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2662684 
Journal Article 
Alkaline-earth metal and rare-earth element incorporation control by ionic radius and growth rate on a stalagmite from the Chauvet Cave, Southeastern France 
Bourdin, C; Douville, E; Genty, D 
2011 
Yes 
Chemical Geology
ISSN: 0009-2541 
290 
1-2 
1-11 
WOS:000297189000001 
A multi-element study involving major alkaline-earth cations (Mg, Ca, Sr, Ba) and trace elements like Na, U, Mn, V and Rare Earth Elements (REE) in calcite of a stalagmite from the Chauvet Cave (SE of France) was carried out using ICP-QMS analysis. This study focused on the Chau-stm6 stalagmite which displays a record of the Last Deglaciation until the end of the Younger Dryas with ages ranging from 33 kyr to 11.5 kyr BP. In this study, profiles of the alkaline-earth elements Sr and Ba show concentrations increasing sharply at the beginning of the deglaciation while Mg and U show a decreasing trend. REY (REE + Y) concentrations decrease sharply during early deglaciation. The clear record of the onset of the Younger Dryas by stable isotopes is not well marked by these elements. The absence of a significant correlation between REV and Mn suggests that REE were here not strongly bound to particulate-colloidal phases but were mainly controlled by limestone-groundwater interaction. Shale-normalized REE patterns in stalagmite, characterized by a negative Ce anomaly and HREE enrichment compared to LREE is thought to mainly arise from the dissolution of bedrock since Chau-stm6 patterns are similar to those of the bedrock. Chau-stm6 REY patterns are even more depleted in LREE than those of the bedrock, showing that part of the LREE were removed from groundwater upstream from the stalagmite. Some particular REY pattern changes were observed for the different climatic conditions: 1) glacial samples often display a more marked negative Ce anomaly (similar to 0.3) and a high Y/Ho ratio (similar to 0.6); 2) Bolling-Allerod and Younger Dryas samples display a variable and less pronounced anomaly (0.5-0.8) and a lower Y/Ho ratio (0.35-0.55). Climatic changes modified the rate of the stalagmite growth which likely caused a change in the properties of element incorporation in the calcite lattice. Consequently the concentration variations of Mg, Ca, Sr, Ba, U and REY would be directly controlled by ionic radii of each element. (C) 2011 Elsevier B.V. All rights reserved. 
Speleothems; Calcite; Alkaline-earth metals; REY; Elemental geochemistry; Last Deglaciation