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Effects of organic/inorganic amendments on trace elements dispersion by leachates from sulfide-containing tailings of São Domingos mine, Portugal. Time evaluation
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Orientador(es)
Resumo(s)
Greenhouse pot experiments were conducted over 13 months to evaluate the effect of two amendment mixture
doses (30 and 75 Mg/ha) on the geochemical dispersion of trace elements by leaching hazardous mine wastes
from the São Domingos mine. Mineralogical evolution of these materials was also evaluated. Amendment mixtures
containing solid wastes from agriculture (plant remains + strawberry substrate and rockwool used for
the strawberry crop) and fromdistillation of Ceratonia siliqua L. and Arbutus unedo L. fruitswere used to improve
the chemical characteristics of leachates fromsulfide minewastes. Sulfide mine wastes had acidic characteristics,
aswell as high electrical conductivity and total element concentrations (g/kg; Al: 54.8–61.2; Fe: 104.0–110.0; Pb:
9.0–13.8; S: 63.6–68.0; As: ≈1). These features contributed to the large capacity for leaching of hazardous elements
during, at least, the first fourmonths of incubation. In the seventh month of incubation, therewas a significant
decrease in the leachate concentration of the majority of hazardous elements. The addition of amendments
minimised trace element dispersion in leachate percolation during the first seven months (25 to 99% reduction
compared to control, depending on the element and sampling period). However, the leachate characteristics
were not influenced by amendment doses and no significant differences were observed in leachate composition
(control and amended treatments) after 13 months. Amendment application led to differences between the solid
phases of the efflorescent salts formed on the surface of the control and the amended treatments. The efflorescent
salts contained very soluble aluminium sulfates, together with alunite–jarosite-group solid phases in amended
samples, and copiapite-group solid phases in control. In the core materials (5 to 10 cmin depth), themineralogy
was similar in both control and amended samples. The presence of various stable solid phases from alunite–
jarosite-group, such as jarosite and beudantite (mainly in deeper materials), can explain the low concentrations
of trace elements in the leachates after thirteen months
Descrição
Palavras-chave
alunite-jarosite-group arsenic copiapite group lead percolation leachates
Contexto Educativo
Citação
"Geoderma". ISSN 0016-7061. 226-227 (2014) p. 188-203
Editora
Elsevier