Document type
Journal articles
Document subtype
Full paper
Title
Geochemistry and stable isotopes constraints on high-temperature activity from sediment cores of the Saldanha hydrothermal field
Participants in the publication
Dias, A. S. (Author)
Dep. Geologia
CREMINER
Früh-Green, G. L. (Author)
Bernasconi, S. M. (Author)
Barriga, F. J. A. S. (Author)
Dep. Geologia
CREMINER
Group Author(s): Seahma Cruise Team ; Charles Darwin 167 Cruise Team (Author)
Summary
The Saldanha hydrothermal field is hosted atop a mafic-ultramafic seamount, located at a non-transform offset on the Mid-Atlantic Ridge. Previous observations revealed a field where transparent low-temperature fluids discharge through centimeter-sized vents without the formation of chimney structures. We present geochemical and stable isotope (0 and C) analyses from sediment samples collected at this field, both at and far from the vent area. Most sediments, including some directly adjacent to orifice vents, are pelagic oozes with only a weak hydrothermal overprinting. Hydrothermal precipitates are characterized by Fe-Mn oxyhydroxides and a minor amount of Cu-Zn sulphide minerals. However, one of the cores (SCD7) collected at the vent area shows a much stronger hydrothermal signature. This core is composed of a matrix of serpentine + talc +/- chlorite with high porosity, where calcite + chalcopyrite + sphalerite/wurtzite +/- pyrite-pyrrhotite were precipitated. In this core, metal enrichments, REE patterns, and the oxygen and carbon isotope composition of calcites indicate that mineralization must have occurred in the subsurface by high-temperature fluids, with minor mixing with seawater and with a significant magmatic contribution. Thus, while most samples confirm previous findings indicating that Saldanha hydrothermal fluid discharge is mainly diffuse and of low temperature, data from core SCD7 suggest that areas of high-temperature hydrothermal activity also occur, where temperatures of the fluids could reach >260 degrees C and maximum temperatures of 330 degrees C. We suggest that fluids can flow through faults at the top of the mount and discharge in a more focused way through vent orifices, producing intense hydrothermal alteration of the sediments. At these locations complex hydrothermal processes occur, including reactions of the hydrothermal fluids with mafic and ultramafic rocks and magma degassing, as suggested by the carbon isotope composition of hydrothermal calcites. The high temperature of the fluid inferred from the geochemistry of the hydrothermal minerals requires a significant heat input to the system, suggesting an additional magmatic heat source to the already proposed exothermic serpentinization reactions. (C) 2010 Elsevier B.V. All rights reserved.
Where published
MARINE GEOLOGY
Publication Identifiers
ISSN - 0025-3227
Publisher
Elsevier
Starting page
128
Last page
140
Document Identifiers
DOI -
https://doi.org/10.1016/j.margeo.2010.10.017
Rankings
Web Of Science Q1 (2011) - 2.263 - Geosciences, Multidisciplinary
Web Of Science Q2 (2011) - 2.263 - Oceanography
SCIMAGO Q1 (2011) - 1.644 - Geochemistry and Petrology
SCIMAGO Q1 (2011) - 1.644 - Geology
SCIMAGO Q1 (2011) - 1.644 - Oceanography
Keywords
Saldanha hydrothermal site
stable isotopes
hydrothermal calcite
serpentinization heat source
hydrothermal processes
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