Role of fO2 on fluid saturation in oceanic basalt

Scaillet, Bruno; Pichavant, Michel

doi:10.1038/nature02814

Brief Communications Arising
Published: 28 July 2004

Earth science

Role of fO₂ on fluid saturation in oceanic basalt

Bruno Scaillet¹ &
Michel Pichavant¹

Nature volume 430, page 1 (2004)Cite this article

775 Accesses
17 Citations
Metrics details

Abstract

Arising from: A. E. Saal, E. H. Hauri, C. H. Langmuir & M. R. Perfit Nature 419, 451–455 (2002); Saal et al. reply Assessing the conditions under which magmas become fluid-saturated has important bearings on the geochemical modelling of magmas because volatile exsolution may profoundly alter the behaviour of certain trace elements that are strongly partitioned in the coexisting fluid¹. Saal et al.² report primitive melt inclusions from dredged oceanic basalts of the Siqueiros transform fault, from which they derive volatile abundances of the depleted mantle, based on the demonstration that magmas are not fluid-saturated at their eruption depth and so preserve the mantle signature in terms of their volatile contents. However, in their analysis, Saal et al.² consider only fluid–melt equilibria, and do not take into account the homogeneous equilibria between fluid species, which, as we show here, may lead to a significant underestimation of the pressure depth of fluid saturation.

Giant paleo-seafloor craters and mass wasting associated with magma-induced uplift of the upper crust

Article Open access 15 March 2022

Giant pit craters on the modern seafloor above magma-induced hydrothermal vent complexes of Scotia Sea, offshore Antarctica

Article Open access 24 January 2025

Experimental measurements of the viscosity and melt structure of alkali basalts at high pressure and temperature

Article Open access 16 February 2022

References

Wallace, P., Anderson, A. T. & Davis, A. M. Nature 377, 612–616 (1995).
Article ADS CAS Google Scholar
Saal, A. E., Hauri, E. H., Langmuir, C. H. & Perfit, M. R. Nature 419, 451–455 (2002).
Article ADS CAS Google Scholar
Dixon, J., Stolper, E. M. & Holloway, J. R. J. Petrol. 36, 1607–1631 (1995).
CAS Google Scholar
Holloway, J. R. in Reviews in Mineralogy (eds Carmichael, I. S. E. & Eugster, H. P.) 17, 211–233 (Mineralogical Society of America, Book Crafters, Chelsea, Michigan, 1987).
Google Scholar
Pawley, A. R., Holloway, J. R. & McMillan, P. F. Earth Planet. Sci. Lett. 110, 213–225 (1992).
Article ADS CAS Google Scholar
Christie, D. M., Carmichael, I. S. E. & Langmuir, C. H. Earth Planet. Sci. Lett. 79, 397–411 (1986).
Article ADS CAS Google Scholar
Blundy, J. D., Brodholt, J. P. & Wood, B. J. Nature 349, 321–324 (1991).
Article ADS CAS Google Scholar
Holloway, J. R. Chem. Geol. 147, 89–97 (1998).
Article ADS CAS Google Scholar
Mathez, E. Nature 310, 371–375 (1984).
Article ADS CAS Google Scholar

Download references

Author information

Authors and Affiliations

ISTO-CNRS, UMR 6113, Orléans, 45071, Cedex 2, France
Bruno Scaillet & Michel Pichavant

Authors

Bruno Scaillet
View author publications
Search author on:PubMed Google Scholar
Michel Pichavant
View author publications
Search author on:PubMed Google Scholar

Corresponding author

Correspondence to Bruno Scaillet.

Rights and permissions

Reprints and permissions

About this article

Cite this article

Scaillet, B., Pichavant, M. Role of fO₂ on fluid saturation in oceanic basalt. Nature 430, 1 (2004). https://doi.org/10.1038/nature02814

Download citation

Published: 28 July 2004
Issue date: 29 July 2004
DOI: https://doi.org/10.1038/nature02814

This article is cited by

The effect of alkalis and polymerization on the solubility of H2O and CO2 in alkali-rich silicate melts
- Francesco Vetere
- Francois Holtz
- Sara Fanara
Contributions to Mineralogy and Petrology (2014)
Redox evolution of a degassing magma rising to the surface
- Alain Burgisser
- Bruno Scaillet
Nature (2007)
Role of fO2 on fluid saturation in oceanic basalt (reply)
- Alberto E. Saal
- Erik H. Hauri
- Michael R. Perfit
Nature (2004)