Geochemical Characterization and Trace-Element Mobility Assessment for Metallic Mine Reclamation in Soils Affected by Mine Activities in the Iberian Pyrite Belt

Geochemical Characterization and Trace-Element Mobility Assessment for Metallic Mine Reclamation in Soils Affected by Mine Activities in the Iberian Pyrite Belt

The geochemical characterization of the mine deposits and soils in metal mining areas is essential in order to develop an effective mine reclamation strategy. The determination of total potentially toxic element (PTE) content, together with the application of chemical extraction procedures, can give...

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Main Authors: Ramón Sánchez-Donoso, Mari Luz García Lorenzo, José María Esbrí, Eva María García-Noguero, Pablo Higueras, Elena Crespo
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Geosciences
Subjects:
potentially toxic elements
mining activities
selective extractions
soil contamination
mine reclamation
Online Access:https://www.mdpi.com/2076-3263/11/6/233
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spelling doaj-83a9a09c5d0a4599a31f6386662220642021-06-01T01:36:53ZengMDPI AGGeosciences2076-32632021-05-011123323310.3390/geosciences11060233Geochemical Characterization and Trace-Element Mobility Assessment for Metallic Mine Reclamation in Soils Affected by Mine Activities in the Iberian Pyrite BeltRamón Sánchez-Donoso0Mari Luz García Lorenzo1José María Esbrí2Eva María García-Noguero3Pablo Higueras4Elena Crespo5Department of Geodynamics, Stratigraphy and Paleontology, Complutense University of Madrid (UCM), 28040 Madrid, SpainDepartment of Mineralogy and Petrology, Complutense University of Madrid (UCM), 28040 Madrid, SpainInstituto de Geología Aplicada (IGeA), Universidad de Castilla-La Mancha (UCLM), 13400 Almadén, SpainInstituto de Geología Aplicada (IGeA), Universidad de Castilla-La Mancha (UCLM), 13400 Almadén, SpainInstituto de Geología Aplicada (IGeA), Universidad de Castilla-La Mancha (UCLM), 13400 Almadén, SpainDepartment of Mineralogy and Petrology, Complutense University of Madrid (UCM), 28040 Madrid, SpainThe geochemical characterization of the mine deposits and soils in metal mining areas is essential in order to develop an effective mine reclamation strategy. The determination of total potentially toxic element (PTE) content, together with the application of chemical extraction procedures, can give insight into the behavior of contaminants after the application of different mine reclamation solutions, as well as identify the areas where urgent action is needed. This work presents a practical application to the evaluation of the pollution potential of trace elements in soils affected by mining activities, to be used in metallic mine reclamation. The PTE behavior was assessed by single extractions in order to simulate four environmental conditions: PTE mobility under rainfall conditions, acid mine drainage, reducing conditions, and plant uptake. The spatial distribution of contaminants in the study area was evaluated by determination of PTE total content in soil samples. Trace elements with high natural mobility, such as Zn, appeared concentrated at water and sediment discharge areas, while As, Pb, and Cu contents were higher near the mine wastes. The results obtained after the extractions suggested that the highest PTE content was extracted in the complexing–reducing medium, due to the dissolution of secondary sulfates and Fe<sup>3+</sup> oxyhydroxides and the subsequent release of PTEs associated with those mineral phases. Reclamation strategies applied in the study area should promote efficient water drainage, infiltration, and subsuperficial water circulation in order to maintain oxidant conditions in the soil. The methodology applied in this study may constitute a valuable tool to define the geochemical constraints in metal mining areas, as well as help to develop appropriate mine reclamation solutions.https://www.mdpi.com/2076-3263/11/6/233potentially toxic elementsmining activitiesselective extractionssoil contaminationmine reclamation
collection DOAJ
language English
format Article
sources DOAJ
author Ramón Sánchez-Donoso
Mari Luz García Lorenzo
José María Esbrí
Eva María García-Noguero
Pablo Higueras
Elena Crespo
