Not logged in
PANGAEA.
Data Publisher for Earth & Environmental Science

Agrinier, Pierre; Laverne, Christine; Tartarotti, Paola (1995): (Table 1) Oxygen and hydrogen isotope ratios of hydrothermal altered dolerites from ODP Holes 137-504B and 140-504B [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.805873, Supplement to: Agrinier, P et al. (1995): Stable isotope ratios (oxygen, hydrogen) and petrology of hydrothermally altered dolerites at the bottom of the sheeted dike complex of Hole 504B. In: Erzinger, J; Becker, K; Dick, HJB; Stokking, LB (eds.), Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 137, 99-106, https://doi.org/10.2973/odp.proc.sr.137140.016.1995

Always quote citation above when using data! You can download the citation in several formats below.

RIS CitationBibTeX CitationShow MapGoogle Earth

Abstract:
Dolerite samples, recovered in the dike complex between 1589 and 1991 meters below seafloor in Hole 504B during Legs 137/140, have been altered by hydrothermal fluids as shown by the intense replacement of igneous minerals by secondary amphiboles, chlorites, albite, and anorthite. These rocks display a negative correlation between alteration extent and density. This is interpreted in terms of the development of secondary light minerals and an increase in porosity.
For hydrogen, secondary hydroxyl groups (amphibole) dominate over igneous volatiles and control the dD(whole-rock) (-53 per mil to -40 per mil mean = -44 per mil), the D/H fractionation between amphibole (actinolite) and water being about -44 per mil ± 3 per mil at 350°C assuming the fluid has a sea water D/H ratio (dD(fluid) = 0 per mil).
The d18O(whole-rock) values, ranging from 4.7 per mil to 2.7 per mil (mean = 4.1 per mil), are negatively correlated with the abundance of secondary amphiboles, chlorites, and albite (alteration percent) determined by point counting. The comparison of halos related to veins or patches with less altered adjacent parts shows that the process of alteration produces an increase in the amphibole content related to a decrease in the d18O(halo/patch). The halos/patches from the deepest samples in Hole 504B have the lowest d18O(whole-rock) values. This feature can be explained by the progressively decreasing proportion of albite with depth in the dike section. According to Taylor's model, the depletion in 18O of these dolerites (relative to fresh magmatic values: d18O(whole-rock) ~5.7 per mil) is explained by seawater-rock interaction in which the seawater/rock ratio is higher than 0.15 in atomic proportion (~0.3 in mass). Consequently, we deduce that large quantities of seawater-derived fluids have circulated deep in the lower part of the sheeted dike complex of Hole 504B.
The d18O profile in Hole 504B shows a net disequilibrium in the 18O exchange between seawater and the oceanic crust in favor of enrichment in 18O in the seawater. This can be explained by a particular strong expression of high-temperature hydrothermal interaction with seawater-derived fluids at shallow depths (i.e., in Layer 2).
Project(s):
Ocean Drilling Program (ODP)
Coverage:
Latitude: 1.226900 * Longitude: -83.730300
Date/Time Start: 1991-04-07T13:10:00 * Date/Time End: 1991-11-12T04:10:00
Minimum DEPTH, sediment/rock: 1589.9 m * Maximum DEPTH, sediment/rock: 1991.0 m
Event(s):
137-504B  * Latitude: 1.226900 * Longitude: -83.730300 * Date/Time Start: 1991-04-07T13:10:00 * Date/Time End: 1991-04-29T01:00:00 * Elevation: -3474.0 m * Penetration: 1621.5 m * Recovery: 8.77 m * Location: North Pacific Ocean * Campaign: Leg137 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 8 cores; 48.6 m cored; 0 m drilled; 18 % recovery
140-504B  * Latitude: 1.226900 * Longitude: -83.730300 * Date/Time Start: 1991-10-01T08:50:00 * Date/Time End: 1991-11-12T04:10:00 * Elevation: -3474.0 m * Penetration: 2000.4 m * Recovery: 47.69 m * Location: North Pacific Ocean * Campaign: Leg140 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 55 cores; 378.9 m cored; 0 m drilled; 12.6 % recovery
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Event labelEvent
Sample code/labelSample labelAgrinier, PierreDSDP/ODP/IODP sample designation
DEPTH, sediment/rockDepth sedmGeocode – mbsf
Standard deviationStd dev±Agrinier, Pierre
PiecePieceAgrinier, Pierre
TypeTypeAgrinier, Pierre
δ DeuteriumδD‰ SMOWAgrinier, Pierre
Water in rockH2O%Agrinier, PierreH2O+, structural part, similar to LOI
δ18Oδ18OAgrinier, Pierrewith respect to SMOW
10 DensityDensityg/cm3Agrinier, Pierredata without standard deviation are from Dick et al. (1992)
11 Density, standard deviationDensity std dev±Agrinier, Pierre
12 AlterationAlteration%Agrinier, Pierre
13 AlbiteAb%Agrinier, Pierre
14 AmphiboleAmp%Agrinier, Pierre
15 ChloriteChl%Agrinier, Pierreincluding mixed-layer smectite-chlorite
16 OlivineOlAgrinier, Pierremiscellaneous
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
574 data points

