Mercury isotope fractionation during ore retorting in the Almadén mining district, Spain.

Almadén, Spain, is the world\s largest mercury (Hg) mining district, which has produced over 250,000 metric tons of Hg representing about 30% of the historical Hg produced worldwide. The objective of this study was to measure Hg isotopic compositions of cinnabar ore, mine waste calcine (retorted ore...

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Bibliographic Details
Authors: Higueras Higueras, Pablo León, Gray, John E., Pribil, Michael J
Format: article
Publication Date:2013
Country:España
Institution:Universidad de Castilla-La Mancha
Repository:RUIdeRA. Repositorio Institucional de la UCLM
OAI Identifier:oai:ruidera.uclm.es:10578/3092
Online Access:http://hdl.handle.net/10578/3092
Access Level:Open access
Keyword:Geología
Ciencias de la tierra
Ciencias naturales y ciencias de la salud
Description
Summary:Almadén, Spain, is the world\s largest mercury (Hg) mining district, which has produced over 250,000 metric tons of Hg representing about 30% of the historical Hg produced worldwide. The objective of this study was to measure Hg isotopic compositions of cinnabar ore, mine waste calcine (retorted ore), elemental Hg (Hg0(L)), and elemental Hg gas (Hg0(g)), to evaluate potential Hg isotopic fractionation. Almadén cinnabar ore #948;202Hg varied from #8722;0.92 to 0.15? (mean of #8722;0.56?, #963; = 0.35?, n = 7), whereas calcine was isotopically heavier and #948;202Hg ranged from#8722;0.03?to 1.01?(mean of 0.43?, #963; = 0.44?, n = 8). The average #948;202Hg enrichment of 0.99? between cinnabar ore and calcines generated during ore retorting indicated Hg isotopic mass dependent fractionation (MDF). Mass independent fractionation (MIF) was not observed in any of the samples in this study. Laboratory retorting experiments of cinnabar alsowere carried out to evaluateHg isotopic fractionation of products generated during retorting such as calcine, Hg0(L), and Hg0(g). Calcine and Hg0(L) generated during these retorting experiments showed an enrichment in #948;202Hg of as much as 1.90?and 0.67?, respectively, compared to the original cinnabar ore. The #948;202Hg for Hg0(g) generated during the retorting experiments was as much as 1.16? isotopically lighter compared to cinnabar, thus, when cinnabar ore was roasted, the resultant calcines formed were isotopically heavier, whereas the Hg0(g) generated was isotopically lighter in Hg isotopes.