50 wt.% Defecate (Shiyan P.N. and others. New lime fertilizer // Sugar beet. -1993. - 6. - P.13-15, prototype )

A disadvantage of the known fertilizer is the insufficiently high efficiency of the process of reducing soil acidity. Equivalent to CaCO ₃ complete single norms for separately used materials in the well-known two-component lime fertilizer do not provide a reduction in hydrolytic acidity to the optimum level. In addition, the quantitative ratio of the components in the known fertilizer does not provide a positive combination of the advantages that are available for separately used components - the rapid initial action of calcium carbonate chemical synthesis and the strong aftereffect of the defect. As a result, the action of calcareous fertilizer is characterized by uneven progress of the reclamation processes during the growth and development of crops and a decrease in the yield of sugar beets.

 The objective of the invention is the production of lime fertilizer for acidic and slightly acidic soils, ensuring the maintenance of optimal soil acidity during the growth and development of sugar beet crops.

 The technical result from the use of the invention is to improve the efficiency of reclamation, due to a steady and uniform decrease in soil acidity, and increase the yield of sugar beet crops.

The technical result is achieved by the fact that the lime fertilizer for sugar beets, including defecate, which is a filter cake of sugar production, and calcium carbonate of chemical synthesis, additionally contains quicklime in the following ratio of components, wt.%:
Quicklime - 10 - 30
Defecate - filter cake of sugar production - 70 - 50
Chemical Synthesis Calcium Carbonate - Else
In the claimed invention, the combination of three calcareous components in the selected ratio ensures the dynamics of the soil during the growth and development of sugar beet crops to maintain optimal soil acidity (pH salt = 7.0-7.5).

 So, in the first months (T) after applying the inventive three-component lime fertilizer in the autumn, there is a rapid decrease in soil acidity mainly due to actively reacting and well soluble particles of quicklime. Further, from spring, in the first months (Tc), the achieved decrease in soil acidity is supported by an active reclamant - chemical synthesis calcium carbonate. In the following months, until the sugar beet is harvested (Tu), the high efficiency of the reclamation process is ensured by particles of the reclamation agent with a strong aftereffect - defecate.

 The quantitative ratio of the components in the claimed invention was established experimentally from the condition of ensuring in the dynamics of the action of the fertilizer a maximum and uniform decrease in soil acidity, which allows to obtain higher yield increases from this event on the crops of sugar beets, highly sensitive to soil acidity.

 The drawing shows a graphical dependence of changes in soil acidity (pH salt) over time (T) sowing when applying lime fertilizers, respectively: 1 - quicklime (100 wt.%), 2 - defecate (100 wt.%), 3 - carbonate chemical synthesis calcium (100 wt.%), 4 - according to the prototype, 5 - declared.

 In addition, it was found that when the content of quicklime and calcium carbonate in the lime fertilizer of chemical synthesis is less than 30 wt.%, And defecate more than 70 wt.%, The yield of sugar beet crops decreases. This is due to the fact that the efficiency of the reclamation process decreases in the first months after the application of calcareous fertilizers, during which a high growth rate of the root system and the assimilation apparatus of plants should occur best at optimal soil acidity levels.

 When the content of chemical synthesis in quicklime and calcium carbonate is more than 50 wt.%, And defecate less than 50 wt.%, Sugar beet yield also decreases, since irregularity of the reclamation process occurs over time. In the first months, an unfavorable alkalization of the soil solution occurs, and in the following months, an increase in the acidity of the soil is noted. As a result, the period with the most favorable conditions for the growth and development of crops decreases.

 If the amount of defecate in lime fertilizer corresponds to 50-70 wt.%, But the content of quicklime is less than 10 wt.%, And calcium carbonate of chemical synthesis is more than 30 wt.%, Then the yield of sugar beet crops is reduced due to the fact that the efficiency of the reclamation process in the initial period is not high enough. The optimal decrease in soil acidity necessary for the initial growth of plant roots cannot be obtained.

 Similarly, in conditions where the defecate content corresponds to 50-70 wt.%, But the content of quicklime is more than 30 wt.%, And calcium carbonate for chemical synthesis is less than 10 wt.%, The yield of sugar beet crops decreases due to the fact that the soil solution reaction in the first month after the introduction of ameliorants, it goes into the alkaline range with values unfavorable for the growth and development of young plants.

 The table shows the options for the composition of lime fertilizers that have been tested in a field experiment, reflects the influence of the ratio of the initial components of lime fertilizer on the dynamics of changes in soil acidity during the growing season, data on the dynamics of growth and development of sugar beet plants.

 The tests were carried out on leached chernozem of the Central Black Earth zone, namely in the Ramonsky district of the Voronezh region on crops of sugar beet from 2000-2002 with fertilizing under the main plowing.

 Field experiments were carried out in accordance with accepted guidelines.

 Soil difference - leached chernozem, slightly acidic, with a high level of security in phosphorus and average in potassium. The main indicators of the arable horizon: humus content - 3.96%; pH salt - 4.89; hydrolytic acidity - 5.45 mEq / 100 g of soil; the amount of absorbed bases 79.8-89.4%; the content of mobile phosphorus 98-122; exchange potassium 97-99 mg / kg of soil (according to Chirikov). The underlying rocks are moraine loams of heavy mechanical composition.

The repetition of the experiment - three times, the arrangement of options is systematic, the area of plots - 125 m ² .

 The rate of introduction of ameliorants was calculated by hydrolytic acidity and amounted to one and a half value in the active substance (calcium carbonate).

Ammonium nitrate, double superphosphate, potassium salt were used as background fertilizers. Fertilizer doses were N ₁₂₀ P ₁₂₀ K ₁₂₀ .

 Meteorological conditions for the growth and development of crops according to years of research were generally favorable.

 The table shows that in the case of using the proposed lime fertilizer, the optimal values of soil acidity are characteristic for the entire growing season. An identical pattern corresponds to the dynamics of growth of the vegetative mass of sugar beet plants. Values of yield, sugar content and sugar collection on sugar beet crops are higher than in the case of using known lime fertilizers.

 In addition, the claimed calcareous fertilizer as an ameliorant has a strong aftereffect and supports the high agronomic efficiency of crops following crop rotation following sugar beet.

Claims (1)

Lime fertilizer for sugar beets, including defecate, which is a filter cake of sugar production, and calcium carbonate of chemical synthesis, characterized in that it additionally contains quicklime in the following ratio, wt.%: Quicklime 10-30 Defecate - filtration sugar precipitate 70-50 Calcium carbonate chemical synthesis

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