C and H geochemistry of altered oceanic crus of ODP/IODP Hole 1256D


Autoria(s): Shilobreeva, S; Martinez, I; Busigny, V; Agrinier, Pierre; Laverne, Christine
Cobertura

MEDIAN LATITUDE: 5.135771 * MEDIAN LONGITUDE: -91.062328 * SOUTH-BOUND LATITUDE: 0.736050 * WEST-BOUND LONGITUDE: -91.934500 * NORTH-BOUND LATITUDE: 6.736052 * EAST-BOUND LONGITUDE: -90.065647 * DATE/TIME START: 2002-11-23T03:45:00 * DATE/TIME END: 2002-11-23T03:45:00

Data(s)

24/05/2011

Resumo

Carbon and hydrogen concentrations and isotopic compositions were measured in 19 samples from altered oceanic crust cored in ODP/IODP Hole 1256D through lavas, dikes down to the gabbroic rocks. Bulk water content varies from 0.32 to 2.14 wt% with dD values from -64per mil to -25per mil. All samples are enriched in water relative to fresh basalts. The dD values are interpreted in terms of mixing between magmatic water and another source that can be either secondary hydrous minerals and/or H contained in organic compounds such as hydrocarbons. Total CO2, extracted by step-heating technique, ranges between 564 and 2823 ppm with d13C values from -14.9per mil to -26.6per mil. As for water, these altered samples are enriched in carbon relative to fresh basalts. The carbon isotope compositions are interpreted in terms of a mixing between two components: (1) a carbonate with d13C = -4.5per mil and (2) an organic compound with d13C = -26.6per mil. A mixing model calculation indicates that, for most samples (17 of 19), more than 75% of the total C occurs as organic compounds while carbonates represent less than 25%. This result is also supported by independent estimates of carbonate content from CO2 yield after H3PO4 attack. A comparison between the carbon concentration in our samples, seawater DIC (Dissolved Inorganic Carbon) and DOC (Dissolved Organic Carbon), and hydrothermal fluids suggests that CO2 degassed from magmatic reservoirs is the main source of organic C addition to the crust during the alteration process. A reduction step of dissolved CO2 is thus required, and can be either biologically mediated or not. Abiotic processes are necessary for the deeper part of the crust (>1000 mbsf) because alteration temperatures are greater than any hyperthermophilic living organism (i.e. T > 110 °C). Even if not required, we cannot rule out the contribution of microbial activity in the low-temperature alteration zones. We propose a two-step model for carbon cycling during crustal alteration: (1) when "fresh" oceanic crust forms at or close to ridge axis, alteration starts with hot hydrothermal fluids enriched in magmatic CO2, leading to the formation of organic compounds during Fischer-Tropsch-type reactions; (2) when the crust moves away from the ridge axis, these interactions with hot hydrothermal fluids decrease and are replaced by seawater interactions with carbonate precipitation in fractures. Taking into account this organic carbon, we estimate C isotope composition of mean altered oceanic crust at ? -4.7per mil, similar to the d13C of the C degassed from the mantle at ridge axis, and discuss the global carbon budget. The total flux of C stored in the altered oceanic crust, as carbonate and organic compound, is 2.9 ± 0.4 * 10**12 molC/yr.

Formato

application/zip, 5 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.783040

doi:10.1594/PANGAEA.783040

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Shilobreeva, S; Martinez, I; Busigny, V; Agrinier, Pierre; Laverne, Christine (2011): Insights into C and H storage in the altered oceanic crust: Results from ODP/IODP Hole 1256D. Geochimica et Cosmochimica Acta, 75(9), 2237-2255, doi:10.1016/j.gca.2010.11.027

Palavras-Chave #(900 + 1170) °C; 1170 °C with O2, blank = 46, no value = less than blank; 1170 °C without O2, blank = 29; 206-1256D; 250 °C; 250 °C with O2, blank = 15; 309-U1256D; 312-U1256D; 900 °C without O2, blank = 33; Al2O3; Alteration; Aluminium oxide; Calcium oxide; CaO; Carbon, organic; Carbon, organic/Carbon, total; Carbon dioxide; Carbon dioxide, total; Chlorine; Chromium(III) oxide; Cl; CO2; Color desc; Color description; Corg; Corg/TC; Cr2O3; d13C; dD; delta 13C; delta Deuterium; Depth; DEPTH, sediment/rock; DRILL; Drilling/drill rig; Electron microprobe; Elements, total; estimated; Event; Exp309; Exp312; F; FeO; Fluorine; Fraction of organic carbon calculated assuming C corresponds to a mixing between carbonates with d13C = +0.4per mil and organic carbon with d13C = 26.6per mil. Molar ratios.; Fraction of organic carbon calculated assuming C corresponds to a mixing between carbonates with d13C = 4.5 per mil and organic carbon with d13C = 26.6 per mil. Molar ratios.; H2O; Horg/TH; Horg max; Horg min; Hydrogen, organic, maximum; Hydrogen, organic, minimum; Hydrogen, organic/Hydrogen, total ratio; Integrated Ocean Drilling Program / International Ocean Discovery Program; IODP; Iron oxide, FeO; Joides Resolution; K2O; Label; Label 2; Lead oxide; Leg206; Magnesium oxide; Manganese oxide; Maximum H content contained in organic compounds calculated for C/H molar ratio in alkane of 0.25.; Maximum molar fraction of H present in organic compounds calculated from (Horg)max.; mbsf; MgO; Min assembl; mineral; Mineral; Mineral assemblage; Mineral name; Minimum H content contained in organic compounds calculated for C/H molar ratio in alkane of 0.5.; MnO; Na2O; No; North Pacific Ocean; Number; Ocean Drilling Program; ODP; ODP sample designation; Organic C content calculated from Corg/Ctot (2) and measured CO2 concentration in bulk rock (given in Table 3, doi:10.1594/PANGAEA.783036).; P2O5; PbO; Phosphorus oxide; Potassium oxide; Rock; Rock type; Run; Sample code/label; Sample code/label 2; secondary, vol% in brackets; Silicon dioxide; SiO2; Sodium oxide; Superfast Spreading Rate Crust 2; Superfast Spreading Rate Crust 3; TCO2; Temperature, in rock/sediment, maximum; Temperature, in rock/sediment, minimum; TiO2; Titanium oxide; t max; t min; total; type; Water in rock; Zinc oxide; Zirconium oxide; ZnO; zone; ZrO2
Tipo

Dataset