Interpretation of volcanic gas data from tholeiitic and Alkaline Mafic Lavas

The analyses of approximately 100 high temperature gas samples from erupting lavas of Surtsey, Erta Ale, Ardoukoba, Kilauea, Mount Etna and Nyiragongo exhibit erratic compositions resulting from analytical errors, condensation effects, reactions with sampling devices, and contamination by atmospheric gases, meteoric water and organic material. Computational techniques have been devised to restore reported analyses to compositions representative of the erupted gases. The restored analyses show little evidence of short-term variations. The principal species are H₂O, CO₂, SO₂, H₂, CO, H₂S, S₂, and HCl. The O₂ fugacities range from nickel-nickel oxide to a half order of magnitude below quartz-magnetite-fayalite. There is no evidence for a unique magmatic gas composition; instead, the erupted gases show regular compositional trends characterized by decreasing CO₂ with progressive outgassing. The gases from more alkaline lavas (Etna, Nyiragongo) are distinctly richer in CO₂, while those from less alkaline (Surtsey) or tholeiitic lavas (Erta Ale, Ardoukoba) tend to be richer in H₂O. Kilauean gases range from CO₂-rich to H₂O-rich. The total sulfur contents of the erupted gases show an excellent positive correlation with lava O₂ fugacity. All restored analyses are significantly lower in H₂O and enriched in sulfur and CO₂ compared to the «excess volatiles».