Phytotoxicity of tin mine waste deposits and accumulation of involved heavy metals in Common Buckwheat (Fagopyrum esculentum MOENCH)
- Publication Type
- Journal contribution (peer reviewed)
- Authors
- Franzaring, J., Damsohn, W., Fangmeier, A., Schlosser, S., Kurz, H., Büttner, P.
- Year of publication
- 2018
- Published in
- International Journal of Phytoremediation
- Band/Volume
- 20/
- DOI
- 10.1080/15226514.2017.1365349
- Page (from - to)
- 462-470
Extraction and processing of cassiterite (SnO2) left large tailings with high concentrations of tin, tungsten, molybdenum and lithium. Information on the phytotoxicity of mine waste is important with regard to ecological hazards. Exposure studies help to identify plants useful for the stabilization of waste tips and the phytomining of metals. A greenhouse study was performed using a dilution series of mine waste and four crops, a halophytic and a metallophytic species to derive dose response curves. Based on effective doses for growth reductions, sensitivity increased in the following order: maize > common buckwheat > quinoa > garden bean. Element analyses in different species and compartments of common buckwheat grown in a mixture of standard soil and 25% of the mine waste showed that only low levels of the metals were taken up and that transfer to seed tissues was negligible. As indicated by soil metal levels prior to and after the experiment, only lithium and arsenic proved to be plant available and reached high levels in green tissues while seed levels were low. The experiment confirmed differences in the uptake of metals with regard to elements and species. Common buckwheat is a suited candidate for cultivation on metal polluted soils.