Carbon Sources and Water-Rock Interactions in the Allier River, France

The Allier River is an important tributary of the Loire River, one of the major rivers in France. The Allier River presents both a natural environment upstream and a zone deeply impacted by mines and human activities. The δ13C and δ7Li combination show that the Allier River DIC is due to mixing of c...

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Veröffentlicht in:	Procedia earth and planetary science 2013, Vol.7, p.713-716
Hauptverfasser:	Rivé, K., Rad, S., Assayag, N.
Format:	Artikel
Sprache:	eng
Schlagworte:	Allier Carbon DIC Earth Sciences Environmental Sciences Geochemistry Global Changes Hydrothermalism Isotopes Lithium Sciences of the Universe Water rock interactions
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description	The Allier River is an important tributary of the Loire River, one of the major rivers in France. The Allier River presents both a natural environment upstream and a zone deeply impacted by mines and human activities. The δ13C and δ7Li combination show that the Allier River DIC is due to mixing of carbon from organic decay produced in a natural environment upstream, progressively enriched in DIC of anthropogenic origin downstream, and magmatic carbon inputs often associated with hydrothermal contributions.
doi_str_mv	10.1016/j.proeps.2013.03.120
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subjects	Allier Carbon DIC Earth Sciences Environmental Sciences Geochemistry Global Changes Hydrothermalism Isotopes Lithium Sciences of the Universe Water rock interactions
title	Carbon Sources and Water-Rock Interactions in the Allier River, France
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