Phytotoxicity of polymetallic mine wastes from southern Tuscany and Saxony

Phytotoxicity of polymetallic mine wastes from southern Tuscany and Saxony

Restoration potential of mine wastes or approaches to improve soil conditions and to ameliorate phytotoxicity on these sites may be simulated in standardized greenhouse experiments. Plants can be cultivated side by side on materials from different origins in dilution series with defined admixtures o...

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Bibliographic Details
Published in:Ecotoxicology and environmental safety Vol. 162; pp. 505 - 513
Main Authors: Franzaring, J., Ancora, S., Paoli, L., Fongoh, A.H., Büttner, P., Fangmeier, A., Schlosser, S., Monaci, F.
Format: Journal Article
Language:English
Published: Netherlands Elsevier Inc 30-10-2018
Subjects:
Buckwheat
Heavy metals
Mine wastes
Oilseed rape
Phytoremediation
Soil amendment
Oilseed rape
Mine wastes
Heavy metals
Buckwheat
Soil amendment
Phytoremediation
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Summary:Restoration potential of mine wastes or approaches to improve soil conditions and to ameliorate phytotoxicity on these sites may be simulated in standardized greenhouse experiments. Plants can be cultivated side by side on materials from different origins in dilution series with defined admixtures of certain aggregates. Mine wastes used in the present study originated from Fenice Capanne (FC, Tuscany, Italy) and Altenberg (ALT, Saxony, Germany). Tailings of the Italian site contain high concentrations of lead, zinc, arsenic and sulphur while tin, wolfram, molybdenum and lithium are highly elevated in the German mine waste. We tested growth responses of five crop species and analyzed concentrations of various metals and nutrients in the shoot to evaluate the toxicity of the FC mine waste and found oilseed rape being the most and corn the least resistant crop. Interestingly, oilseed rape accumulated seven times higher levels of lead than corn without showing adverse effects on productivity. In a subsequent comparison of FC and ALT mine waste, we cultivated different species of buckwheat (Fagopyrum spec.), a fast growing genus that evolved in mountain areas and that has been shown to be tolerant to low pH and high concentrations of metals. We found that the FC mine waste was more toxic than the ALT substrate in F. tataricum and F. esculentum. However, lower admixtures of FC material (10%) resulted in stronger growth reductions than higher proportions (25%) of the mine waste which was primarily related to the slightly lower pH and higher availability of essential metals due to the admixture of sand. These results confirm the importance of managing the soil chemical and physical characteristics of wastelands and call for the development of assisted reclamation to prepare sites for regular biomass production. [Display omitted] •A standard plant growth test was applied to mine wastes from Italy and Germany.•Oilseed rape and soybean tolerated high concentrations of sulphidic waste.•Oilseed rape had highest metal extraction rates and corn the lowest.•Annual buckwheat can be grown on diverse metal polluted soils.•Pot experiments clarify how wastelands can be amended for regular cultivation.
ISSN:0147-6513
1090-2414
DOI:10.1016/j.ecoenv.2018.07.034