Arsenic dynamics in soils placed near old mining sites in SE Spain

Carmen Pérez-Sirvent; Maria Jose Martínez Sánchez; Salvadora Martínez López; Lucia Belén Martínez Martínez; Carmen Hernández Pérez; Carmen Gomez Martinez; Manuel Hernández-Córdoba; Jaume Bech

doi:https://doi.org/10.5194/egusphere-egu22-10446

[Back] [Session SSS7.2]

EGU22-10446

https://doi.org/10.5194/egusphere-egu22-10446

EGU General Assembly 2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Arsenic dynamics in soils placed near old mining sites in SE Spain

Carmen Pérez-Sirvent¹, Maria Jose Martínez Sánchez¹, Salvadora Martínez López¹, Lucia Belén Martínez Martínez¹, Carmen Hernández Pérez¹, Carmen Gomez Martinez¹, Manuel Hernández-Córdoba², and Jaume Bech³

Carmen Pérez-Sirvent et al.

¹Department of Agricultural Chemistry, Geology and Pedology, University of Murcia, Faculty of Chemistry, Excellence Campus Mare Nostrum. Murcia, Spain (melita@um.es)
²Department of Analytical Chemistry, Faculty of Chemistry, University of Murcia, Excellence Campus Mare Nostrum. Murcia, Spain
³University of Barcelona. Barcelona. Spain.

Arsenic is a Potentially Toxic Element (PTE), which is present in the soils/sediments of abandoned mining areas, such as the Sierra Minera de Cartagena La-Unión and the mining site of Mazarron (SE Spain) and its areas of influence. In order to assess the risk to human health and the ecosystem, it is necessary to know the nature of the materials that contain this PTE, their alterability and their speciation.

On the one hand, there is a geogenic relationship between this element and materials rich in phyllosilicates and Fe minerals. These minerals can constitute primary mineralisation such as sulphide veins (pyrite, arsenopyrite, etc.) or secondary mineralisation such as haematite, goethite, siderite, jarosite, etc., and can even be found as a mineral phase forming various arsenates. Another very important aspect is the climatology of the area, which coincides with a semi-arid Mediterranean climate with infrequent but very heavy rainfall.

The As concentration range in the studied areas is very wide (5000 -70 mg.Kg-¹), with an average value of 150 mg.Kg^-1, being As (V) the predominant species. Only soils located in wetland areas with permanent waterlogging can show significant concentrations of As(III).

The As content in surface waters, such as runoff water, is low, only reaching significant values (>2 mg.L^-1) when these waters are acid mine drainage and have pH values <2, coinciding in these cases with the presence of reduced As forms.

Particulate As is associated both with Fe oxides and hydroxides, through surface adsorption processes on Fe(OH)₃ particles, and with carbonates, through precipitation reactions as calcium arsenate. These reactions are evident in some places such as wadis that transport particulate and dissolved materials from areas affected by mining, and mainly take place both in the riverbed and in flooding areas when rainfall events occur.

For an appropriate understanding of the main processes involved, a detailed scheme is given. It should be noted that the dynamics of this PTE is of a particular interest in the zones studied due to the proximity of urban sites.

How to cite: Pérez-Sirvent, C., Martínez Sánchez, M. J., Martínez López, S., Martínez Martínez, L. B., Hernández Pérez, C., Gomez Martinez, C., Hernández-Córdoba, M., and Bech, J.: Arsenic dynamics in soils placed near old mining sites in SE Spain, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-10446, https://doi.org/10.5194/egusphere-egu22-10446, 2022.