Status of aluminium in environmental compartments contaminated by acidic mine water

Investigations were conducted to characterize aluminium in the affected stream and soils downstream of a mine site discharging acidic mine water. The water-borne Al exhibited a highly non-conservative behaviour at water pH below 3.8 in the 0–3.9 km reach and a much more conservative behaviour in the...

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Bibliographic Details
Published in:Journal of hazardous materials 2011-05, Vol.189 (3), p.700-709
Main Authors: Lu, Wenzhou, Ma, Yingqun, Lin, Chuxia
Format: Article
Language:English
Subjects:
Acid mine drainage
Acids - chemistry
Aluminium
Aluminum
Aluminum - analysis
Aluminum - chemistry
Applied sciences
China
clay
Correlation
Environmental Monitoring - methods
Environmental Pollutants
Exact sciences and technology
Floods
Geography
Hazardous materials
Hydrogen-Ion Concentration
Irrigation
irrigation water
Kinetics
Mine waters
Mining - methods
Models, Statistical
Pollution
Quality Control
sediments
Soil
soil pH
Soils
Stream
stream channels
Streambed sediment
Water
Water Pollutants - analysis
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Summary:Investigations were conducted to characterize aluminium in the affected stream and soils downstream of a mine site discharging acidic mine water. The water-borne Al exhibited a highly non-conservative behaviour at water pH below 3.8 in the 0–3.9 km reach and a much more conservative behaviour in the reaches with higher water pHs downstream of the 3.9 km station. The concentration of water-borne Al was higher at the medium flow event than at the flood event in the 0–9 km reach while the opposite was observed for the 16–56 km reach. Transport of Al associated with suspended materials was only observed during the flood event. The amount of Al carried by per unit weight of suspended particles was smaller in the 0–16 km reach than in the 25–56 km reach. The sediment-borne Al increased downstream with maximum Al accumulation occurred in the 25–29 km reach. The residual Al dominated Al fractions in the streambed sediments. The NH 4Cl-extractable Al in the affected soils decreased with increasing distance from the acidic irrigation water source. In contrast, both the water-extractable and total Al in the soils showed no clear distribution pattern. The NH 4Cl-extractable Al was closely correlated with soil acidity while neither total Al nor water-extractable Al was correlated with soil acidity. The vertical distribution of NH 4Cl-extractable Al was regulated by pH with certain influence from soil clay abundance.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2011.03.018