Author:
Pañeda José,Escudero Lucía,García Carmen,Álvarez Rodrigo,Martínez Cristina,Miranda Amanda,Soriano Elena,Ordóñez Almudena
Publisher
Springer Nature Switzerland
Reference17 articles.
1. Correa, J., Navarrete, A., Valenzuela, M., Zapata, V., Montserrat, S., Navarro, L., McPhee, J., & Caraballo, M. (2021). The role of local geochemical and mineralogical backgrounds as essential information to build efficient sediment quality guidelines at high-mountainous hydrothermally-altered basins (Mapocho basin, Chile). Science of the Total Environment, 785, 147266.
2. Delgado, J., Barba-Brioso, C., Nieto, J. M., Boski, T. (2011). Speciation and ecological risk of toxic elements in estuarine sediments affected by multiple anthropogenic contributions (Guadiana saltmarshes, SW Iberian Peninsula): I. Surficial sediments. Science of the Total Environment, 409, 3666–3679
3. Galán, E., Gómez-Ariza, J. L., González, I., Fernández-Caliani, J. C., Morales, E., & Giráldez, I. (2002). Heavy metal partitioning in river sediments severely polluted by acid mine drainage in the Iberian Pyrite Belt. Applied Geochemistry, 18, 409–421.
4. García-Ordiales, E., Loredo, J., Esbrí, J. M., Lominchar, M. A., Millán, R., & Higueras, P. (2014). Stream bottom sediments as a means to assess metal contamination in the historic mining district of Almadén (Spain). International Journal of Mining, Reclamation and Environment, 28(6), 357–376.
5. Gosar, M. (2008). Mercury in river sediments, floodplains and plants growing thereon in drainage area of Idrija Mine. Slovenia. Polish Journal of Environmental Studies, 17(2), 227–236.