Miller C. A., Christenson B. W., Byrdina Svetlana, Vandemeulebrouck J., Brakenrig T., Britten K., Shanks J., Epstein G. (2020). Snapshot of a magmatic/hydrothermal system from electrical resistivity tomography and fumarolic composition, Whakaari/White Island, New Zealand. Journal of Volcanology and Geothermal Research, 400, p. art. 106909 [13 p.]. ISSN 0377-0273.
Titre du document
Snapshot of a magmatic/hydrothermal system from electrical resistivity tomography and fumarolic composition, Whakaari/White Island, New Zealand
Année de publication
2020
Auteurs
Miller C. A., Christenson B. W., Byrdina Svetlana, Vandemeulebrouck J., Brakenrig T., Britten K., Shanks J., Epstein G.
Source
Journal of Volcanology and Geothermal Research, 2020,
400, p. art. 106909 [13 p.] ISSN 0377-0273
Combined interpretation of Electrical Resistivity Tomography (ERT) data, with plume and fumarolic gas emissions provides a snapshot of the Whakaari/White Island hydrothermal system 11 months prior to an eruption on December 9,2019. Two and three dimensional inversion of the ERT data images the F0 fumarole as a low resistivity (2-5 Omega m) feature reflecting the two-phase zone surrounding the single phase vapour conduit. Crucially, interpretation of the inversion images is well constrained by a large existing dataset of rock electrical properties, including surface conductivity, porosity and intrinsic formation factor, alongside new measurements of liquid phase electrical conductivity taken from a range of hot-springs on the island. Pore-filling liquids are an order of magnitude more conductive than sea-water with their low to very low pH (3.4 to -03) contributing to their extremely conductive nature. An extensive low-resistivity feature (0.2 Omega m) at similar to 125 m depth is therefore interpreted as a liquid saturated layer exposed to hydrothermal alteration by acid fluids. The intersection of the F0 fumarole trace with this layer is coincident with a previously determined source of deformation, suggesting that heat transport inside the fumarole conduit pressurises surrounding liquid and vapour filled pore space, generating the deformation signal. The timeseries of fumarolic and plume emissions in the year prior to the ERT survey show that the gases transported by the fumarole are a mixture of high temperature magmatic vapour and lower temperature gas equilibrated within the hydrothermal environment. Interpretation of the gas data suggests that the snapshot captured by the ERT image shows the single-phase vapour and two-phase vapourliquid regions adjacent to the conduit were likely at close to their smallest extent, consisting of mostly hydrothermal derived gases.
Plan de classement
Hydrologie [062]
;
Géophysique interne [066]
Description Géographique
NOUVELLE ZELANDE ; WHITE ISLAND
Localisation
Fonds IRD [F B010079127]
Identifiant IRD
fdi:010079127
