Journal
GEODERMA
Volume 289, Issue -, Pages 20-28Publisher
ELSEVIER
DOI: 10.1016/j.geoderma.2016.11.019
Keywords
Flooding-drying conditions; Mining wastes; Phytoremediation; Redox potential; Salt marsh
Categories
Funding
- Spanish Ministerio de Ciencia y Tecnologia [CGL2007-64915]
- Fundacion Seneca from the Murcia Region [08739/PI/08]
- Fundacion Ramon Areces
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This study aimed to assess the effectiveness of liming and Phragmites australis growth for the management of metal-polluted wetland soils under fluctuating water table levels. Soil columns (20 cm in diameter and 60 cm high) were constructed with two soil types (pH similar to 6.4 and pH similar to 3.1) and four treatments were assayed: with/without liming and with/without vegetation. The pH, Eh, EC, WSOC and soluble metals (Cd, Cu, Mn, Pb, Zn) were monitored at three depths: 5 (never under water), 30 (alternating flooding-drying conditions), and 55 (always under water) cm. In the slightly acidic soil liming decreased Cd, Mn and Zn soluble concentrations regardless of the hydric regime and the presence of Phragmites. However, it contributed to Cu and Pb mobilization under permanent flooding conditions (55 cm depth). In the non-liming treatments the presence of vegetation hindered the drop of Eh in the deepest 55 cm and contributed to maintain higher Cd solubility. In the strongly acidic soil liming decreased Cu, Cd, Pb and Zn soluble concentrations but not Mn. In this soil the presence of Phragmites contributed to higher soluble metal concentrations at 5 cm depth due to the capillary upward movement of water with solutes (salts and metals). Hence, it is not possible to establish an unique management strategy for metal-polluted hydric soils since the effectiveness of the remediation techniques will depend on the target metal, soil type, water level regime and presence/absence of vegetation. (C) 2016 Elsevier B.V. All rights reserved.
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