Data

Download dataset as tab-delimited text — use the following character encoding:


Event
Sample label
Depth sed [m]
Std dev [±]
Piece
Type
δD [‰ SMOW]
H2O [%]
δ18O []		10 
Density [g/cm3]		11 
Density std dev [±]		12 
Alteration [%]		13 
Ab [%]		14 
Amp [%]		15 
Chl [%]		16 
Ol
137-504B 137-504B-175R-1,19-211589.90.73Bpowder prepared for X-ray fluorescence analysis on the ship-490.984.282.999376.025.06.0
137-504B137-504B-181M-1,7-91620.50.11powder prepared for X-ray fluorescence analysis on the ship-420.974.64
140-504B 140-504B-185R-1,15-191624.50.93powder prepared for X-ray fluorescence analysis on the ship-441.174.23312.423.85.0
140-504B140-504B-186R-1,135-1371629.50.317Apowder prepared for X-ray fluorescence analysis on the ship-461.943.7950
140-504B140-504B-187R-1,5-91633.30.82powder prepared for X-ray fluorescence analysis on the ship-491.404.4810.00.00.0
140-504B140-504B-188R-1,21-231646.61.27Apowder prepared for X-ray fluorescence analysis on the ship-401.503.99306.021.82.0
140-504B140-504B-189R-2,76-791654.30.110corresponding fresher rock adjacent to alteration halo4.190.00.0
140-504B140-504B-189R-2,76-791654.30.110internal alteration halo adjacent to vein3.258.055.0
140-504B140-504B-189R-2,76-791654.30.110external alteration halo adjacent to vein4.1518.060.0
140-504B140-504B-189R-2,83-861654.40.112powder prepared for X-ray fluorescence analysis on the ship4.37264.215.07.2
140-504B140-504B-191R-1,6-111662.10.52corresponding fresher rock adjacent to alteration halo4.082.9410.0150.05.0
140-504B140-504B-191R-1,6-111662.10.52alteration halo adjacent to vein4.682.8230.04220.044.0
140-504B140-504B-193R-1,28-311678.00.79powder prepared for X-ray fluorescence analysis on the ship-432.684.234313.023.86.4
140-504B140-504B-194R-1,84-871686.60.816corresponding fresher rock adjacent to alteration halo4.402.9060.0114.020.0
140-504B140-504B-194R-1,84-871686.60.816patch of alteration, and4.422.8120.00915.040.0
140-504B140-504B-194R-1,120-1231689.20.323corresponding fresher rock adjacent to alteration halo4.292.9370.0164.00.0
140-504B140-504B-194R-1,120-1231689.20.323alteration halo adjacent to vein4.322.7310.04812.044.0
140-504B140-504B-196R-1,39-421702.10.69powder prepared for X-ray fluorescence analysis on the ship4.12221.816.24.4
140-504B140-504B-198R-1,56-601717.10.615solid sample from vein-free sample4.43relicts
140-504B140-504B-199R-1,14-161720.50.44solid sample from vein-free sample4.31relicts
140-504B140-504B-199R-2,6-101728.30.21Bsolid sample from vein-free sample4.24relicts
140-504B140-504B-200R-1,62-661730.00.213solid sample from vein-free sample4.39relicts
140-504B140-504B-200R-2,11-141733.40.314solid sample from vein-free sample4.42
140-504B140-504B-200R-3,59-631735.30.38Bpowder prepared for X-ray fluorescence analysis on the ship4.35
140-504B140-504B-200R-4,42-451737.40.111corresponding fresher rock adjacent to alteration halo4.702.9250.0290.02.0
140-504B140-504B-200R-4,42-451737.40.111alteration halo adjacent to vein4.072.9060.0615.046.0
140-504B140-504B-201R-1,19-231745.61.35powder prepared for X-ray fluorescence analysis on the ship3.60190.817.60.6
140-504B140-504B-202R-1,41-451748.40.211powder prepared for X-ray fluorescence analysis on the ship-411.704.03162.07.26.8
140-504B140-504B-203R-1,39-421754.50.712powder prepared for X-ray fluorescence analysis on the ship-441.813.28426.434.81.0
140-504B140-504B-204R-1,28-321756.80.17powder prepared for X-ray fluorescence analysis on the ship-531.823.393710.625.41.4
140-504B140-504B-205R-1,10-131757.10.11powder prepared for X-ray fluorescence analysis on the ship-401.792.767224.047.20.6
