Sorption and Desorption of Vanadate, Arsenate and Chromate by Two Volcanic Soils of Equatorial Africa

Sorption of oxyanions by soils and mineral surfaces is of interest due to their role as nutrients or pollutants. Volcanic soils are variable charge soils, rich in active forms of aluminum and iron, and capable of sorbing anions. Sorption and desorption of vanadate, arsenate, and chromate by two Afri...

Full description

Saved in:
Bibliographic Details
Published inSoil systems Vol. 5; no. 2; p. 22
Main Authors Gonzalez-Rodriguez, Sara, Fernandez-Marcos, Maria Luisa
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.04.2021
Subjects
Adsorption
Aluminum
andosol
andosols
Anions
Arsenates
Arsenic
Chromate
Chromates
Crystal structure
Crystallinity
Desorption
Environmental risk
Iron
Isotherms
Mass spectrometry
Mass spectroscopy
Mathematical models
Minerals
Nutrients
oxyanions
Pesticides
Pollutants
potentially toxic elements
Sediment pollution
Sediments
Silandic Andosol
Soil contamination
Soil pollution
Sorption
Vanadate
Vanadates
Vitric Andosol
Volcanic soils
Waste disposal
Africa
Rwanda
Online AccessGet full text

Cover

More Information
Summary:Sorption of oxyanions by soils and mineral surfaces is of interest due to their role as nutrients or pollutants. Volcanic soils are variable charge soils, rich in active forms of aluminum and iron, and capable of sorbing anions. Sorption and desorption of vanadate, arsenate, and chromate by two African andosols was studied in laboratory experiments. Sorption isotherms were determined by equilibrating at 293 K soil samples with oxyanion solutions of concentrations between 0 and 100 mg L−1 V, As, or Cr, equivalent to 0−2.0 mmol V L−1, 0−1.3 mmol As L−1, and 0−1.9 mmol Cr L−1, in NaNO3; V, As, or Cr were determined by ICP-mass spectrometry in the equilibrium solution. After sorption, the soil samples were equilibrated with 0.02 M NaNO3 to study desorption. The isotherms were adjusted to mathematical models. After desorption with NaNO3, desorption experiments were carried out with a 1 mM phosphate. The sorption of vanadate and arsenate was greater than 90% of the amount added, while the chromate sorption was much lower (19–97%). The sorption by the Silandic Andosol is attributed to non-crystalline Fe and Al, while in the Vitric Andosol, crystalline iron species play a relevant role. The V and Cr sorption isotherms fitted to the Freundlich model, while the As sorption isotherms conformed to the Temkin model. For the highest concentrations of oxyanions in the equilibrating solution, the sorbed concentrations were 37–38 mmol V kg−1, 25 mmol As kg−1, and 7.2–8.8 mmol Cr kg−1. The desorption was low for V and As and high for Cr. The comparison of the sorption and desorption isotherms reveals a pronounced hysteresis for V in both andosols and for Cr in the Silandic Andosol. Phosphate induced almost no V desorption, moderate As desorption, and considerable Cr desorption.
ISSN:2571-8789
2571-8789
DOI:10.3390/soilsystems5020022