期刊
CHEMOSPHERE
卷 147, 期 -, 页码 430-438出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.chemosphere.2015.12.094
关键词
Mercury; Isotopic tracing; Sediments; Lichens; Almaden mining district
资金
- Castilla-La Mancha Government
- European Social Fund [09/02-B]
- CNRS (INEE)
- Universite de Pau et des Pays de l'Adour [ED211]
- Spanish Ministry of Economy and Competitiveness [CTQ2013-48411-P]
Variations in mercury (Hg) isotopic compositions have been scarcely investigated until now in the Almaden mining district (Spain), which is one of the most impacted Hg areas worldwide. In this work, we explore and compare Hg isotopic signatures in sediments and lichens from Almaden mining district and its surroundings in order to identify and trace Hg aquatic and atmospheric contamination sources. No statistically significant mass independent fractionation was observed in sediments, while negative Delta Hg-201 values from -0.12 to -0.21 parts per thousand (2SD = 0.06 parts per thousand) were found in lichens. A large range of delta Hg-202 values were reported in sediments, from -1.86 +/- 0.21 parts per thousand in La Serena Reservoir sites far away from the pollution sources to delta Hg-202 values close to zero in sediments directly influenced by Almaden mining district, whereas lichens presented delta Hg-202 values from -1.95 to -0.40 parts per thousand (2SD = 0.15 parts per thousand). A dilution or mixing trend in Hg isotope signatures versus the distance to the mine was found in sediments along the Valdeazogues River-La Serena Reservoir system and in lichens. This suggests that Hg isotope fingerprints in these samples are providing a direct assessment of Hg inputs and exposure from the mining district, and potential information on diffuse atmospheric contamination and/or geochemical alteration processes in less contaminated sites over the entire hydrosystem. This study confirms the applicability of Hg isotope signatures in lichens and sediments as an effective and complementary tool for tracing aquatic and atmospheric Hg contamination sources and a better constraint of the spatial and temporal fate of Hg released by recent or ancient mining activities. (C) 2015 Elsevier Ltd. All rights reserved.
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