Monitoring acidic water in a polluted river with hyperspectral remote sensing (HyMap)

Sulphide mine waste extensively contaminates the Odiel River (southwest Spain), releasing sulphuric acid into the water body. Acidic water in this river precipitates and dissolves variably hydrated iron sulphate in a complex geological pattern controlled by climate. Local abrupt changes in the water...

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Bibliographic Details
Published in:Hydrological sciences journal 2015-06, Vol.60 (6), p.1064-1077
Main Authors: Riaza, A., Buzzi, J., García-Meléndez, E., Carrère, V., Sarmiento, A., Müller, A.
Format: Article
Language:English
Subjects:
acid mine drainage
Contamination
drainage minier acide
Hydrology
HyMap
hyperspectral remote sensing
Mine wastes
pollution des rivières
Remote sensing
river pollution
Rivers
Spectra
Sulfides
télédétection hyperspectrale
Vegetation
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Summary:Sulphide mine waste extensively contaminates the Odiel River (southwest Spain), releasing sulphuric acid into the water body. Acidic water in this river precipitates and dissolves variably hydrated iron sulphate in a complex geological pattern controlled by climate. Local abrupt changes in the water pH in the vicinity of highly contaminated tributaries can be mapped by means of imaging spectroscopy using hyperspectral remote sensing (HyMap) data. Also, increased pH through mixing of acidic river water with marine water can be detected when the river reaches the area influenced by sea tides. Mapping the quality of water with hyperspectral data is confounded by vegetation, either dry or wet, rooted or floating. The spectral features of acidic water measured with a field spectrometer revealed the spectral influence of green vegetation, similar to the influence of the depth and transparency of water. Careful mapping of such parameters with HyMap data must therefore precede any spectral evaluation of water related to acidity in a river course. The spectral features detectable by HyMap data and associated with pH changes caused by contamination in river water by iron sulphide mine waste, and their controls, are described and references established for routine monitoring through hyperspectral image processing.
ISSN:0262-6667
2150-3435
DOI:10.1080/02626667.2014.899704