| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 6435856 | Ore Geology Reviews | 2016 | 11 Pages |
â¢A relative chronology of magmatic events was established based on field work and drill core relationshipsâ¢Representative metasomatized bulk rock samples were selected and analyzed for trace elements and Sm-Nd isotopesâ¢Based on these results it was shown that Montviel was emplaced via 4 distinct mantle pulses of volatile-saturated magmasâ¢It was found that each of these injections evolved by fractional crystallization, the mixing of mantle and crustal fluids, and metasomatism.
Magmatic volatiles are critically important in the petrogenesis of igneous rocks but their inherent transience hampers the identification of their role in magmatic and metasomatic processes. For example, while the role of magmatic volatiles in porphyry copper systems is relatively well understood, the behavior of volatiles and metasomatic fluids in mantle and crustal magmatic-hydrothermal systems remains a work in progress. Alkaline-carbonatite complexes usually originate from the mantle and typically host REE deposits which are thought to be almost always of a hydrothermal origin. The question thus arises as to the origin of the REE and fluids and if the alkaline and carbonatite magmas are accompanied by fluids from the mantle up and through the crust. This study presents the results of whole rock trace elements and Sm-Nd isotopes analyses of clinopyroxenites, melteigites, ijolites, melanosyenites, leucosyenites, granites, silicocarbonatites, magnesiocarbonatites, calciocarbonatites, ferrocarbonatites and polygenic breccias from the 1894 Ma Paleoproterozoic alkaline-carbonatite complex of Montviel, Abitibi, Canada. The metasomatic rocks range in REE concentrations from 100 ppm to 3.54 wt.% and show εNd values ranging from + 6.8 to â 7.2. Based on these results it is demonstrated that volatile-saturated magmas at Montviel were injected through 4 distinct mantle pulses which evolved by fractional crystallization, mixing of depleted mantle and crustal fluids and metasomatism.
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