The Esquinzo Ultra-Alkaline Rock Suite of Fuerteventura Basal Complex (Canary Islands): Evidence for Origin of Carbonatites by Fractional Crystallization
Fecha
2024Resumen
The origin of the carbonatites that appear on Earth is one of the most controversial current
topics in the petrogenesis of igneous rocks. Situated in the northern sector of the Basal Complex
of Fuerteventura (Canary Islands), the Miocene Esquinzo ultra-alkaline plutonic rock complex is
composed of pyroxenites, melteigites-ijolites-urtites, malignites-nepheline syenites, carbonatites,
silicocarbonatites, nephelinites and nepheline phonolites. This work tries to establish the genesis of
this massif of ultra-alkaline rocks with associated carbonatites from Fuerteventura (which are very
rare in the oceans). The geochemical characteristics of these rocks and the minerals that are included
in them have allowed us to establish their origin. This complex was generated by three successive
magmatic events associated with differentiation of melanephelinite magmas emplaced in the oceanic
crust. Silicocarbonatite and calciocarbonatite (sövites) dykes are related to the first magmatic event
and were formed by fractional crystallization of H2O- and CO2-rich ijolite magmas. The melanephelinite
magmas that formed these plutonic ultra-alkaline rocks were apparently generated as partial
melts of asthenospheric mantle, which assimilated enriched lithospheric mantle material as they
ascended. The upwelling of this large body of anomalous asthenospheric Miocene material exceeded
the deformation associated with plate motions and led to an oceanic rifting event in Fuerteventura.