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Publication details

Document type
Journal articles

Document subtype
Full paper

Title
Tracing fluid-rock reaction and hydrothermal circulation at the Saldanha hydrothermal field

Participants in the publication
Dias, A. (Author)
Dep. Geologia
CREMINER
Mills, R. A. (Author)
Ribeiro da Costa, I. (Author)
Costa, R. (Author)
Taylor, R. N. (Author)
Cooper, M. J. (Author)
Barriga, F. J. A. S.. (Author)
Dep. Geologia
CREMINER

Summary
The Saldanha hydrothermal field is positioned on the top of a seamount located in a non-transform offset (NTO5) on the Mid-Atlantic Ridge (MAR). This hydrothermal system was first described as a low-temperature diffuse field, driven by peridotite–seawater reactions following the detection of high concentrations of CH4 and H2 in the water column, and the occurrence of serpentinite outcrops in the vent area. We have studied the geochemistry and isotopic composition of sediment and rock samples collected across the area and show that hydrothermal circulation at Saldanha is complex and spatially variable, comprising areas of low-temperature diffuse flow but also more focused higher-temperature venting zones. While most sediment samples have an isotopic composition that is similar to normal pelagic sediments, one core (SCD7) show significant hydrothermal influence, sulphide mineralization, non-radiogenic Pb and radiogenic Nd isotope ratios and positive Eu anomalies. This is best explained by mineral precipitation from high-temperature hydrothermal fluids that have circulated through mafic rocks. The host rock lithology and alteration is also highly variable and comprises both fresh basalts, serpentinites and hydrothermally altered rocks (metabasalts, metagabbros and steatites). Serpentinites have REE patterns and εNd(0) values that fall between seawater and mantle peridotite reference values, resulting from extensive interaction of seawater with the original peridotite. This process was probably favoured by the deeply penetrating and long-lived faults occurring at this NTO. Steatites have a positive Eu anomaly and non-radiogenic Pb isotopic values. These signatures, together with the sulphide mineralisation and the extensive Si input necessary for steatization of serpentinites, imply that higher-temperature hydrothermal fluids reacted with gabbroic intrusions at depth. The more hydrothermally altered sediment and rock samples appear to be associated with the Saldanha fault network that promotes a more focused fluid flow and thus enhances hydrothermal alteration within a region of low-temperature diffuse flow.

Date of Submisson/Request
2009-05-15
Date of Acceptance
2010-02-16
Date of Publication
2010-05-15

Where published
CHEMICAL GEOLOGY

Publication Identifiers
ISSN - 0009-2541

Publisher
Elsevier

Volume
273
Number
3-4

Starting page
168
Last page
179

Document Identifiers
DOI - https://doi.org/10.1016/j.chemgeo.2010.02.020

Rankings
Web Of Science Q1 (2010) - 3.722 - Geochemistry & Geophysics
SCIMAGO Q1 (2010) - 2.328 - Geochemistry & Petrology
SCIMAGO Q1 (2010) - 2.328 - Geology

Keywords
Saldanha hydrothermal field Radiogenic isotopes Steatization

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APA
Dias, A., Mills, R. A., Ribeiro da Costa, I., Costa, R., Taylor, R. N., Cooper, M. J., Barriga, F. J. A. S.., (2010). Tracing fluid-rock reaction and hydrothermal circulation at the Saldanha hydrothermal field. CHEMICAL GEOLOGY, 273, 168-179. ISSN 0009-2541. eISSN .

IEEE
Dias, A., Mills, R. A., Ribeiro da Costa, I., Costa, R., Taylor, R. N., Cooper, M. J., Barriga, F. J. A. S.., "Tracing fluid-rock reaction and hydrothermal circulation at the Saldanha hydrothermal field" in CHEMICAL GEOLOGY, vol. 273, pp. 168-179, 2010. 10.1016/j.chemgeo.2010.02.020

BIBTEX
@article{27004, author = {Dias, A. and Mills, R. A. and Ribeiro da Costa, I. and Costa, R. and Taylor, R. N. and Cooper, M. J. and Barriga, F. J. A. S..}, title = {Tracing fluid-rock reaction and hydrothermal circulation at the Saldanha hydrothermal field}, journal = {CHEMICAL GEOLOGY}, year = 2010, pages = {168-179}, volume = 273 }