Unraveling the sequence of serpentinization reactions: petrography, mineral chemistry, and petrophysics of serpentinites from MAR 15°N (ODP Leg 209, Site 1274)

The results of detailed textural, mineral chemical, and petrophysical studies shed new light on the poorly constrained fluid‐rock reaction pathways during retrograde serpentinization at mid‐ocean ridges. Uniformly depleted harzburgites and dunites from the Mid‐Atlantic Ridge at 15°N show variable ex...

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Bibliographic Details
Published in:Geophysical research letters 2006-07, Vol.33 (13), p.L13306-n/a
Main Authors: Bach, Wolfgang, Paulick, Holger, Garrido, Carlos J., Ildefonse, Benoit, Meurer, William P., Humphris, Susan E.
Format: Article
Language:English
Subjects:
Alteration and weathering processes
Earth Sciences
Earth, ocean, space
Exact sciences and technology
History of Geophysics
Metamorphic petrology
Mid-oceanic ridge processes
Mineralogy and Petrology
Petrography, microstructures, and textures
Sciences of the Universe
Volcanology, geochemistry, and petrology
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Summary:The results of detailed textural, mineral chemical, and petrophysical studies shed new light on the poorly constrained fluid‐rock reaction pathways during retrograde serpentinization at mid‐ocean ridges. Uniformly depleted harzburgites and dunites from the Mid‐Atlantic Ridge at 15°N show variable extents of static serpentinization. They reveal a simple sequence of reactions: serpentinization of olivine and development of a typical mesh texture with serpentine‐brucite mesh rims, followed by replacement of olivine mesh centers by serpentine and brucite. The serpentine mesh rims on relic olivine are devoid of magnetite. Conversely, domains in the rock that are completely serpentinized show abundant magnetite. We propose that low‐fluid‐flux serpentinization of olivine to serpentine and ferroan brucite is followed by later stages of serpentinization under more open‐system conditions and formation of magnetite by the breakdown of ferroan brucite. Modeling of this sequence of reactions can account for covariations in magnetic susceptibility and grain density of the rocks.
ISSN:0094-8276
1944-8007
DOI:10.1029/2006GL025681