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Selected properties of cobalt-contaminated soil following the application of neutralising substances

Selected properties of cobalt-contaminated soil following the application of neutralising substances Abstract The aim of the study was to determine the influence of increasing cobalt soil contamination (0 mg·kg −1 , 20 mg·kg −1 , 40 mg·kg −1 , 80 mg·kg −1 , 160 mg·kg −1 , 320 mg·kg −1 ) after the application of neutralising substances on selected soil properties. In the soil without an addition of neutralising substances, the highest doses of cobalt caused the pH, total exchangeable bases, cation exchange capacity and the degree of base saturation to decrease and the hydrolytic acidity of soil to increase. Among the substances used, zeolite and calcium oxide (particularly) had the most advantageous influence on the analysed soil properties. They caused the pH, total exchangeable bases and cation exchange capacity to increase and the hydrolytic acidity to decrease. Among the other substances, it was charcoal that had the greatest influence on the soil properties, but the way it influenced the total exchangeable bases, the cation exchange capacity of soil and the degree of base saturation were opposite to the way calcium oxide influenced these properties. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Ochrona Srodowiska i Zasobów Naturalnych de Gruyter

Selected properties of cobalt-contaminated soil following the application of neutralising substances

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Publisher
de Gruyter
Copyright
Copyright © 2016 by the
ISSN
2353-8589
eISSN
2353-8589
DOI
10.1515/oszn-2016-0006
Publisher site
See Article on Publisher Site

Abstract

Abstract The aim of the study was to determine the influence of increasing cobalt soil contamination (0 mg·kg −1 , 20 mg·kg −1 , 40 mg·kg −1 , 80 mg·kg −1 , 160 mg·kg −1 , 320 mg·kg −1 ) after the application of neutralising substances on selected soil properties. In the soil without an addition of neutralising substances, the highest doses of cobalt caused the pH, total exchangeable bases, cation exchange capacity and the degree of base saturation to decrease and the hydrolytic acidity of soil to increase. Among the substances used, zeolite and calcium oxide (particularly) had the most advantageous influence on the analysed soil properties. They caused the pH, total exchangeable bases and cation exchange capacity to increase and the hydrolytic acidity to decrease. Among the other substances, it was charcoal that had the greatest influence on the soil properties, but the way it influenced the total exchangeable bases, the cation exchange capacity of soil and the degree of base saturation were opposite to the way calcium oxide influenced these properties.

Journal

Ochrona Srodowiska i Zasobów Naturalnychde Gruyter

Published: Mar 1, 2016

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    WYSZKOWSKA
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    KUMARI
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    MOGHADDAS
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    WYSZKOWSKI
  • Effects of pH Ionic Strength Temperature and Complexing Anions on the Sorption Behavior of Cobalt on Hydrous Silica Soil and Sediment Contamination
    PATHAK
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    FITAMO
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    STATSOFT
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    BAKKAUS
  • Revisiting copper and cobalt concentrations in supposed hyperaccumulators from influence of washing and metal concentrations in soil and
    FAUCON
  • Trace element chemistry in residual - treated soil : Key concept and metal bioavailability of Quality
    BASTA
  • Impact of soil quality on elemental uptake by and distribution in Colocasiaesculenta an edible Root of Part
    REDDY
  • HyperaccumulatorAlyssum muralerelies on different metal storage mechanism for cobalt than for nickel
    TAPPERO
  • The use of coal fly ash in sodic soil reclamation Degradation
    KUMARI
  • for analysis and evaluation of soil and plant properties
    OSTROWSKA
  • Effect of cadmium and magnesium on microbiological activity in soil
    WYSZKOWSKA
  • The effect of contamination with cadmium on spring barley vulgareL and its relationship with the enzymatic activity of soil
    WYSZKOWSKI
  • Use of Co speciation and soil properties to explain variation in Co toxicity to root growth of barley vulgareL in different soils
    MICO
  • Effects of pH Ionic Strength Temperature and Complexing Anions on the Sorption Behavior of Cobalt on Hydrous Silica Soil and Sediment Contamination
    PATHAK
  • Amelioration of phytotoxicity of cobalt by high phosphorus and its withdrawal in tomato of
    CHATTERJEE
  • data analysis software system version www statsoft com
    STATSOFT
  • and agricultural controls on the geochemical composition of European agricultural soils of Soils and
    SAALTINK
  • and bioavailability of cobalt to plants in a range of soils
    LI
  • Phytoavailability of Heavy Metals and Metalloids in Soils Irrigated with Wastewater Greenhouse Study Soil and Sediment Contamination
    FITAMO