La base de ressources documentaires de l'IRD
Publications des scientifiques de l'IRD
Tapia J., Audry S., Townley B., Duprey Jean-Louis. Geochemical background, baseline and origin of contaminants from sediments in the mining-impacted Altiplano and Eastern Cordillera of Oruro, Bolivia. Geochemistry. Exploration Environment Analysis, 2012, 12 (1), p. 3-20. ISSN 1467-7873
doi:10.1144/1467-7873/10-ra-049
| Titre | Geochemical background, baseline and origin of contaminants from sediments in the mining-impacted Altiplano and Eastern Cordillera of Oruro, Bolivia |
| Année de publication | 2012 |
| Type de document | Article référencé dans le Web of Science WOS:000300839800001 |
| Auteurs | Tapia J., Audry S., Townley B., Duprey Jean-Louis. |
| Source | Geochemistry. Exploration Environment Analysis, 2012, 12 (1), p. 3-20. ISSN 1467-7873 |
| Résumé | Oruro, located in the Bolivian Altiplano, has been subjected to intense mining and smelting activities since Colonial times (17th Century), yet the current geochemical composition of sediments and trace element behavior is practically unknown. A collection of 91 sediment samples retrieved from five sedimentary cores from Lake Uru Uru (Altiplano) and Cala Cala Lagoon (Eastern Cordillera) subjected to a total digestion technique, with a compilation of a pre-existing database of trace element concentrations in soils and lacustrine sediments obtained from the Oruro Pilot Project (PPO), facilitated the proposal of geochemical backgrounds and a present-time baseline for As, Cd, Cu, Pb, Sb and Zn in sediments from this area. Results obtained by statistics and geographical information system (GIS) analyses showed that the natural geochemical backgrounds of As and Sb are significantly enhanced in comparison to the Upper Continental Crust (UCC) concentrations, world background levels, and those of industrial sites and historical mining sites. The use of a local enrichment factor (EF) normalized by the mean concentration within the Cala Cala lagoon (CCLAC) demonstrated that using UCC concentrations to calculate EFs (EFUCC) is inadequate for this highly mineralized environment and therefore is not supported. Regarding metals and metalloids, the strong multiplicity of sources in this environment makes it difficult to discriminate between natural and anthropogenic inputs into this endorheic drainage basin, although it is suggested that surficial soils are probably impacted by airborne particulates dispersed from the Vinto (Sb-Sn) smelter, while Lake Uru Uru is influenced by mining activities, particularly drainage waste of the San Jose and Huanuni mines. As a final contribution, a geochemical background and a present-time baseline for Bolivian highlands sediments are provided, which will be helpful for the improvement of environmental legislation and for the future interpretation of geochemistry data in contamination and/or pollution studies in the altiplanic area. |
| Plan de classement | 064 |
| Localisation | Fonds IRD |
| Identifiant IRD | PAR00008549 |
| Lien permanent | http://www.documentation.ird.fr/hor/PAR00008549 |
|
Accès direct Espace intranet IST (accès réservé) |
Services Horizon |
Centres de documentation |