Submarine venting of liquid carbon dioxide on a Mariana Arc volcano

Abstract

Although CO₂ is generally the most abundant dissolved gas found in submarine hydrothermal fluids, it is rarely found in the form of CO₂ liquid. Here we report the discovery of an unusual CO₂‐rich hydrothermal system at 1600‐m depth near the summit of NW Eifuku, a small submarine volcano in the northern Mariana Arc. The site, named Champagne, was found to be discharging two distinct fluids from the same vent field: a 103°C gas‐rich hydrothermal fluid and cold (2. The hot vent fluid contained up to 2.7 moles/kg CO₂, the highest ever reported for submarine hydrothermal fluids. The liquid droplets were composed of ∼98% CO₂, ∼1% H₂S, with only trace amounts of CH₄ and H₂. Surveys of the overlying water column plumes indicated that the vent fluid and buoyant CO₂ droplets ascended 2 has been previously observed at only one other locality, in the Okinawa Trough back‐arc basin (Sakai et al., 1990a), a geologic setting much different from NW Eifuku, which is a young arc volcano. The discovery of such a high CO₂ flux at the Champagne site, estimated to be about 0.1% of the global MOR carbon flux, suggests that submarine arc volcanoes may play a larger role in oceanic carbon cycling than previously realized. The Champagne field may also prove to be a valuable natural laboratory for studying the effects of high CO₂ concentrations on marine ecosystems.