Hydrochemical variations and contaminant load in the Río Tinto (Spain) during flood events

The aim of this work is to study the hydrochemical variations during flood events in the Río Tinto, SW Spain. Three separate rainfall/flood events were monitored in October 2004 following the dry season. In general, concentrations markedly increased following the first event (Fe from 99 to 1130 mg/L...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2008-02, Vol.350 (1), p.25-40
Main Authors: Cánovas, C.R., Hubbard, C.G., Olías, M., Nieto, J.M., Black, S., Coleman, M.L.
Format: Article
Language:English
Subjects:
AMD
copper
Earth sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Exact sciences and technology
Flood events
floods
Freshwater
Geochemistry
hydrochemistry
Hydrology
Hydrology. Hydrogeology
inorganic salts
iron
magnesium
Metal load
metals
Mineralogy
pollutants
Pollution, environment geology
rivers
Río Tinto
Silicates
sulfates
Water geochemistry
water pollution
watershed hydrology
watersheds
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Summary:The aim of this work is to study the hydrochemical variations during flood events in the Río Tinto, SW Spain. Three separate rainfall/flood events were monitored in October 2004 following the dry season. In general, concentrations markedly increased following the first event (Fe from 99 to 1130 mg/L; Q max = 0.78 m 3/s) while dissolved loads peaked in the second event (Fe = 7.5 kg/s, Cu = 0.83 kg/s, Zn = 0.82 kg/s; Q max = 77 m 3/s) and discharge in the third event ( Q max = 127 m 3/s). This pattern reflects a progressive depletion of metals and sulphate stored in the dry summer as soluble evaporitic salt minerals and concentrated pore fluids, with dilution by freshwater becoming increasingly dominant as the month progressed. Variations in relative concentrations were attributed to oxyhydroxysulphate Fe precipitation, to relative changes in the sources of acid mine drainage (e.g. salt minerals, mine tunnels, spoil heaps etc.) and to differences in the rainfall distributions along the catchment. The contaminant load carried by the river during October 2004 was enormous, totalling some 770 t of Fe, 420 t of Al, 100 t of Cu, 100 t of Zn and 71 t of Mn. This represents the largest recorded example of this flush-out process in an acid mine drainage setting. Approximately 1000 times more water and 140–8200 times more dissolved elements were carried by the river during October 2004 than during the dry, low-flow conditions of September 2004, highlighting the key role of flood events in the annual pollutant transport budget of semi-arid and arid systems and the need to monitor these events in detail in order to accurately quantify pollutant transport.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2007.11.022