spellingShingle Ramón Sánchez-Donoso
Mari Luz García Lorenzo
José María Esbrí
Eva María García-Noguero
Pablo Higueras
Elena Crespo
Geochemical Characterization and Trace-Element Mobility Assessment for Metallic Mine Reclamation in Soils Affected by Mine Activities in the Iberian Pyrite Belt
Geosciences
potentially toxic elements
mining activities
selective extractions
soil contamination
mine reclamation
author_facet Ramón Sánchez-Donoso
Mari Luz García Lorenzo
José María Esbrí
Eva María García-Noguero
Pablo Higueras
Elena Crespo
author_sort Ramón Sánchez-Donoso
title Geochemical Characterization and Trace-Element Mobility Assessment for Metallic Mine Reclamation in Soils Affected by Mine Activities in the Iberian Pyrite Belt
title_short Geochemical Characterization and Trace-Element Mobility Assessment for Metallic Mine Reclamation in Soils Affected by Mine Activities in the Iberian Pyrite Belt
title_full Geochemical Characterization and Trace-Element Mobility Assessment for Metallic Mine Reclamation in Soils Affected by Mine Activities in the Iberian Pyrite Belt
title_fullStr Geochemical Characterization and Trace-Element Mobility Assessment for Metallic Mine Reclamation in Soils Affected by Mine Activities in the Iberian Pyrite Belt
title_full_unstemmed Geochemical Characterization and Trace-Element Mobility Assessment for Metallic Mine Reclamation in Soils Affected by Mine Activities in the Iberian Pyrite Belt
title_sort geochemical characterization and trace-element mobility assessment for metallic mine reclamation in soils affected by mine activities in the iberian pyrite belt
publisher MDPI AG
series Geosciences
issn 2076-3263
publishDate 2021-05-01
description The geochemical characterization of the mine deposits and soils in metal mining areas is essential in order to develop an effective mine reclamation strategy. The determination of total potentially toxic element (PTE) content, together with the application of chemical extraction procedures, can give insight into the behavior of contaminants after the application of different mine reclamation solutions, as well as identify the areas where urgent action is needed. This work presents a practical application to the evaluation of the pollution potential of trace elements in soils affected by mining activities, to be used in metallic mine reclamation. The PTE behavior was assessed by single extractions in order to simulate four environmental conditions: PTE mobility under rainfall conditions, acid mine drainage, reducing conditions, and plant uptake. The spatial distribution of contaminants in the study area was evaluated by determination of PTE total content in soil samples. Trace elements with high natural mobility, such as Zn, appeared concentrated at water and sediment discharge areas, while As, Pb, and Cu contents were higher near the mine wastes. The results obtained after the extractions suggested that the highest PTE content was extracted in the complexing–reducing medium, due to the dissolution of secondary sulfates and Fe<sup>3+</sup> oxyhydroxides and the subsequent release of PTEs associated with those mineral phases. Reclamation strategies applied in the study area should promote efficient water drainage, infiltration, and subsuperficial water circulation in order to maintain oxidant conditions in the soil. The methodology applied in this study may constitute a valuable tool to define the geochemical constraints in metal mining areas, as well as help to develop appropriate mine reclamation solutions.
topic potentially toxic elements
mining activities
selective extractions
soil contamination
mine reclamation
url https://www.mdpi.com/2076-3263/11/6/233
work_keys_str_mv AT ramonsanchezdonoso geochemicalcharacterizationandtraceelementmobilityassessmentformetallicminereclamationinsoilsaffectedbymineactivitiesintheiberianpyritebelt
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AT pablohigueras geochemicalcharacterizationandtraceelementmobilityassessmentformetallicminereclamationinsoilsaffectedbymineactivitiesintheiberianpyritebelt
AT elenacrespo geochemicalcharacterizationandtraceelementmobilityassessmentformetallicminereclamationinsoilsaffectedbymineactivitiesintheiberianpyritebelt
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