A. V. Litvinovich scite author profile

The results of 8-variable column experiment on a strongly acidic sod-podzolic sandy loam reclaimed by the finely ground dolomite in a wide dose range are presented. The aim of the research was to measure and estimate leaching of magnesium (Mg) and its migration pattern. The dolomite powder at the different doses calculated by hydrolytic acidity (Hy) was applied at 225, 337.5, 450, 675, 900, 1350 and 1800 mg, that corresponded to 0.5, 0.75, 1.0, 1.5, 2.0, 3.0 and 4.0 Hy, respectively. The migratory ability of Mg was studied in 12-times washing column experiment. Each washing was carried out by 400 ml distilled water, simulating the volume of annual precipitation percolating through the soil stratum yearly. The increase in the amount of leaked moisture contributed to the enhancement of the eluvial losses of Mg. The maximum loss of Mg due to migration was established in the filtrates of the first washing. As the dose of dolomite increased, the amount of the soil Mg migrating with the total amount of Mg decreased from 27% to 7.5%. Complete removal of water-soluble Mg from the soil was not achieved in any of the studied treatments. Applied empirical estimations correctly described the process of leaching of Mg during repeated washing of the soil. Based on the data on the amount of leached Mg from soil reclaimed by a wide range of dolomite doses, a clustering of the empirical equations was performed. It was shown that in the 1 st stage of the experiment (from 1 to 4 washings) the rate of Mg leaching increased significantly with an increase in the dose of the dolomite. In the 2 nd stage (4 to 12 washings) such a pattern was not established. Depending on the dolomite dose applied, the losses of Mg increased from 14.05 to 50.6 mg compared to 3.8 mg in the non-limed (control) treatment. The main finding is that finely ground dolomite in an amount exceeding a full dose calculated by 1 Hy applied to sod-podzolic forest soil resulted in unproductive losses of Mg, i.e., with increasing dolomite dose, the losses of Mg increased.

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Utilization of Large-Sized Dolomite By-Product Particles and Losses of Cations from Acidic Soil

Litvinovich

Salaev

Pavlova

et al. 2019

Communications in Soil Science and Plant Analysis

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Strontium dynamics in soil and assimilation by plants during dissolution of conversion chalk

Lavrishchev

Litvinovich

Bure

et al. 2018

BioComm

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In an experiment carried out on Soddy-podzolic soil, limed with conversion chalk in a wide range of doses, the rate of dissolution of strontium-containing chalk and its effect on soil and plant were studied. Here we show that the complete decomposition of chalk applied to soil is achieved in the 3-4 years after its application. Increase in the concentration of plant available strontium in soil lasts until the chalk is completely dissolved. The dose of applied chalk determined the assimilation of strontium by rapeseed plants. We have found differences in accumulation of strontium by rapeseed in the year of application of chalk and in the third and fourth year of its aftereffect. We conclude that chalkmeliorated soil will generate strontium streams into plants for a longer period. We further propose empirical models that adequately describe: a) the processes of chalk dissolution in the soil; b) the dynamics of the content of strontium compounds accessible to plants in the process of interaction between chalk and soil; c) strontium accumulation in vegetative mass of rapeseed at different stages of chalk dissolution.

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The migration capacity of stable strontium in soddy-podzolic soils of the Russian Northwest (Data of simulation experiments)

et al. 2008

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GRAIN PRODUCTION AND OPTICAL CHARACTERISTICS IN THREE WHEAT (Triticum aestivum L.) VARIETIES UNDER LIMING AND NITROGEN FERTILIZATION

Kanash¹,

Litvinovich²,

Kovleva³

et al. 2018

S-h. biol.

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Contamination of the Agroecosystem with Stable Strontium Due to Liming: An Overview and Experimental Data

Lavrishchev

Litvinovich

Pavlova

et al. 2021

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A. V. Litvinovich

Changes in the humus status of a layland sandy gleyic soddy-podzolic soil

Dynamics of Soil pH after Utilization of By-products of Industrial Rock Processing as a Calcareous Material in Acid Soils

Magnesium leaching processes from sod-podzolic sandy loam reclaimed by increasing doses of finely ground dolomite

Utilization of Large-Sized Dolomite By-Product Particles and Losses of Cations from Acidic Soil

Strontium dynamics in soil and assimilation by plants during dissolution of conversion chalk

The migration capacity of stable strontium in soddy-podzolic soils of the Russian Northwest (Data of simulation experiments)

GRAIN PRODUCTION AND OPTICAL CHARACTERISTICS IN THREE WHEAT (Triticum aestivum L.) VARIETIES UNDER LIMING AND NITROGEN FERTILIZATION

Contamination of the Agroecosystem with Stable Strontium Due to Liming: An Overview and Experimental Data

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