River banks and channels as hotspots of soil pollution after large-scale remediation of a river basin

Riparian areas are highly dynamic systems where the control of soil pollution might be particularly challenging. Limited accessibility to river banks and bed sediments makes reclamation operations particularly difficult in these topographical positions, in comparison to floodplains. This usually lea...

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Bibliographic Details
Published in:Geoderma 2016-01, Vol.261, p.133-140
Main Authors: Domínguez, M.T., Alegre, J.M., Madejón, P., Madejón, E., Burgos, P., Cabrera, F., Marañón, T., Murillo, J.M.
Format: Article
Language:English
Subjects:
Guadiamar
Heavy metals
Remediation
Soil acidification
Soil contamination
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Summary:Riparian areas are highly dynamic systems where the control of soil pollution might be particularly challenging. Limited accessibility to river banks and bed sediments makes reclamation operations particularly difficult in these topographical positions, in comparison to floodplains. This usually leads to the large-scale spread of pollutants following pollution episodes in riparian areas. Here, we aimed to evaluate the persistence of trace-element pollution in the soils of Guadiamar River Valley (SW Spain), a large-scale remediation after a mine-spill. We monitored topsoil along the river basin, and in different topographical positions across the river section (river channel, river banks and floodplain), 16years after a pollution episode and subsequent remediation program. River channels and banks were identified as hotspots of soil pollution, where soluble concentrations of As, Cd and Zn were significantly higher than in floodplains. Along the basin, soil pH and carbonate content was highly variable as a result of contrasted geological background, differential loads of sulfide deposition after the accident and irregular effectiveness of the applied amendments. Cadmium and Zn showed the highest levels of long-term re-distribution from the pollution source. The results suggests that the stabilization and remediation of soil pollution in river banks and channels, often overlooked when achieving remediation works, should be a priority for land managers. •The persistence of trace-element pollution was analyzed across river sections in a remediated river basin.•River channels and banks were identified as hotspots of soil pollution 16years after remediation.•The long-term immobilization of pollution was influenced by the background soil texture and pH conditions.•Cd and Zn were identified as the elements with the highest long-term re-distribution along the basin.•Land manager should focus on the stabilization of soil pollution in river channels and banks.
ISSN:0016-7061
1872-6259
DOI:10.1016/j.geoderma.2015.07.008