Magmatic and hydrothermal behavior of uranium in syntectonic leucogranites: The uranium mineralization associated with the Hercynian Guérande granite (Armorican Massif, France)
2017
Most of the hydrothermal uranium (U) deposits from the European Hercynian belt (EHB) are spatially associated with Carboniferous peraluminous leucogranites. In the southern part of the Armorican Massif (French part of the EHB), the Guerande peraluminous leucogranite was emplaced in an extensional deformation zone at ca. 310 Ma and is spatially associated with several U deposits and occurrences. The apical zone of the intrusion is structurally located below the Pen Ar Ran U deposit, a perigranitic vein-type deposit where mineralization occurs at the contact between black shales and Ordovician acid metavolcanics. In the Metairie-Neuve intragranitic deposit, uranium oxide-quartz veins crosscut the granite and a metasedimentary enclave.
Airborne radiometric data and published trace element analyses on the Guerande leucogranite
suggest significant uranium leaching at the apical zone of the intrusion. The primary U enrichment in
the apical zone of the granite likely occurred during both fractional crystallization and the interaction
with magmatic fluids. The low Th/U values (< 2) measured on the Guerande leucogranite likely
favored the crystallization of magmatic uranium oxides. The oxygen isotope compositions of the
Guerande leucogranite (δ18Owhole rock = 9.7 – 11.6 ‰ for deformed samples and δ18Owhole rock = 12.2 - 13.6 ‰ for other samples) indicate that the deformed facies of the apical zone underwent subsolidus
alteration at depth with oxidizing meteoric fluids. Fluid inclusion analyses on a quartz comb
from a uranium oxide-quartz vein of the Pen Ar Ran deposit show evidence of low-salinity fluids (1-6
wt.% NaCl eq.), in good agreement with the contribution of meteoric fluids. Fluid trapping
temperatures in the range of 250-350°C suggest an elevated geothermal gradient, probably related
to regional extension and the occurrence of magmatic activity in the environment close to the
deposit at the time of its formation. U-Pb dating on uranium oxides from the Pen Ar Ran and
Metairie-Neuve deposits reveal three different mineralizing events. The first event at 296.6 ± 2.6 Ma
(Pen Ar Ran) is sub-synchronous with hydrothermal circulations and the emplacement of late
leucogranitic dykes in the Guerande leucogranite. The two last mineralizing events occur at 286.6 ±
1.0 Ma (Metairie-Neuve) and 274.6 ± 0.9 Ma (Pen Ar Ran), respectively. Backscattered uranium oxide
imaging combined with major elements and REE geochemistry suggest similar conditions of
mineralization during the two Pen Ar Ran mineralizing events at ca. 300 Ma and ca. 275 Ma, arguing
for different hydrothermal circulation phases in the granite and deposits. Apatite fission track dating
reveals that the Guerande granite was still at depth and above 120°C when these mineralizing events
occurred, in agreement with the results obtained on fluid inclusions at Pen Ar Ran.
Based on this comprehensive data set, we propose that the Guerande leucogranite is the main
source for uranium in the Pen Ar Ran and Metairie-Neuve deposits. Sub-solidus alteration via
surface-derived low-salinity oxidizing fluids likely promoted uranium leaching from magmatic
uranium oxides within the leucogranite. The leached out uranium may then have been precipitated in the reducing environment represented by the surrounding black shales or graphitic quartzites. As
similar mineralizing events occurred subsequently until ca. 275 Ma, meteoric oxidizing fluids likely
percolated during the time when the Guerande leucogranite was still at depth. The age of the U
mineralizing events in the Guerande region (300 – 275 Ma) are consistent with those obtained on
other U deposits in the EHB and could suggest a similar mineralization condition, with long-term
upper to middle crustal infiltration of meteoric fluids likely to have mobilized U from fertile
peraluminous leucogranites during the Late Carboniferous to Permian crustal extension events.
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