Moquet J. S., Maurice Laurence, Crave A., Viers J., Arevalo N., Lagane Christelle, Lavado-Casimiro W., Guyot Jean-Loup. (2014). Cl and Na fluxes in an Andean foreland basin of the Peruvian Amazon : an anthropogenic impact evidence. Aquatic Geochemistry, 20 (6), p. 613-637. ISSN 1380-6165.
Titre du document
Cl and Na fluxes in an Andean foreland basin of the Peruvian Amazon : an anthropogenic impact evidence
Moquet J. S., Maurice Laurence, Crave A., Viers J., Arevalo N., Lagane Christelle, Lavado-Casimiro W., Guyot Jean-Loup
Source
Aquatic Geochemistry, 2014,
20 (6), p. 613-637 ISSN 1380-6165
The dissolved load of the Amazon River is generally considered to be lowly impacted by anthropogenic activities. In this work, based on the chemical and hydrological database of the Environmental Research Observatory-HYBAM (http://www.ore-hybam.org), we explore the importance of the Peruvian Foreland petroleum activity on the dissolved Na and Cl fluxes of the Amazon River. The main result of this study allows us suggesting that oil extraction activity, concentrated in the El Tigre River basin, a small foreland watershed in the Peruvian Amazon, influenced drastically the Na and Cl exportation of the Amazon River during the 2006-2007 period. During these years, the dissolved exportations of this basin represented almost 20 % of the annual dissolved Cl Amazon flux and almost 12 % of the annual dissolved Na Amazon flux for a mean annual discharge1 % of the Amazon River discharge. Since the last decades, the anthropogenic activities are increasing over the whole Amazon basin, especially in Andean countries. In this context, our results demonstrate that extractive activity cannot be considered as negligible on the hydro-chemistry of the Amazonian Rivers especially for the weathering budget estimation based on river-dissolved loads. Moreover, Cl and Na can be used to trace the formation waters derived from oil extraction at a large spatial scale. The environmental impacts of contaminants associated with deep water released to the hydrosystem (polycyclic aromatics hydrocarbons, metallic trace elements, etc.) at local and regional scales are still underestimated and should be monitored to map their local and regional influence and to prevent their risks on human health.
Plan de classement
Hydrologie [062]
;
Géologie et formations superficielles [064]
