AbstractsEarth & Environmental Science

In response to rising demand of the rare earth elements (REE), recent exploration of the British Columbia alkaline province has identified the Wicheeda Carbonatite, which contains an estimated 11.3 million tons of light REE-enriched ore grading 1.95 wt.% TREO, to be the highest-grade prospect known in British Columbia. However, research of the deposit is restricted to one paper describing mineralization in carbonatite dikes adjacent to the main plug. This study describes the nature and origin of REE-mineralization in the Wicheeda plug.The carbonatite was emplaced in metasedimentary limestone and argillaceous limestone belonging to the Kechika Group, which has been altered to potassic fenite immediately adjacent to the carbonatite and to sodic fenite at greater distances from it. The carbonatite comprises a ferroan dolomite core, which passes outwards gradationally into calcite carbonatite. Three texturally distinct varieties of dolomite have been recognized. Dolomite 1 constitutes most of the carbonatite; Dolomite 2 replaced Dolomite 1 near veins and vugs; Dolomite 3 occurs as a fracture and vug-lining phase with the REE mineralization. Stable carbon and oxygen isotopic ratios indicate that the calcite carbonatite is of mantle origin, that Dolomite 1 is of primary igneous origin, that Dolomite 2 is largely primary igneous with minor hydrothermal signature contamination, and that Dolomite 3 is of hydrothermal origin. Rare-metal mineralization in the deposit is, with the exception of pyrochlore, which occurs in the calcite carbonatite, restricted to veins and vugs in the dolomite carbonatite. There it occurs as hydrothermal veins and in vugs infilled by REE-fluorocarbonates, i.e., bastnäsite-(Ce), ancylite-(Ce), and monazite-(Ce) together with accessory pyrite, barite, molybdenite, and thorite.A model is proposed in which calcite carbonatite was the earliest magmatic phase to crystallize. The calcite carbonatite magma saturated with niobium relatively early, precipitating pyrochlore. The magma later evolved to a dolomite carbonatite composition which, upon cooling exsolved an aqueous carbonic fluid, which altered the Kechika metasediments to potassic fenite and mixed with formational waters further from the carbonatite to produce sodic fenite. This fluid mobilized the REE as chloride complexes into vugs and fractures in the dolomite carbonatite. Upon progressive fluid-rock interaction, the REE precipitated largely in response to cooling and pH. Hydrothermal concentration led to remarkable grade consistency, with virtually all of the dolomite carbonatite containing >1 wt.% TREO, making the Wicheeda Carbonatite a very attractive exploration target. En réponse à la demande industrielle croissante pour les éléments du groupe des terres rares (ETR), l'exploration de la province alcaline de Colombie Britannique a récemment permis d'identifier la carbonatite de Wicheeda (11.3 millions de tonnes de minerai enrichi en terres rares légères, affichant une teneur de 1.95 % TREO (l'oxide des terres rares total)…