_version_ 1867169049576734720
author Barker, A K
Coogan, Laurence A
Gillis, Kathryn M
author_facet Barker, A K
Coogan, Laurence A
Gillis, Kathryn M
collection Datos científicos de ciencias marinas y ambientales
contents The behaviour of seawater sulphate in hydrothermal systems at intermediate- to fast-spreading ridges is investigated using new analyses of the d34S, sulphur concentration and Fe2O3/Fe2O3total, combined with existing 87Sr/86Sr, of sheeted dykes from the Pito Deep tectonic window. The Pito Deep sheeted dyke complex has a similar composition to the sheeted dykes drilled at ODP Hole 504B suggesting that the measured compositions are representative of sheeted dyke complexes at intermediate- to fast-spreading ridges. The dykes show only small increases in ?34S which, combined with the rock dominated d34S of vent fluids, requires the majority of seawater sulphate to be precipitated as anhydrite before the fluid reacts with the sheeted dyke complex. This loss of sulphate from the fluid means that a much higher Fe2O3 in the sheeted dyke complex than in fresh MORB glasses cannot be explained by oxidation due to seawater sulphate reduction during fluid–rock reaction. Instead, oxidation probably occurs due to degassing of reduced species, largely H2, during dyke emplacement and solidification. A mass balance model that accounts for anhydrite precipitation and Sr partitioning into the anhydrite, as well as fitting the concentration and isotopic ratios of S and Sr in the sheeted dykes and vent fluids, suggests water/rock ratios of ?1. For a 1 km thick sheeted dyke complex this is equivalent to a fluid flux of ?3 * 10**6 kg/m**2, sufficient to remove ? 60% of the latent heat of crystallization from the lower crust
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_782583
institution PANGAEA
language en
publishDate 2010
publisher PANGAEA
record_format pangaea
spellingShingle (Appendix A) Sulphur isotope ratios of upper crust samples of the sheeted dyke complex at Pito Deep
Barker, A K
Coogan, Laurence A
Gillis, Kathryn M
-; Al-4076; Al-4081; Al-4082; Al-4086; Alteration; ALVIN; AT11-23; Atlantis (1997); Depth, bathymetric; Depth, relative; DEPTH, sediment/rock; Event label; Grain size description; Iron oxide, Fe2O3; Iron oxide, Fe2O3/Iron oxide, FeO ratio; J2-119-1; J2-119-2; J2-123-4; J2-123-5; LATITUDE; Lithology/composition/facies; LONGITUDE; Mineral assemblage; Remote operated vehicle Jason II; ROVJ; Sample code/label; Submersible Alvin; Western Pacific; δ34S, sulfate; δ34S, sulfide
The behaviour of seawater sulphate in hydrothermal systems at intermediate- to fast-spreading ridges is investigated using new analyses of the d34S, sulphur concentration and Fe2O3/Fe2O3total, combined with existing 87Sr/86Sr, of sheeted dykes from the Pito Deep tectonic window. The Pito Deep sheeted dyke complex has a similar composition to the sheeted dykes drilled at ODP Hole 504B suggesting that the measured compositions are representative of sheeted dyke complexes at intermediate- to fast-spreading ridges. The dykes show only small increases in ?34S which, combined with the rock dominated d34S of vent fluids, requires the majority of seawater sulphate to be precipitated as anhydrite before the fluid reacts with the sheeted dyke complex. This loss of sulphate from the fluid means that a much higher Fe2O3 in the sheeted dyke complex than in fresh MORB glasses cannot be explained by oxidation due to seawater sulphate reduction during fluid–rock reaction. Instead, oxidation probably occurs due to degassing of reduced species, largely H2, during dyke emplacement and solidification. A mass balance model that accounts for anhydrite precipitation and Sr partitioning into the anhydrite, as well as fitting the concentration and isotopic ratios of S and Sr in the sheeted dykes and vent fluids, suggests water/rock ratios of ?1. For a 1 km thick sheeted dyke complex this is equivalent to a fluid flux of ?3 * 10**6 kg/m**2, sufficient to remove ? 60% of the latent heat of crystallization from the lower crust
title (Appendix A) Sulphur isotope ratios of upper crust samples of the sheeted dyke complex at Pito Deep
topic -; Al-4076; Al-4081; Al-4082; Al-4086; Alteration; ALVIN; AT11-23; Atlantis (1997); Depth, bathymetric; Depth, relative; DEPTH, sediment/rock; Event label; Grain size description; Iron oxide, Fe2O3; Iron oxide, Fe2O3/Iron oxide, FeO ratio; J2-119-1; J2-119-2; J2-123-4; J2-123-5; LATITUDE; Lithology/composition/facies; LONGITUDE; Mineral assemblage; Remote operated vehicle Jason II; ROVJ; Sample code/label; Submersible Alvin; Western Pacific; δ34S, sulfate; δ34S, sulfide
url https://doi.org/10.1594/PANGAEA.782583