Multivariate statistical analysis of the REE-mineralization of the Maw Zone, Athabasca Basin, Canada

To evaluate the relationship between the enrichment of rare earth elements (REEs) and U, we carried out a principal component analysis (PCA) of sandstones in the REE-rich Maw Zone in the Athabasca Basin, Canada. The Maw Zone, a breccia pipe with surface exposure of 300×200m, consists of highly silic...

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Bibliographic Details
Published inJournal of geochemical exploration Vol. 161; pp. 98 - 111
Main Authors Chen, Shishi, Hattori, Keiko, Grunsky, Eric C.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2016
Subjects
Data analysis
Elemental assemblage
Mineralization prediction
Multivariate methods
Uranium deposits
Data analysis
Uranium deposits
Elemental assemblage
Multivariate methods
Mineralization prediction
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Summary:To evaluate the relationship between the enrichment of rare earth elements (REEs) and U, we carried out a principal component analysis (PCA) of sandstones in the REE-rich Maw Zone in the Athabasca Basin, Canada. The Maw Zone, a breccia pipe with surface exposure of 300×200m, consists of highly silicified, hematitized, tourmaline-rich rocks with high REEs (up to 8.1 wt.% as total REE oxides). It is ~4km southwest from the south end of the Phoenix U deposits, however, rocks in the Maw Zone do not show high U (<7.8ppm in most rocks). We used RQ-mode PCA to compute variable and object loadings simultaneously, which allows the displays of observations and the variables at the same scale. PCA biplots of the Maw Zone data show that U is strongly correlated with V, Cr, Fe, Ni, Cu, Na, Li and Ba, but very weakly correlated with heavy rare earth elements (HREEs)+Y, and inversely with light rare earth elements (LREEs) and P. Relative enrichment of HREEs, Y, and P suggests xenotime as the predominant host of the HREEs. The grouping of LREEs+Sr+Th+P suggests the probable occurrence of monazite and/or aluminum phosphate-sulfate (APS) minerals. A mineralogical study confirmed the common occurrence of xenotime and APS minerals. The positive association between U and Fe in the PCA plot in the Maw Zone suggests that U was transported by oxidized fluids. The absence of U mineralization in the Maw Zone is explained by low U in the oxidizing fluids, or a lack reducing fluids to precipitate U. The PC1 and PC2 may reflect the major element assemblages related to the REE mineralization. The comparison of the maps of PC scores and the concentrations of HREEs+Y and P shows that the scores of PCs are better indicating the hydrothermal REE mineralization. For prospecting HREEs, PC2 is more reliable than PC1 because PC2 has the largest variance of HREEs and the second largest variance of LREEs. •This is the first report of elemental assemblages in a REE deposit in the Athabasca Basin.•Xenotime and bastnasite host the majority of Y and HREEs.•Lack of U is due to low U in the fluids or no reduction of the oxidizing fluids at the site.•Spatial variation of PC scores is useful in evaluating the potential of the similar mineralization in the area.
ISSN:0375-6742
1879-1689
DOI:10.1016/j.gexplo.2015.11.009