Allard P., Aiuppa A., Bani Philipson, Metrich N., Bertagnini A., Gauthier P. J., Shinohara H., Sawyer G., Parello F., Bagnato E., Pelletier Bernard, Garaebiti E. (2016). Prodigious emission rates and magma degassing budget of major, trace and radioactive volatile species from Ambrym basaltic volcano, Vanuatu island Arc. In :
Vergniolle N. (ed.), Métrich N. (ed.). Understanding volcanoes in the Vanuatu arc. Journal of Volcanology and Geothermal Research, 322 (No Spécial), p. 119-143. ISSN 0377-0273.
Titre du document
Prodigious emission rates and magma degassing budget of major, trace and radioactive volatile species from Ambrym basaltic volcano, Vanuatu island Arc
Année de publication
Allard P., Aiuppa A., Bani Philipson, Metrich N., Bertagnini A., Gauthier P. J., Shinohara H., Sawyer G., Parello F., Bagnato E., Pelletier Bernard, Garaebiti E.
Vergniolle N. (ed.), Métrich N. (ed.), Understanding volcanoes in the Vanuatu arc
Journal of Volcanology and Geothermal Research, 2016,
322 (No Spécial), p. 119-143 ISSN 0377-0273
Ambrym volcano, in the Vanuatu arc, is one of the most active volcanoes of the Southwest Pacific region, where persistent lava lake and/or Strombolian activity sustains voluminous gas plume emissions. Here we report on the first comprehensive budget for the discharge of major, minor, trace and radioactive volatile species from Ambrym volcano, as well as the first data for volatiles dissolved in its basaltic magma (olivine-hosted melt inclusions). In situ MultiGAS analysis of H2O, CO2, SO2 and H2S in crater rim emissions, coupled with filter-pack determination of SO2, halogens, stable and radioactive metals demonstrates a common magmatic source for volcanic gases emitted by its two main active craters, Benbow and Marum. These share a high water content (similar to 93 mol%), similar S/Cl, Cl/ F, Br/Cl molar ratios, similar (Po-210/Pb-210) and (Bi-210/(210P)b) activity ratios, as well as comparable proportions in most trace metals. Their difference in CO2/SO2 ratio (1.0 and 5.6-3.0, respectively) is attributed to deeper gas melt separation at Marum (Strombolian explosions) than Benbow (lava lake degassing) during our measurements in 2007. Airborne UV sensing of the SO2 plume flux (90 kg s(-1) or 7800 tons d(-1)) demonstrates a prevalent degassing contribution (similar to 65%) of Benbow crater in that period and allows us to quantify the total volatile fluxes during medium-level eruptive activity of the volcano. Results reveal that Ambrym ranks among the most powerful volcanic gas emitters on Earth, producing between 5% and 9% of current estimates for global subaerial volcanic emissions of H2O, CO2, HCl, Cu, Cr, Cd, Au, Cs and Tl, between 10% and 17% of SO2, HF, HBr, Hg, Po-210 and Pb-210, and over 30% of Ag, Se and Sn. Global flux estimates thus need to integrate its contribution and be revised accordingly. Prodigious gas emission from Ambrym does not result from an anomalous volatile enrichment nor a differential excess degassing of its feeding basalt: this latter contains relatively modest dissolved amounts of H2O(<= 1.3 wt%), CO2 (similar to 0.10 wt%), S (0.075 wt%) and Cl (0.05 wt%), and its degassing under prevalent closed-system conditions well reproduces the composition of emitted volcanic gases. Instead, we show that the gas discharge is sustained by a very high basalt supply rate of 25 m(3) s(-1), from a large (similar to 0.5 km(3)) magma reservoir probably emplaced at similar to 3.8 km depth below the summit caldera according to both the H2O-CO2 content of bubble-free melt inclusions and preliminary seismic data. Radioactive disequilibria in the volcanic gases constrain that this reservoir may be entirely renewed in about 240 days. The comparatively low magma extrusion rate requires extensive convective overturn of the basaltic magma column and recycling of the unerupted (denser) degassed magma in the plumbing system, in agreement with textural features of erupted products. Finally, our results suggest that the Indian MORB-type mantle source of Ambrym basalts is modestly enriched in slab-derived water and other volatiles, in agreement with the prevalent volcanodastic nature of subducted sediments and their lower subduction rate under the central Vanuatu arc due to its collision with the D'Enfrecasteaux Ridge.
Plan de classement
Sciences du milieu 
Géologie et formations superficielles 
Géophysique interne 
PACIFIQUE SUD ; VANUATU ; AMBRYM VOLCAN
Fonds IRD [F B010068352]