Effect of the Degree of Soil Contamination with Heavy Metals on Their Mobility in the Soil Profile in a Microplot Experiment

Effect of the Degree of Soil Contamination with Heavy Metals on Their Mobility in the Soil Profile in a Microplot Experiment

Adjusting Polish law to EU standards, many studies were started in the 1990s on the harmfulness of presumably contaminating elements (PCE) to the environment and the quality of plants intended produced for food purposes. For this reason, in 1987, a unique microplate experiment was established on nat...

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Main Authors: Dorota Pikuła, Wojciech Stępień
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Agronomy
Subjects:
soil pollution level
presumably contaminating elements (PCE)
organic carbon
heavy metal mobility
heavy metals in soil profiles
Online Access:https://www.mdpi.com/2073-4395/11/5/878
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spelling doaj-962f83d2acf84c4f85b94f07ec5f5bea2021-04-29T23:03:00ZengMDPI AGAgronomy2073-43952021-04-011187887810.3390/agronomy11050878Effect of the Degree of Soil Contamination with Heavy Metals on Their Mobility in the Soil Profile in a Microplot ExperimentDorota Pikuła0Wojciech Stępień1Institute of Soil Science and Plant Cultivation—State Research Institute in Puławy, Department of Plant Nutrition and Fertilization, Czartoryskich 8, 24-100 Puławy, PolandInstitute of Agriculture, Independent Department of Agricultural Chemistry, Warsaw University of Life Sciences—SGGW, Nowoursynowska 159, 02-776 Warsaw, PolandAdjusting Polish law to EU standards, many studies were started in the 1990s on the harmfulness of presumably contaminating elements (PCE) to the environment and the quality of plants intended produced for food purposes. For this reason, in 1987, a unique microplate experiment was established on natural soils artificially contaminated with copper, zinc, lead and cadmium oxides (up to the pollution level of class I, II and III). The soils were diversified in terms of pH (through liming), organic matter content (through the addition of brown coal) and the grain size composition of the humus level (Ap) (strong clay sand and light silt clay). After 14 years from the introduction of different rates of metals into the top layer (0–30 cm) of the two soils studied, relatively large movement of heavy metals in the soil profile occurred. The amount of leached metals depended mainly on the rate of a given element. The more contaminated was the soil was, the heavier the metals that leached to lower genetic levels of soil. Contaminated soils always had a higher concentration of individual metals in Et than in Bt level. The content of the tested metals in the Et layer was determined in HCl (1 mol·dm<sup>−3</sup>) and compared to the humus level. Only at the soil depth below 50 cm (Bt), the content of the studied metals’ forms was much lower than in the surface levels. The calculated mobility coefficients of the tested metals determined in 1 M HCl indicate a larger movement of the tested metals in lighter soils than in medium soils. The highest displacement coefficients were obtained for cadmium, while the lowest were for lead. An increase in mobility was obtained alongside an increase in soil contamination with the heavy metals studied. By analyzing the mobility coefficients (heavy metal increase in the Bt and Et layers), they can be ranked in the following decreasing sequence: on light soils: Cd > Cu > Zn > Pb and on medium soils: Cd > Zn > Pb > Cu.https://www.mdpi.com/2073-4395/11/5/878soil pollution levelpresumably contaminating elements (PCE)organic carbonheavy metal mobilityheavy metals in soil profiles
collection DOAJ
language English
format Article
sources DOAJ
author Dorota Pikuła
Wojciech Stępień
spellingShingle Dorota Pikuła
Wojciech Stępień
Effect of the Degree of Soil Contamination with Heavy Metals on Their Mobility in the Soil Profile in a Microplot Experiment
Agronomy
soil pollution level
presumably contaminating elements (PCE)
organic carbon
heavy metal mobility
heavy metals in soil profiles
author_facet Dorota Pikuła
Wojciech Stępień
author_sort Dorota Pikuła
title Effect of the Degree of Soil Contamination with Heavy Metals on Their Mobility in the Soil Profile in a Microplot Experiment
title_short Effect of the Degree of Soil Contamination with Heavy Metals on Their Mobility in the Soil Profile in a Microplot Experiment
title_full Effect of the Degree of Soil Contamination with Heavy Metals on Their Mobility in the Soil Profile in a Microplot Experiment
title_fullStr Effect of the Degree of Soil Contamination with Heavy Metals on Their Mobility in the Soil Profile in a Microplot Experiment
title_full_unstemmed Effect of the Degree of Soil Contamination with Heavy Metals on Their Mobility in the Soil Profile in a Microplot Experiment
title_sort effect of the degree of soil contamination with heavy metals on their mobility in the soil profile in a microplot experiment
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2021-04-01
description Adjusting Polish law to EU standards, many studies were started in the 1990s on the harmfulness of presumably contaminating elements (PCE) to the environment and the quality of plants intended produced for food purposes. For this reason, in 1987, a unique microplate experiment was established on natural soils artificially contaminated with copper, zinc, lead and cadmium oxides (up to the pollution level of class I, II and III). The soils were diversified in terms of pH (through liming), organic matter content (through the addition of brown coal) and the grain size composition of the humus level (Ap) (strong clay sand and light silt clay). After 14 years from the introduction of different rates of metals into the top layer (0–30 cm) of the two soils studied, relatively large movement of heavy metals in the soil profile occurred. The amount of leached metals depended mainly on the rate of a given element. The more contaminated was the soil was, the heavier the metals that leached to lower genetic levels of soil. Contaminated soils always had a higher concentration of individual metals in Et than in Bt level. The content of the tested metals in the Et layer was determined in HCl (1 mol·dm<sup>−3</sup>) and compared to the humus level. Only at the soil depth below 50 cm (Bt), the content of the studied metals’ forms was much lower than in the surface levels. The calculated mobility coefficients of the tested metals determined in 1 M HCl indicate a larger movement of the tested metals in lighter soils than in medium soils. The highest displacement coefficients were obtained for cadmium, while the lowest were for lead. An increase in mobility was obtained alongside an increase in soil contamination with the heavy metals studied. By analyzing the mobility coefficients (heavy metal increase in the Bt and Et layers), they can be ranked in the following decreasing sequence: on light soils: Cd > Cu > Zn > Pb and on medium soils: Cd > Zn > Pb > Cu.
topic soil pollution level
presumably contaminating elements (PCE)
organic carbon
heavy metal mobility
heavy metals in soil profiles
url https://www.mdpi.com/2073-4395/11/5/878
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