Constraining magma sources using primitive olivine-hosted melt inclusions from Punalica and Sangay volcanoes (Ecuador)

2018

Article référencé dans le Web of Science WOS:000444257000002

Narvaez D. F., Rose-Koga E. F., Samaniego Pablo, Koga K. T., Hidalgo S.

Contributions to Mineralogy and Petrology, 2018, 173 (10), art. 80 [25 p.] ISSN 0010-7999

Constraining arc magma sources at continental arc settings is a delicate task, because chemical signatures from crustal processes obscure the slab and mantle signatures. Here, we present major, trace, and volatile element compositions of olivine-hosted melt inclusions (Fo(82-89)) selected from the most primitive lavas (Mg >60) from two Ecuadorian volcanoes (Punalica and Sangay) situated at the southern termination of the Andean Northern Volcanic Zone. Melt inclusions (MI) from Punalica are nepheline normative and have basaltic-to-basaltic-andesite compositions (45-56wt% SiO2) similar to peridotite-derived melts. Sangay MI is also nepheline normative, with high CaO (up to 16wt% and CaO/Al2O3<1) and low silica contents (41.9-44.5wt%) pointing out an amphibole-bearing clinopyroxenite source. Both volcanoes display volatile-rich compositions (up to 6100ppm Cl, 2200ppm F, and 6700ppm S). These MI cannot be related to their host lavas by fractional crystallization, implying that they represent true primitive liquids. The source of Punalica MI was metasomatized by slab-derived melts that imprints its low Ba/Th, Sr/Th, and high Th/La (average values of 66, 129, and 0.22, respectively). On the contrary, the slab component added to the source of Sangay MI has a higher Ba/Th, Sr/Th, and low Th/La (average values of 261, 517, and 0.11, respectively) which could suggest a relative contribution of aqueous fluids. This dichotomy is related to the presence of the Grijalva Fracture Zone that separates a younger and hotter oceanic crust to the north (below Punalica) from a colder and older oceanic crust to the south (below Sangay).