140-504B140-504B-207R-1,0-41768.90.51powder prepared for X-ray fluorescence analysis on the ship-471.023.57211.619.00.0
140-504B140-504B-208R-1,0-31778.10.11powder prepared for X-ray fluorescence analysis on the ship4.5090.04.20.4
140-504B140-504B-208R-1,18-211778.70.34solid sample from vein-free sample4.29relicts
140-504B140-504B-208R-1,56-611780.40.414corresponding fresher rock adjacent to alteration halo4.692.9770.0110.02.0
140-504B140-504B-208R-1,56-611780.40.414alteration halo adjacent to vein3.772.8970.0352.048.0
140-504B140-504B-208R-2,76-811785.60.413solid sample from vein-free sample4.05
140-504B140-504B-208R-3,7-101787.30.11powder prepared for X-ray fluorescence analysis on the ship-502.484.11758.460.46.0
140-504B140-504B-209R-1,66-691789.40.311corresponding fresher rock adjacent to alteration halo4.242.8960.0200.05.0
140-504B140-504B-209R-1,66-691789.40.311alteration halo adjacent to vein3.522.7670.0325.049.0
140-504B140-504B-209R-2,108-1111793.30.317Bcorresponding fresher rock adjacent to alteration halo4.212.9700.0260.0
140-504B140-504B-209R-2,108-1111793.30.317Bpatch of alteration, and4.132.9370.00750.0
140-504B140-504B-211R-1,136-1401805.80.230Bpowder prepared for X-ray fluorescence analysis on the ship-461.104.33
140-504B140-504B-212R-1,4-71806.30.31Bpowder prepared for X-ray fluorescence analysis on the ship-471.144.403.001180.415.62.0
140-504B140-504B-212R-1,61-651812.10.317corresponding fresher rock adjacent to alteration halo4.382.9930.0200.04.0
140-504B140-504B-212R-1,61-651812.10.317alteration halo adjacent to vein4.153.0760.0820.050.0
140-504B140-504B-213R-1,79-831816.10.421powder prepared for X-ray fluorescence analysis on the ship-450.914.7100.00.00.0
140-504B140-504B-214R-1,24-281819.00.15Apowder prepared for X-ray fluorescence analysis on the ship-442.193.688210.670.41.4
140-504B140-504B-214R-2,0-51821.00.21solid sample from vein-free sample3.746.049.0
140-504B140-504B-214R-2,29-321821.60.27powder prepared for X-ray fluorescence analysis on the ship-411.773.80444.238.01.6
140-504B140-504B-214R-2,100-1031822.60.122powder prepared for X-ray fluorescence analysis on the ship-401.554.13120.06.46.0
140-504B140-504B-215R-1,0-41823.20.21powder prepared for X-ray fluorescence analysis on the ship-421.384.082.998140.210.84.4
140-504B140-504B-215R-1,43-461825.70.512solid sample from vein-free sample4.08
140-504B140-504B-216R-1,66-681834.90.914powder prepared for X-ray fluorescence analysis on the ship-401.573.9470.80.85.4
140-504B140-504B-217R-1,23-261845.51.16powder prepared for X-ray fluorescence analysis on the ship4.3870.00.46.6
140-504B140-504B-220R-1,27-301873.81.07powder prepared for X-ray fluorescence analysis on the ship-411.953.793.006163.06.46.4
140-504B140-504B-222R-1,101-1041891.70.719powder prepared for X-ray fluorescence analysis on the ship3.722.969354.226.04.6
140-504B140-504B-224R-1,59-621909.70.814powder prepared for X-ray fluorescence analysis on the ship-441.283.502.995370.437.00.0
140-504B140-504B-225R-1,126-1291916.50.433corresponding fresher rock adjacent to alteration halo4.372.9910.0150.00.0
140-504B140-504B-225R-1,126-1291916.50.433alteration halo adjacent to vein3.572.8980.0190.042.0
140-504B140-504B-226R-1,16-201920.20.13powder prepared for X-ray fluorescence analysis on the ship-421.144.19180.015.02.8
140-504B140-504B-227R-2,0-51924.80.31powder prepared for X-ray fluorescence analysis on the ship-441.704.06230.812.28.4
140-504B140-504B-236R-1,57-601982.40.38solid sample from vein-free sample3.571.040.0
140-504B140-504B-237R-1,24-261991.00.97solid sample from vein-free sample4.09