Hydrogeochemical and environmental water quality standards in the overlap between high mountainous natural protected areas and copper mining activities (Mapocho river upper basin, Santiago, Chile)
Author
dc.contributor.author
Valenzuela Díaz, Martín
Author
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Navarrete Calvo, Álvaro
Author
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Caraballo Monge, Manuel
Author
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McPhee, James
Author
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García, Andreina
Author
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Correa Burrows, José Pablo
Author
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Navarro Valdivia, Leonardo
Admission date
dc.date.accessioned
2021-02-16T17:47:48Z
Available date
dc.date.available
2021-02-16T17:47:48Z
Publication date
dc.date.issued
2020
Cita de ítem
dc.identifier.citation
Journal of Hydrology 588 (2020) 125063
es_ES
Identifier
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10.1016/j.jhydrol.2020.125063
Identifier
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https://repositorio.uchile.cl/handle/2250/178440
Abstract
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Natural hydrogeochemical backgrounds or signatures from rivers around the world show great differences depending on the geological and hydrological settings where the specific watershed is placed. This fact is especially
relevant and notorious, when the metallic content of waters draining hydrothermally-altered high-mountainous
regions is considered. The present study offers a hydrogeochemical perspective to improve the generation of
Environmental Water Quality Standards (EWQS) in mineralized high mountain regions comprised by rivers
unaffected and affected by acid rock drainage (ARD). To this end, the complex and versatile reality at the
Mapocho river upper basin (comprised by a natural ARD affected sub-basin, a mining intervened sub-basin and a
third sub-basin with Andean unaffected waters) was used to evaluate the effect of seasonal and long-term climatic variations on hydrothermally-altered high-mountainous regions.
In addition, 22 different environmental water quality standards (EWQS) from different countries around the
globe were analyzed. This information was used to define what could be understood as “an acceptable water
quality for environmental use”. Also, the obtained elemental concentration and physicochemical ranges were
compared with the results obtained at the Mapocho upper basin to assess the importance of regional and local
geochemical backgrounds on the generation of EWQS. As a result of this information generation, compilation,
analyses and intercomparison, several recommendations to consider during the generation of EWQS at heterogenous high mountainous watersheds comprised by both ARD affected and unaffected sub basins were made.
Special attention was paid to the incorporation of seasonal variations and long-term effects (climate change) on
the generation of more realistic and useful EWQS.
es_ES
Patrocinador
dc.description.sponsorship
Advanced Mining Technology Center (AMTC) through the project CONICYT/PIA Project
AFB180004
Hydrogeochemical and environmental water quality standards in the overlap between high mountainous natural protected areas and copper mining activities (Mapocho river upper basin, Santiago, Chile)